CN106040356A - Micron-grade wheat bran powder producing and processing device - Google Patents

Abstract

The invention discloses a micron-grade wheat bran powder producing and processing device which comprises a wheat bran storage bin, a conveying mechanism, a feeding bucket device, a wheat bran winnowing system, a cyclone separation device, a metal separation device, a wheat bran drying system, a hot air supply device, a wheat bran superfine grinding system, a dust collecting pipeline and an automatic wheat bran powder packaging system. The conveying mechanism is arranged at the front end of the wheat bran storage bin, and the feeding bucket device is arranged at the front end of the conveying mechanism. The wheat bran winnowing system is connected with the feeding bucket device. The cyclone separation device is connected with the wheat bran winnowing system. The metal separation device is connected with the cyclone separation device. The wheat bran drying system is connected with the metal separation device. The wheat bran superfine grinding system is connected with the wheat bran drying system. The automatic wheat bran powder packaging system is connected with the wheat bran superfine grinding system. The micron-grade wheat bran powder producing and processing device has the beneficial effect that flaky or powdery wheat bran can be automatically processed into micron-grade wheat bran powder to be eaten by people.

Description

Micron order wheat bran production and processing device

Technical field

The present invention relates to Testa Tritici production and processing field, particularly to a kind of micron order wheat bran production and processing device.

Background technology

Testa Tritici is the seed coat (i.e. Testa Tritici) under sieving after Semen Tritici aestivi mill takes flour, in the form of sheets or powdery.Rich in there being fibre in Testa Tritici Dimension element and vitamin, its main uses have edible, be used as medicine, feedstuff, wine brewing etc., wherein, the Testa Tritici of lamellar or powdery needs Just can be with human consumption after wheat bran to be processed into, research shows, wheat bran has following effect: 1, containing abundant in Testa Tritici Dietary fiber, is the nutrient of needed by human, can improve the fibre composition in food, improves constipation situation, simultaneously Can promote the excretion of fat and nitrogen, the treatment to clinical common fiber shortage property disease has great effect；2, due to edible Time taken in high microsteping composition, the discharge of steroid in feces can be reduced so that serum cholesterol decline, atherosclerosis Formation slow down；3, contribute to preventing colon and rectal cancer；4, the content of estrogen in blood can be reduced, mammary gland can be prevented Cancer；5, containing vitamin B group in Testa Tritici, many functions can be played in vivo, but also be indispensable in food homergy Few nutritional labeling.Owing to edible wheat bran can obtain many effects, therefore will have increasing people and start to eat Wheat bran, the demand of wheat bran also can get more and more.And the most domestic production and processing technology about wheat bran is still a piece of Blank, therefore develops and a set of integrates that wheat bran is automatically processed, packed, the process units of conveying etc. is extremely necessary.

Summary of the invention

The technical problem to be solved in the present invention, is to provide a kind of micron order wheat bran production and processing device, by this dress Put and realize the Testa Tritici of lamellar or powdery is processed into micron order wheat bran powder, with human consumption.

The present invention is achieved in that micron order wheat bran production and processing device, stores storehouse, a conveyer including a Testa Tritici Structure, a feeding barrel device, a Testa Tritici aidr bells blast system, a cyclone separator, a metal separating device, a Testa Tritici drying system, One hot-air supplying equipment, a Testa Tritici superfine comminution system, a dust collection pipeline, a control device and a wheat bran are wrapped automatically Dress system；

Described conveying mechanism is arranged on described Testa Tritici and stores the front end in storehouse, and described feeding barrel device is arranged on described conveyer The front end of structure, and by described conveying mechanism, the Testa Tritici of pack is delivered to described feeding barrel device；Described Testa Tritici aidr bells blast system It is connected with the discharge end of described feeding barrel device；Described cyclone separator is connected with the discharge end of described Testa Tritici aidr bells blast system Connect；Described metal separating device is connected with the bottom discharge end of described cyclone separator；Described Testa Tritici drying system and institute The bottom discharge end stating metal separating device is connected, and this Testa Tritici drying system provides hot blast by described hot-air supplying equipment It is dried；Described Testa Tritici superfine comminution system is connected with the discharge end of described Testa Tritici drying system；Described wheat bran is automatic Packaging system is connected with the discharge end of described Testa Tritici superfine comminution system；

Described conveying mechanism, feeding barrel device, Testa Tritici aidr bells blast system and cyclone separator all with described dust collection Pipeline is connected；Described conveying mechanism, feeding barrel device, Testa Tritici aidr bells blast system, cyclone separator, metal separating device, wheat Bran drying system, hot-air supplying equipment, Testa Tritici superfine comminution system and wheat bran automatic packaging system are all by described control Device is controlled.

Further, described conveying mechanism includes one first belt conveyor, a pulse dust removal equipment and one second skin Belt conveyor；Described first belt conveyor is arranged on described Testa Tritici and stores the front end in storehouse, and described pulse dust removal equipment is arranged on The front end of described first belt conveyor, described second belt conveyor is arranged on the front end of described pulse dust removal equipment；Described Pulse dust removal equipment is connected with described dust collection pipeline；Described first belt conveyor, pulse dust removal equipment and second Belt conveyor all electrically connects with described control device.

Further, described feeding barrel device include an electric block elevator, two enhancing hooks, one feed intake staving, One drainage screen, one first screw conveying pipe and one rotate batch charging mechanism；The top of the described staving that feeds intake be provided with one feed intake scarce Mouthful, the lower end of this breach that feeds intake is the most extended a placement platform；Described drainage screen is arranged on portion in described feeding barrel body；Described Rotate batch charging mechanism be arranged on described in feed intake the inner bottom part of staving；The bottom of the described staving that feeds intake is provided with a discharging opening, and this goes out Material mouth is connected with the feed end of described first screw conveying pipe；Described electric block elevator hang be located at described in feed intake staving Top, the top of enhancing hook described in two all suspension hooks with described electric block elevator are connected；The top of the described staving that feeds intake Portion is provided with one in the indentation, there that feeds intake described in correspondence and renovates, and the top of this staving that feeds intake is provided with a dust collection equipment, and this dust suction sets For being connected with described dust collection pipeline；

Described rotation batch charging mechanism includes a rotating disk and an electric rotating machine；Described electric rotating machine, electric block promote Machine and dust collection equipment all electrically connect with described control device；Described rotating disk is provided with one in the position of corresponding described discharging opening Blanking hole；Described rotating disk is connected to feed intake the inner bottom part of staving, and drives this rotation to spiral by the axle of described electric rotating machine Turn.

Further, described Testa Tritici aidr bells blast system includes a broken-line type body, a particulate collection casing and a whirlwind Blower fan；The middle and upper part of described broken-line type body is connected with the discharge end of described first screw conveying pipe；Described broken-line type body Top be connected with described cyclone separator；The bottom of described broken-line type body is connected with described particulate collection casing, This particulate collection casing is connected with described dust collection pipeline；Described whirlwind blower fan electrically connects with described control device, institute The middle and lower part stating broken-line type body is connected with this whirlwind blower fan, and by described whirlwind blower fan toward described broken-line type tubular body to Upper conveying wind.

Further, described metal separating device include a vacuum feeder, an evacuator, a metal detector, one Filter, a metalliferous material collecting box and a bypass valve；Described vacuum feeder goes out with the bottom of described cyclone separator Material end is connected, and described bypass valve is connected with described vacuum feeder, and described filter is connected with described bypass valve, described Evacuator is connected with described filter；Described metal detector is connected with the bottom discharge end of described vacuum feeder, Described metalliferous material collecting box is connected with the exhaust end of described metal detector；Described evacuator, metal detector and Bypass valve all electrically connects with described control device.

Further, described Testa Tritici drying system includes an one-level drying tower, a secondary drying tower, one first whirlwind blanking Device, one first cleaner and an induced-draught fan；Described one-level drying tower be internally provided with a helical duct, described metal is visited The bottom discharge end surveying device is connected with the lower end of described helical duct；Described first whirlwind blanking device, the first cleaner with And induced-draught fan all electrically connects with described control device；

Described secondary drying tower includes an outer tower body and an interior conduit；The bottom of described outer tower body is inverted cone-shaped structure； Said inner tube road is arranged on the inside of described outer tower body, and leaves a material channel between outer tower body and interior conduit；Described spiral The upper end of passage is connected with described material channel；The upper end in said inner tube road is connected with the upper end of described first whirlwind blanking device Logical, the lower end in said inner tube road is provided with a horn-like suction hood, and makes this horn-like suction hood be positioned at described inverted cone-shaped structure Surface；Described first cleaner is connected with the top of described first whirlwind blanking device, described induced-draught fan and described the One cleaner is connected.

Further, described hot-air supplying equipment includes that a combustion furnace, an air filter, a pressure fan and a water steam Gas catcher；Described combustion furnace is connected with described pressure fan, and by described pressure fan transporting cold wind to described combustion furnace；Described Steam catcher is connected with the top of described combustion furnace；One end of described air filter is connected with described combustion furnace, The other end is connected with the lower end of described helical duct；Described combustion furnace and pressure fan all electrically connect with described control device.

Further, described Testa Tritici superfine comminution system include a Testa Tritici water cooling plant, a first annular conveying pipe, one the Under one chain drive mechanism, one first driving chain, one first storage tank, at least one super micron mill, at least one second whirlwind Glassware, at least one second cleaner, one second screw conveying pipe and a hot blast collection conduit；

Described first annular conveying pipe vertically stands on ground；One end of described Testa Tritici water cooling plant and described first whirlwind The bottom discharge end of blanking device is connected, and the other end is connected with described first annular conveying pipe；Described first storage tank stands on Between upper pipe and the lower pipeline of described first annular conveying pipe, the top of described first storage tank is first annular with described The upper pipe of conveying pipe is connected, and bottom is connected with the lower pipeline of described first annular conveying pipe, and in this first storage One first Pneumatic butterfly valve it is provided with, bottom and described the between top and the upper pipe of described first annular conveying pipe of batch can One second Pneumatic butterfly valve it is provided with between the lower pipeline of one annular duct；Described first driving chain is arranged on described first The inside of annular duct, this first driving chain is provided with some first chain sheets；Described first chain drive mechanism is arranged On described first annular conveying pipe, and described first driving chain is driven to carry out transmission by this first chain drive mechanism；

The feed end of each described super micron mill all upper pipe with described first annular conveying pipe are connected, and each institute State and be provided with one the 3rd Pneumatic butterfly valve between the feed end of super micron mill and the upper pipe of described first annular conveying pipe, The discharge end of every described super micron mill is connected to the second whirlwind blanking device described in, and every described super micron mill is provided with One aspiration channel being used for inside air draught；The top of the most described second whirlwind blanking device is connected to the second cleaner described in, The bottom of each described second whirlwind blanking device is all connected with described second screw conveying pipe；The top of the most described second cleaner Portion is all connected with described hot blast collection conduit, and bottom is all connected with described second screw conveying pipe；Described super micron mill, Second whirlwind blanking device, the first Pneumatic butterfly valve, the second Pneumatic butterfly valve, the 3rd Pneumatic butterfly valve and the second cleaner are all with described Control device electrical connection；

Described first chain drive mechanism includes one first driving motor and one first head sprocket；Described first head sprocket It is arranged on the inside of described first annular conveying pipe, and is meshed with described first driving chain；Described first drive motor with Described control device electrically connects, and described first drives the axle of motor to be connected with described first head sprocket, and first is driven by this The axle of motor drives described first head sprocket to rotate；Described first annular conveying pipe is provided with one first in the inside of bending place Auxiliary sprocket wheel, described first auxiliary sprocket wheel is meshed with described first driving chain.

Further, steel pipe, an outer steel pipe, a screw rod transmission mechanism, an inlet channel in Testa Tritici water cooling plant includes one And an outlet conduit；Described outer steel pipe socket be located at the outside of described interior steel pipe, the closed at both ends of this outer steel pipe, and outer steel pipe with Leave a cooling water channel between interior steel pipe, this cooling water channel is provided with one first spiral septum；Described inlet channel is from institute The one end stating outer steel pipe is accessed, and described outlet conduit picks out from the other end of described outer steel pipe；Described screw rod transmission mechanism is arranged In described interior steel pipe；The feed end of described interior steel pipe is connected with the bottom discharge end of described first whirlwind blanking device, and this is interior The discharge end of steel pipe is connected with described first annular conveying pipe；

Described screw rod transmission mechanism includes one the 3rd driving motor, a bearing and a bull stick；Described 3rd drives motor Being fixedly installed on the one end of described interior steel pipe, and the 3rd drives motor to electrically connect with described control device, described bearing is solid Surely the other end of described interior steel pipe it is arranged on；Described bull stick is arranged on the inside of described interior steel pipe, and one end of this bull stick with Described 3rd drives the axle of motor to connect, and the other end is connected with described bearing；One second it is provided with on the outer surface of described bull stick Spiral septum.

Further, described wheat bran automatic packaging system includes one second annular duct, one second chain drive machine Structure, one second driving chain, one second storage tank, a packaging unit, sealing unit and a finished product conveyer group；Described Second ring conveying pipe vertically stands on ground, and the discharge end of described second screw conveying pipe is connected with this second annular duct Connect；Described second storage tank stands between upper pipe and the lower pipeline of described second annular duct, described second storing The top of tank is connected with the upper pipe of described second annular duct, bottom and the lower tube of described second annular duct Road is connected, and is provided with one the 4th between the upper pipe of the top of this second storage tank and described second annular duct Pneumatic butterfly valve, is provided with one the 5th Pneumatic butterfly valve between the lower pipeline of bottom and described second annular duct；Described second Driving chain is arranged on the inside of described second annular duct, and this second driving chain is provided with some second chain sheets；Institute State the second chain drive mechanism to be arranged in described second annular duct, and driven by this second chain drive mechanism described Second driving chain carries out transmission；Described packaging unit is connected with the upper pipe of described second annular duct, and described It is provided with one the 6th Pneumatic butterfly valve between feed end and the upper pipe of described second annular duct of packaging unit；Described Sealing unit is arranged on the front end of described packaging unit, and described finished product conveyer group is arranged on the front end of described sealing unit；Institute State packaging unit, sealing unit, the 4th Pneumatic butterfly valve, the 5th Pneumatic butterfly valve, the 6th Pneumatic butterfly valve and finished product conveyer group equal Electrically connect with described control device；

Described second chain drive mechanism includes one second driving motor and one second head sprocket；Described second head sprocket It is arranged on the inside of described second annular duct, and is meshed with described second driving chain；Described second drive motor with Described control device electrically connects, and described second drives the axle of motor to be connected with described second head sprocket, and second is driven by this The axle of motor drives described second head sprocket to rotate；Described second annular duct is provided with one second in the inside of bending place Auxiliary sprocket wheel, described second auxiliary sprocket wheel is meshed with described second driving chain.

Present invention have the advantage that production and processing device of the present invention can collect Testa Tritici automatic transport, feed intake, dedusting, dry Dry, pulverize, pack, sealing etc. in one, in actual production process, be possible not only to improve production efficiency, reduce manual intervention, Reducing production cost, and crushing effect is splendid, the wheat bran quality produced is good, edibility；Specifically include following Aspect: 1, by pulse dust removal equipment, the outer surface of Testa Tritici packaging bag can be carried out 360 degree and blow without dead angle, with by surface Dust is removed clean；2, the discontinuity of Testa Tritici can be realized by feeding barrel device to feed intake and the automatic lifting of Testa Tritici bag, from And reduce the situation that Testa Tritici blocking pipeline occurs and the fatigue strength reducing input personnel, improve production efficiency；3, wheat can be utilized Bran aidr bells blast system effectively removes in Testa Tritici the particulate matters such as the stone of doping, sand, and metal separating device can be utilized to isolate The Testa Tritici of overrun metal content, can improve the quality of the wheat bran produced；4, Testa Tritici drying system can be utilized Testa Tritici Carry out sufficiently effective being dried, and by Testa Tritici from original 14% moisture be reduced to about 2%, follow-up Testa Tritici is carried out to facilitate Crushed work；5, the wheat bran of extremely difficult pulverizing can be broken to micron even Nano grade, particle diameter, between 1-10um, pulverizes effect The best；6, no matter it is to pulverize Testa Tritici or when packing wheat bran, can effectively control Testa Tritici or the wheat bran of flowing Amount, is possible to prevent putty situation.

Accompanying drawing explanation

The present invention is further illustrated the most in conjunction with the embodiments.

Fig. 1 is the theory diagram of micron order wheat bran production and processing device of the present invention.

Fig. 2 is the structured flowchart that Testa Tritici carries out in the present invention dust removal process.

Fig. 3 is the structural representation of feeding barrel device in the present invention.

Fig. 3 a is the sectional view of staving of feeding intake in the present invention.

Fig. 4 is the structural representation of Testa Tritici aidr bells blast system in the present invention.

Fig. 5 is the structural representation of metal separating device in the present invention.

Fig. 6 is the structural representation of Testa Tritici drying system in the present invention.

Fig. 6 a is the sectional view of one-level drying tower in the present invention.

Fig. 6 b is the sectional view of secondary drying tower in the present invention.

Fig. 7 is the structural representation of first annular conveying pipe in Testa Tritici superfine comminution system of the present invention.

Fig. 7 a is the structural representation of Testa Tritici superfine comminution system in the present invention

Fig. 8 is the structural representation of Testa Tritici water cooling plant in the present invention.

Fig. 8 a is the sectional view of Testa Tritici water cooling plant in the present invention.

Fig. 9 is the structural representation of wheat bran automatic packaging system in the present invention.

Drawing reference numeral illustrates:

A-Testa Tritici stores storehouse, b-dust collection pipeline, c-rack, d-crossbeam, 1-conveying mechanism, 2-feeding barrel device, 3-Testa Tritici aidr bells blast system, 4-cyclone separator, 5-metal separating device, 6-Testa Tritici drying system, 7-hot-air supplying equipment, 8- Testa Tritici superfine comminution system, 9-wheat bran automatic packaging system, 11-the first belt conveyor, 12-pulse dust removal equipment, 13- Two belt conveyors, 21-electric block elevator, 211-suspension hook, 22-enhancing hook, 23-feeds intake staving, and 231-feeds intake breach, 232-placement platform, 233-discharging opening, 234-renovates, 24-drainage screen, 25-the first screw conveying pipe, and 26-rotates batch charging mechanism, 261-rotating disk, 2611-blanking hole, 262-electric rotating machine, 27-dust collection equipment, 31-broken-line type body, 32-particulate collection case Body, 33-whirlwind blower fan, 51-vacuum feeder, 52-evacuator, 53-metal detector, 54-filter, 55-metalliferous material Collecting box, 56-bypass valve, 61-one-level drying tower, 611-helical duct, 62-secondary drying tower, the outer tower body of 621-, 6211-falls Pyramidal structure, 622-interior conduit, the horn-like suction hood of 6221-, 623-material channel, 63-the first whirlwind blanking device, 64-first Cleaner, 65-induced-draught fan, 71-combustion furnace, 72-air filter, 73-pressure fan, 74-steam catcher, 80-Testa Tritici Water cooling plant, steel pipe in 801-, the outer steel pipe of 802-, 803-screw rod transmission mechanism, 8031-the 3rd drives motor, 8032-bearing, 8033-bull stick, 8034-the second spiral septum, 804-inlet channel, 805-outlet conduit, 806-cooling water channel, 8061- One spiral septum, 81-first annular conveying pipe, the upper pipe of 811-first annular conveying pipe, the first annular conveying of 812- The lower pipeline of pipe, 82-the first chain drive mechanism, 821-first drives motor, 822-the first head sprocket, the auxiliary chain of 823-first Wheel, 83-the first driving chain, 831-the first chain sheet, 84-the first storage tank, 85-super micron mill, 851-aspiration channel, 86-the Two whirlwind blanking devices, 87-the second cleaner, 88-the second screw conveying pipe, 89-hot blast collection conduit, 91-the second annular is defeated Sending pipe, the upper pipe of 911-the second annular duct, the lower pipeline of 912-the second annular duct, 92-the second chain drives Motivation structure, 921-second drives motor, 922-the second head sprocket, the auxiliary sprocket wheel of 923-second, 93-the second driving chain, 931- Two chain sheets, 94-the second storage tank, 95-packs unit, 951-packer, and 96-seals unit, 961-sealing machine, and 97-finished product is defeated Send unit, 971-finished product conveyer, 101-the first Pneumatic butterfly valve, 102-the second Pneumatic butterfly valve, 103-the 3rd Pneumatic butterfly valve, 104- 4th Pneumatic butterfly valve, 105-the 5th Pneumatic butterfly valve, 106-the 6th Pneumatic butterfly valve.

Detailed description of the invention

Refer to shown in Fig. 1 to Fig. 9, micron order wheat bran production and processing device, stores storehouse a, a conveying including a Testa Tritici Mechanism 1, one feeding barrel device 2, Testa Tritici aidr bells blast system 3, cyclone separator 4, metal separating device 5, Testa Tritici is done Drying system 6, one hot-air supplying equipment 7, Testa Tritici superfine comminution system 8, wheat bran automatic packaging system 9, dust collection Pipeline b and one controls device (not shown)；

Please emphasis with reference to shown in Fig. 1, described conveying mechanism 1 is arranged on described Testa Tritici and stores the front end of storehouse a, described feeding barrel Device 2 is arranged on the front end of described conveying mechanism 1, and by described conveying mechanism 1 Testa Tritici of pack is delivered to described in feed intake Barrel 2, in the specific implementation, it is also possible to a rack c is set between conveying mechanism 1 and feeding barrel device 2, is used for putting Put and carry, from conveying mechanism 1, the Testa Tritici that comes；Described Testa Tritici aidr bells blast system 3 is connected with the discharge end of described feeding barrel device 2, should Testa Tritici aidr bells blast system 3 is for carrying out selecting crude drugs with winnower to Testa Tritici, with particulate separation such as the sand that will be entrained in Testa Tritici, stones out； Described cyclone separator 4 is connected with the discharge end of described Testa Tritici aidr bells blast system 3, and this cyclone separator 4 is for passing through Testa Tritici and the wind of selecting crude drugs with winnower separate；Described metal separating device 5 is connected with the bottom discharge end of described cyclone separator 4 Connect；Described Testa Tritici drying system 6 is connected with the bottom discharge end of described metal separating device 5, and this Testa Tritici drying system 6 leads to Crossing described hot-air supplying equipment 7 provides hot blast to be dried, after drying, can by Testa Tritici from original 14% moisture be reduced to About 2%；Described Testa Tritici superfine comminution system 8 is connected with the discharge end of described Testa Tritici drying system 6；Described wheat bran is automatic Packaging system 9 is connected with the discharge end of described Testa Tritici superfine comminution system 8；

Described conveying mechanism 1, feeding barrel device 2, Testa Tritici aidr bells blast system 3 and cyclone separator 4 all with described dust Collection conduit b is connected, and, processes with unified by this dust collection pipeline b by dust collection together；Described conveyer Structure 1, feeding barrel device 2, Testa Tritici aidr bells blast system 3, cyclone separator 4, metal separating device 5, Testa Tritici drying system 6, hot blast Feeding mechanism 7, Testa Tritici superfine comminution system 8 and wheat bran automatic packaging system 9 are all controlled by described control device.

Please emphasis with reference to shown in Fig. 2, described conveying mechanism 1 includes one first belt conveyor 11, pulse dust removal equipment 12 and one second belt conveyor 13；Described first belt conveyor 11 is arranged on described Testa Tritici and stores the front end of storehouse a, described Pulse dust removal equipment 12 is arranged on the front end of described first belt conveyor 11, and described second belt conveyor 13 is arranged on described The front end of pulse dust removal equipment 12；Described pulse dust removal equipment 12 is connected with described dust collection pipeline b；Described first belt Conveyer 11, pulse dust removal equipment 12 and the second belt conveyor 13 all electrically connect with described control device.When implementing, need Testa Tritici be will be stored in stores in a of storehouse being placed on the first belt conveyor 11 of one bag one bag of the Testa Tritici of pack, and by control Device processed controls the first belt conveyor 11 and is transported in pulsed dust-removing device 12 carry out dedusting, this arteries and veins one bag by one bag by Testa Tritici Rushing dust arrester 12 uses the air pulse outer surface to Testa Tritici packaging bag in a less space to carry out 360 degree without dead angle Blow, can the dust being stained with in course of conveying be removed clean；Testa Tritici after pulse dust removal can enter one bag by one bag again Enter to the second belt conveyor 13, and control the second belt conveyor 13 by controlling device Testa Tritici is transported to one bag by one bag Feeding barrel device 2 is thrown in.

Please emphasis with reference to shown in Fig. 3 and Fig. 3 a, described feeding barrel device 2 includes that an electric block elevator 21, two carries Rise hook 22, staving 23, drainage screen 24,1 first screw conveying pipe 25 and that feeds intake and rotate batch charging mechanism 26；Described The feed intake top of staving 23 is provided with one and feeds intake breach 231, and the lower end of this breach 231 that feeds intake is the most extended a placement platform 232, when throwing in Testa Tritici in the staving 23 that past to feed intake, can first pack Testa Tritici be placed on this placement platform 232, the most again Open bag mouth and shift packaging bag onto, thus realizing throwing in Testa Tritici in the staving 23 that feeds intake；Described drainage screen 24 is arranged on described throwing Charging basket body 23 is internal, and this drainage screen 24 can stop the impurity such as packaging bag lines, larger particles to enter into feed intake in staving 23； Described rotation batch charging mechanism 26 feeds intake the inner bottom part of staving 23 described in being arranged on；The described bottom feeding intake staving 23 is provided with one and goes out Material mouth 233, this discharging opening 233 is connected with the feed end of described first screw conveying pipe 25.Described electric block elevator 21 Hang the top of the staving 23 that feeds intake described in being located at, when implementing, electric block elevator 21 can be hung the crossbeam d being located at roof On, all suspension hooks 211 with described electric block elevator 21 of the top of enhancing hook 22 described in two are connected, operationally, and can Enhancing hook 22 to be hooked in the bottom of packaging bag, and control enhancing hook 22 and be automatically lifted up, thus realize packaging bag Interior Testa Tritici is all poured into and feeds intake in staving 23；The top of the described staving 23 that feeds intake sets at the breach 231 that feeds intake described in correspondence It is equipped with one and renovates 234, when being made without feeding intake, this can be renovated 234 and cover, to prevent dust from passing in and out the staving 23 that feeds intake In, this top feeding intake staving 23 is provided with a dust collection equipment 27, and this dust collection equipment 27 is connected with described dust collection pipeline b Connecing, during feeding intake, the dust produced that feeds intake can be pooled in dust collection pipe b by dust collection equipment 27；

Described rotation batch charging mechanism 26 includes rotating disk 261 and an electric rotating machine 262；Described electric rotating machine 262, electricity Dynamic calabash elevator 21 and dust collection equipment 27 all electrically connect with described control device；Described rotating disk 261 is going out described in correspondence The position of material mouth 233 is provided with a blanking hole 2611；Described rotating disk 261 is connected to feed intake the inner bottom part of staving 23, and passes through The axle (not shown) of described electric rotating machine 262 drives this rotating disk 261 to rotate.When implementing, electric rotating machine 262 can be arranged At the outer bottom of staving 23 that feeds intake, the axle of electric rotating machine 262 then through the bottom of the staving 23 that feeds intake and is connected with rotating disk 261. During electric rotating machine 262 is rotated dish 261 rotation, when rotation is directed at discharging opening 233 to blanking hole 2611, Testa Tritici Will drop into the first screw conveying pipe 25 from rotating disk 261, the first screw conveying pipe 25 can be at motor (not shown) Effect is lower drives Testa Tritici to be threadingly advanced.

Please emphasis with reference to shown in Fig. 4, described Testa Tritici aidr bells blast system 3 includes broken-line type body 31, particulate collection case Body 32 and a whirlwind blower fan 33；The discharge end phase of the middle and upper part of described broken-line type body 31 and described first screw conveying pipe 25 Connect, for Testa Tritici is sent in broken-line type body 31；The top of described broken-line type body 31 and described cyclone separator 4 It is connected；The bottom of described broken-line type body 31 is connected with described particulate collection casing 32, this particulate collection casing 32 with Described dust collection pipeline b is connected；Described whirlwind blower fan 33 electrically connects with described control device, described broken-line type body 31 Middle and lower part is connected with this whirlwind blower fan 33, and is delivered up toward described broken-line type body 31 is internal by described whirlwind blower fan 33 Wind.Operationally, first regulating the wind-force of whirlwind blower fan 33, lighter Testa Tritici is blown upward by the wind sent into by whirlwind blower fan 33 Cyclone separator 4, the particulate matter such as heavier stone, sand then can fall into downwards in particulate collection casing 32, thus real The now screening to Testa Tritici.The debugging of whirlwind blower fan 33 wind-force is as follows: first by little sandstone etc. by whirlwind blower fan 33, then debug wind-force Make little sandstone etc. will not be blown into cyclone separator 4 and particulate collection casing 32 can be dropped to, thus draw maximum wind power； Then by pure Testa Tritici raw material by whirlwind blower fan 33, then debug wind-force make Testa Tritici raw material can enter cyclone separator 4 without Drop to particulate collection casing 32, thus draw minimum wind force；Implement time, can according to actual needs maximum wind power with Suitable regulation is carried out between minimum wind force.

Please emphasis with reference to shown in Fig. 5, described metal separating device 5 includes vacuum feeder 51, evacuator 52, Metal detector 53, one filter 54, metalliferous material collecting box 55 and a bypass valve 56；Described vacuum feeder 51 and institute The bottom discharge end stating cyclone separator 4 is connected, and described bypass valve 56 is connected with described vacuum feeder 51, described mistake Filter 54 is connected with described bypass valve 56, and described evacuator 52 is connected with described filter 54, and this filter 54 is used for The gas of suction is carried out filtration treatment；Operationally, by evacuator 52, vacuum feeder 51 can be carried out evacuation, Thus realize being drawn in vacuum feeder 51 Testa Tritici in cyclone separator 4, when need not evacuation, can open Bypass valve 56, makes the air outside evacuator 52 cyclic suction.Described metal detector 53 and described vacuum feeder 51 Bottom discharge end is connected, and described metalliferous material collecting box 55 is connected with the exhaust end of described metal detector 53, this metal Material collection case 55 is for collecting the Testa Tritici of overrun metal content；Described evacuator 52, metal detector 53 and bypass valve 56 all electrically connect with described control device.

Please emphasis with reference to shown in Fig. 6, Fig. 6 a and Fig. 6 b, described Testa Tritici drying system 6 includes an one-level drying tower 61,1 Level drying tower 62,1 first whirlwind blanking device 63,1 first cleaner 64 and an induced-draught fan 65；Described one-level drying tower 61 Be internally provided with a helical duct 611, by the purpose that the inside of one-level drying tower 61 is designed to helical duct 611 be: permissible Increase the time that Testa Tritici contacts with hot blast, thus improve drying effect；The bottom discharge end of described metal detector 53 is with described The lower end of helical duct 611 is connected；Described first whirlwind blanking device the 63, first cleaner 64 and induced-draught fan 65 are all and institute State control device electrical connection；Described secondary drying tower 62 includes outer tower body 621 and an interior conduit 622；Described outer tower body 621 Bottom be inverted cone-shaped structure 6211；Said inner tube road 622 is arranged on the inside of described outer tower body 621, and outer tower body 621 is with interior A material channel 623 is left between pipeline 622；The upper end of described helical duct 611 is connected with described material channel 623；Institute The upper end of the upper end and described first whirlwind blanking device 63 of stating interior conduit 622 is connected, and the lower end in said inner tube road 622 is provided with One horn-like suction hood 6221, and make this horn-like suction hood 6221 be positioned at the surface of described inverted cone-shaped structure 6211；Described First cleaner 64 is connected with the top of described first whirlwind blanking device 63, and described induced-draught fan 65 sets with described first dedusting Standby 64 are connected.Operationally, Testa Tritici can first be fallen into inverted cone-shaped structure 6211 from material channel 623, then passes through induced-draught fan Testa Tritici is up inhaled by the suction of 65, and enters in the first whirlwind blanking device 63.

Described hot-air supplying equipment 7 includes combustion furnace 71, air filter 72, pressure fan 73 and a steam Catcher 74；Described combustion furnace 71 is connected with described pressure fan 73, and by described pressure fan 73 transporting cold wind to described burning Stove 71, after cold wind enters combustion furnace 71, cold air heating will be become hot blast by combustion furnace 71；Described steam catcher 74 is with described The top of combustion furnace 71 is connected, and this steam catcher 74 is produced steam during being used for collecting cold air heating；Institute The one end stating air filter 72 is connected with described combustion furnace 71, and the other end is connected with the lower end of described helical duct 611, This air filter 72 is for carrying out filtration treatment to the hot blast after heating；Described combustion furnace 71 and pressure fan 73 all with described control Device processed electrically connects.

Please emphasis with reference to shown in Fig. 7 and Fig. 7 a, described Testa Tritici superfine comminution system 8 includes a Testa Tritici water cooling plant 80, First annular conveying pipe 81,1 first chain drive mechanism 82,1 first driving chain 83,1 first storage tank 84, at least Super micron mill 85, at least one second whirlwind blanking device 86, at least one second cleaner 87,1 second screw conveying pipe 88 with And a hot blast collection conduit 89；Described first annular conveying pipe 81 vertically stands on ground；The one of described Testa Tritici water cooling plant 80 End is connected with the bottom discharge end of described first whirlwind blanking device 63, and the other end is connected with described first annular conveying pipe 81 Connect, this Testa Tritici water cooling plant 80 for dried Testa Tritici is cooled down (because Testa Tritici is through dried, temperature the most all than Higher, so needing to cool down)；Described first storage tank 84 stands on the upper pipe 811 of described first annular conveying pipe 81 And between lower pipeline 812, upper pipe 811 phase of the top of described first storage tank 84 and described first annular conveying pipe 81 Connecting, bottom is connected with the lower pipeline 812 of described first annular conveying pipe 81, and at the top of this first storage tank 84 and It is provided with one first Pneumatic butterfly valve 101 between the upper pipe 811 of described first annular conveying pipe 81, is used for controlling whether wheat Bran is stored in the first storage tank 84, is provided with one between the lower pipeline 812 of bottom and described first annular conveying pipe 81 Two Pneumatic butterfly valves 102, are used for controlling whether to supplement Testa Tritici in first annular conveying pipe 81；Described first driving chain 83 is arranged In the inside of described first annular conveying pipe 81, this first driving chain 83 is provided with some first chain sheets 831；Described first Chain drive mechanism 82 is arranged on described first annular conveying pipe 81, and is driven described by this first chain drive mechanism 82 First driving chain 83 carries out transmission；During the first chain drive mechanism 82 drives the first driving chain 83 transmission, enter Enter the Testa Tritici in first annular conveying pipe 81 to move forward along with the first chain sheet 831, thus realize the conveying of Testa Tritici.

The feed end of each described super micron mill 85 all upper pipe 811 with described first annular conveying pipe 81 are connected Connect, and be respectively provided with between the upper pipe 811 of the feed end of each described super micron mill 85 and described first annular conveying pipe 81 There is one the 3rd Pneumatic butterfly valve 103, be used for controlling whether to deliver to Testa Tritici super micron mill 85 is pulverized, every described superfine powder The discharge end of broken machine 85 is connected to the second whirlwind blanking device 86 described in, every described super micron mill 85 be provided with one for The inwardly aspiration channel 851 of air draught；The top of the most described second whirlwind blanking device 86 is connected to the second cleaner 87 described in, The bottom of each described second whirlwind blanking device 86 is all connected with described second screw conveying pipe 88；The most described second cleaner The top of 87 is all connected with described hot blast collection conduit 89, and bottom is all connected with described second screw conveying pipe 88；Described Super micron mill the 85, second whirlwind blanking device the 86, first Pneumatic butterfly valve the 101, second Pneumatic butterfly valve the 102, the 3rd Pneumatic butterfly valve 103 And second cleaner 87 all electrically connect with described control device.Operationally, by first annular conveying pipe 81 by Testa Tritici Being sent in super micron mill 85, super micron mill 85, when driving Testa Tritici to carry out high speed rotating shock pulverizing, also can utilize certainly The suction of body pass through aspiration channel 851 air draught inside, and by wind-force will pulverizing after Testa Tritici be sent to the second whirlwind blanking device 86 In, the second whirlwind blanking device 86 can carry out cyclonic separation to the Testa Tritici pulverized and hot blast, and the wheat bran after separation can enter into the In two screw conveying pipe 88, hot blast can enter in the second cleaner 87 (this second cleaner 87 is sack cleaner) and remove Dirt, the Testa Tritici after dedusting enters into the second screw conveying pipe 88, and hot blast is then pooled in hot blast collection conduit 89.Wherein, ultra micro Pulverizer 85 (is specifically referred to grinding disclosed in Patent No. 201410472695.3 for the leading disintegrating apparatus in the whole world Equipment), this super micron mill 85 uses thing thing head-on collision principle, by making the material high-speed within entrance super micron mill 85 revolve Turn, the speed difference utilizing material to produce because entry time is different, the material shock that " knocks into the back " can be realized and pulverize.This micronizing The wheat bran of extremely difficult pulverizing can be broken to micron even Nano grade by machine 85, and particle diameter is between 1-10um.

Described first chain drive mechanism 82 includes one first driving motor 821 and one first head sprocket 822；Described One head sprocket 822 is arranged on the inside of described first annular conveying pipe 81, and is meshed with described first driving chain 83；Described First drives motor 821 to electrically connect with described control device, and described first drives the axle (not shown) and described first of motor 821 Head sprocket 822 connects, and drives described first head sprocket 822 to rotate by the axle of this first driving motor 821；Described first ring Shape conveying pipe 81 is provided with one first auxiliary sprocket wheel 823 in the inside of bending place, and described first auxiliary sprocket wheel 823 passes with described first Dynamic chain 83 is meshed, so, during the first driving chain 83 transmission, it is possible to effectively prevent because of the first chain sheet 831 It is stuck in and bends out and make the first driving chain 83 cannot normally transmission.

Please emphasis with reference to shown in Fig. 8 and Fig. 8 a, Testa Tritici water cooling plant 80 include one in the outer steel pipe 802, of steel pipe 801, Screw rod transmission mechanism 803, one inlet channel 804 and an outlet conduit 805；Described outer steel pipe 802 is set in described interior steel pipe The outside of 801, the closed at both ends of this outer steel pipe 802, and between outer steel pipe 802 and interior steel pipe 801, leave a cooling water channel 806, One first spiral septum 8061 it is provided with, so, when cooling water is after inlet channel 804 enters, just on this cooling water channel 806 Can the most up walk along cooling water channel 806, and finally flow out from outlet conduit 805, to reach preferable cooling effect；Described Inlet channel 804 accesses from one end of described outer steel pipe 802, and described outlet conduit 805 is from another termination of described outer steel pipe 802 Go out；Described screw rod transmission mechanism 803 is arranged in described interior steel pipe 801；The feed end of described interior steel pipe 801 and described first rotation The bottom discharge end of wind blanking device 63 is connected, and the discharge end of this interior steel pipe 801 is connected with described first annular conveying pipe 81, To realize being sent in first annular conveying pipe 81 Testa Tritici；

Described screw rod transmission mechanism 803 includes one the 3rd driving motor 8031, bearing 8032 and a bull stick 8033；Institute State the 3rd driving motor 8031 and be fixedly installed on the one end of described interior steel pipe 801, and the 3rd drives motor 8031 with described Controlling device electrical connection, described bearing 8032 is fixedly installed on the other end of described interior steel pipe 801；Described bull stick 8033 is arranged In the inside of described interior steel pipe 801, and one end of this bull stick 8033 drives the axle (not shown) of motor 8031 even with the described 3rd Connecing, the other end is connected with described bearing 8032；One second spiral septum 8034 it is provided with on the outer surface of described bull stick 8033. Operationally, driving motor 8031 to drive bull stick 8033 to rotate by the 3rd, bull stick 8033, will during rotating Carried forward with Testa Tritici by the second spiral septum 8034.

Please emphasis with reference to shown in Fig. 9, described wheat bran automatic packaging system 9 includes one second annular duct 91,1 the Two chain drive mechanism 92,1 second driving chain 93,1 second storage tank 94, packaging units 95 (include some packagings Machine 951), one sealing unit 96 (including some sealing machines 961) and a finished product conveyer group 97 (include that some finished products are defeated Send machine 971)；Described second annular duct 91 is vertically stood on ground, the discharge end of described second screw conveying pipe 88 with should Second annular duct 91 is connected；Described second storage tank 94 stands on the upper pipe 911 of described second annular duct 91 And between lower pipeline 912, upper pipe 911 phase of the top of described second storage tank 94 and described second annular duct 91 Connecting, bottom is connected with the lower pipeline 912 of described second annular duct 91, and at the top of this second storage tank 94 and It is provided with one the 4th Pneumatic butterfly valve 104 between the upper pipe 911 of described second annular duct 91, is used for controlling whether wheat Bran powder is stored in the second storage tank 94, is provided with one between the lower pipeline 912 of bottom and described second annular duct 91 5th Pneumatic butterfly valve 105, is used for controlling whether to supplement wheat bran in the second annular duct 91；Described second driving chain 93 It is arranged on the inside of described second annular duct 91, this second driving chain 93 is provided with some second chain sheets 931；Described Second chain drive mechanism 92 is arranged in described second annular duct 91, and is driven by this second chain drive mechanism 92 Described second driving chain 93 carries out transmission, drives the process of the second driving chain 93 transmission at the second chain drive mechanism 92 In, entering the Testa Tritici in the second annular duct 91 will move forward along with the second chain sheet 931, thus realizes the defeated of wheat bran Send.Described packaging unit 95 is connected with the upper pipe 911 of described second annular duct 91, and described packaging unit 95 It is provided with one the 6th Pneumatic butterfly valve 106 between the upper pipe 911 of feed end and described second annular duct 91, is used for controlling Whether system is delivered to pack unit 95 intermediate package by wheat bran；Described sealing unit 96 is arranged on the front end of described packaging unit 95, For packaged wheat bran being carried out sealing process, before described finished product conveyer group 97 is arranged on described sealing unit 96 End, for sending to entrucking by the wheat bran machined；Described packaging unit 95, sealing unit the 96, the 4th Pneumatic butterfly valve 104, 5th Pneumatic butterfly valve the 105, the 6th Pneumatic butterfly valve 106 and finished product conveyer group 97 all electrically connect with described control device；

Described second chain drive mechanism 92 includes one second driving motor 921 and one second head sprocket 922；Described Two head sprockets 922 are arranged on the inside of described second annular duct 91, and are meshed with described second driving chain 93；Described Second drives motor 921 to electrically connect with described control device, and described second drives the axle (not shown) and described second of motor 921 Head sprocket 922 connects, and drives described second head sprocket 922 to rotate by the axle of this second driving motor 921；Described second ring Shape conveying pipe 91 is provided with one second auxiliary sprocket wheel 923 in the inside of bending place, and described second auxiliary sprocket wheel 923 passes with described second Dynamic chain 93 is meshed, so, during the second driving chain 93 transmission, it is possible to effectively prevent because of the second chain sheet 931 It is stuck in and bends out and make the second driving chain 93 cannot normally transmission.

The operation principle of the present invention is as follows: will be stored in pack one bag of one bag is placed into of Testa Tritici that Testa Tritici stores in a of storehouse On first belt conveyor 11, and control the first belt conveyor 11 by controlling device the Testa Tritici of pack is transported to pulse removes Dedusting in dirt device 12, the dust of cleaning will converge in dust collection pipe b, and the Testa Tritici after pulse dust removal again can one bag one Enter into the second belt conveyor 13 bag, and control the second belt conveyor 13 by one bag of one bag of ground of Testa Tritici by controlling device Flow to feeding barrel device 2；

After being transported to feeding barrel device 2, pack Testa Tritici is placed on placement platform 232, opens bag mouth and shift packaging onto Bag, makes Testa Tritici enter into through drainage screen 24 and feeds intake in staving 23, and throwing in the dust produced will be converged to by dust collection equipment 27 In dust collection pipe b, meanwhile, enhancing hook 22 is hooked in the bottom of packaging bag, and controls enhancing hook 22 by controlling device Automatically it is lifted up, thus realizes all being poured into the Testa Tritici in packaging bag feeding intake in staving 23；Testa Tritici enters the staving that feeds intake After 23, control electric rotating machine 262 and dish 261 is rotated by controlling device rotates, rotating disk 261 during rotating, when When rotation to blanking hole 2611 is directed at discharging opening 233, Testa Tritici will drop into the first screw conveying pipe 25 from rotating disk 261, And by the first screw conveying pipe 25, Testa Tritici is delivered in Testa Tritici aidr bells blast system 3；

After entering Testa Tritici aidr bells blast system 3, work, by whirlwind blower fan 33 from folding by controlling device control whirlwind blower fan 33 Up blowing in the middle and lower part of wire type body 31, is blown upward in cyclone separator 4 by lighter Testa Tritici, and heavier stone The particulate matters such as son, sand then can be fallen into downwards in particulate collection casing 32, thus realizes Testa Tritici and the granule such as stone, sand Thing is effectively separated；Being blown into the Testa Tritici in cyclone separator 4 after cyclonic separation, wind and dust will be pooled to dust In collecting pipe b, Testa Tritici then enters in vacuum feeder 51 under the suction of evacuator 52；Vacuum feeder 51 is defeated by Testa Tritici Give metal detector 53, and when metal detector 53 detects the overrun metal content in Testa Tritici, just tenor is surpassed Target Testa Tritici is discharged in metalliferous material collecting box 55, is the most just sent to Testa Tritici be dried in Testa Tritici drying system 6；

When dry, Testa Tritici is introduced in one-level drying tower 61, meanwhile, by pressure fan 73 and combustion furnace 71 toward one-level Drying tower 61 is conveyed through the hot blast that air filter 72 filters, and opens induced-draught fan 65 and carry out air draught, in hot blast thrust and Under the effect of induced-draught fan suction, Testa Tritici will first be delivered up to secondary drying tower 62 along helical duct 611；Testa Tritici is entering two After level drying tower 62, first fall into the inverted cone-shaped structure 6211 of bottom from material channel 63, then at hot blast thrust and induced-draught fan Under the effect of suction, can be delivered up along interior conduit 622 again, and enter in the first whirlwind blanking device 63, Testa Tritici is passing through During one-level drying tower 61 and secondary drying tower 62, hot blast except there being the effect of thrust to Testa Tritici, the most permissible Testa Tritici is dried, with by Testa Tritici from original 14% moisture be reduced to about 2%；Enter the wheat of the first whirlwind blanking device 63 Bran is after cyclonic separation, and hot blast can be by discharging after the dust removal process of the first cleaner 64, and Testa Tritici is then downwardly into Testa Tritici Water cooling plant 80 carries out water-cooled process；

Testa Tritici after water-cooled processes can enter first annular conveying pipe 81, and driving at the first chain drive mechanism 82 Dynamic lower drive Testa Tritici circulates along first annular conveying pipe 81, when in first annular conveying pipe 81, the Testa Tritici amount of flowing is more Time, it is switched on the first Pneumatic butterfly valve 101, to be temporarily stored in the first storage tank 84 by a part of Testa Tritici；When first annular defeated When sending the interior Testa Tritici amount flowed of pipe 81 less, it is switched on the second Pneumatic butterfly valve 102, to be supplemented by the Testa Tritici in the first storage tank 84 In first annular conveying pipe 81；When Testa Tritici is sent to pulverizing, it is switched on the 3rd Pneumatic butterfly valve 103, Testa Tritici is sent into super In atomizer 85；Super micron mill 85 drives Testa Tritici to carry out high speed rotating shock and pulverizes, and by the suction of self from air draught Pipe 851 air draught inside, clashes into the wheat bran after pulverizing and hot blast can be followed under the action of the forces of the wind to enter into together under the second whirlwind In glassware 86；Second whirlwind blanking device 86 carries out cyclonic separation to material, and the wheat bran after separation can be downwardly into the second spiral shell In rotation feed pipe 88, the hot blast after separation can enter in the second cleaner 87 (owing to the wheat bran after pulverizing is the least, particle diameter Between 1-10um, so after even across cyclonic separation, hot blast still can take away a part of wheat bran), hot blast is through After two cleaners 87, the wheat bran carried in hot blast can stick on cloth bag and eventually fall into the second screw conveying pipe 88 In, hot blast is then pooled in hot blast collection conduit 89；

Wheat bran is sent in the second annular duct 91 by the second screw conveying pipe 88, and at the second chain drive mechanism 92 Driving under drive wheat bran circulate along the second annular duct 91, when the second annular duct 91 in flow wheat bran Time more, it is switched on the 4th Pneumatic butterfly valve 104, a part of wheat bran to be temporarily stored in the second storage tank 94；When second When the wheat bran of flowing is less in annular duct 91, it is switched on the 5th Pneumatic butterfly valve 105, with by the wheat in the second storage tank 94 Bran powder adds in the second annular duct 91；When wheat bran is sent to packaging, it is switched on the 6th Pneumatic butterfly valve 406, will Wheat bran is sent in packaging unit 95, after wheat bran is packaged by packaging unit 95, just delivers to seal in unit 96 seal Process, and the wheat bran after sealing is sent to entrucking by finished product conveyer group 97.

In sum, there is advantages that production and processing device of the present invention can collect Testa Tritici automatic transport, Feed intake, dedusting, be dried, pulverize, pack, sealing etc. in one, in actual production process, be possible not only to improve production efficiency, Reducing manual intervention, reduce production cost, and crushing effect is splendid, the wheat bran quality produced is good, edibility；Specifically Including the following aspects: 1, by pulse dust removal equipment, the outer surface of Testa Tritici packaging bag can be carried out 360 degree and blow without dead angle Gas is clean to be removed by the dust on surface；2, the discontinuity of Testa Tritici can be realized by feeding barrel device to feed intake and Testa Tritici bag Automatic lifting, thus reduce occur Testa Tritici blocking pipeline situation and reduce input personnel fatigue strength, improve production efficiency； 3, Testa Tritici aidr bells blast system can be utilized effectively to remove in Testa Tritici the particulate matters such as the stone of doping, sand, and metal can be utilized to divide Isolate the Testa Tritici of overrun metal content from device, the quality of the wheat bran produced can be improved；4, Testa Tritici can be utilized to do Drying system Testa Tritici is carried out sufficiently effective be dried, and by Testa Tritici from original 14% moisture be reduced to about 2%, after facilitating Continue and Testa Tritici is carried out crushed work；5, the wheat bran of extremely difficult pulverizing can be broken to micron even Nano grade, particle diameter is at 1- Between 10um, good crushing effect；6, no matter it is to pulverize Testa Tritici or when packing wheat bran, can effectively control flowing Testa Tritici or wheat bran amount, be possible to prevent occur putty situation.

Although the foregoing describing the detailed description of the invention of the present invention, but those familiar with the art should managing Solving, our described specific embodiment is merely exemplary rather than for the restriction to the scope of the present invention, is familiar with this The technical staff in field, in the equivalent modification made according to the spirit of the present invention and change, should be contained the present invention's In scope of the claimed protection.

Claims (10)

1. a micron order wheat bran production and processing device, it is characterised in that: include a Testa Tritici store storehouse, a conveying mechanism, one Feeding barrel device, a Testa Tritici aidr bells blast system, a cyclone separator, a metal separating device, a Testa Tritici drying system, a hot blast Feeding mechanism, a Testa Tritici superfine comminution system, a dust collection pipeline, a control device and a wheat bran pack system automatically System；

Described conveying mechanism is arranged on described Testa Tritici and stores the front end in storehouse, and described feeding barrel device is arranged on described conveying mechanism Front end, and by described conveying mechanism, the Testa Tritici of pack is delivered to described feeding barrel device；Described Testa Tritici aidr bells blast system and institute The discharge end stating feeding barrel device is connected；Described cyclone separator is connected with the discharge end of described Testa Tritici aidr bells blast system； Described metal separating device is connected with the bottom discharge end of described cyclone separator；Described Testa Tritici drying system and described gold The bottom discharge end belonging to segregation apparatus is connected, and this Testa Tritici drying system provides hot blast to carry out by described hot-air supplying equipment It is dried；Described Testa Tritici superfine comminution system is connected with the discharge end of described Testa Tritici drying system；Described wheat bran is packed automatically System is connected with the discharge end of described Testa Tritici superfine comminution system；

Described conveying mechanism, feeding barrel device, Testa Tritici aidr bells blast system and cyclone separator all with described dust collection pipeline It is connected；Described conveying mechanism, feeding barrel device, Testa Tritici aidr bells blast system, cyclone separator, metal separating device, Testa Tritici are dry Drying system, hot-air supplying equipment, Testa Tritici superfine comminution system and wheat bran automatic packaging system are all by described control device It is controlled.

Micron order wheat bran production and processing device the most according to claim 1, it is characterised in that: described conveying mechanism includes One first belt conveyor, a pulse dust removal equipment and one second belt conveyor；Described first belt conveyor is arranged on Described Testa Tritici stores the front end in storehouse, and described pulse dust removal equipment is arranged on the front end of described first belt conveyor, and described second Belt conveyor is arranged on the front end of described pulse dust removal equipment；Described pulse dust removal equipment is connected with described dust collection pipeline Connect；Described first belt conveyor, pulse dust removal equipment and the second belt conveyor all electrically connect with described control device.

Micron order wheat bran production and processing device the most according to claim 1, it is characterised in that: described feeding barrel device bag Include an electric block elevator, two enhancing hooks, one feed intake staving, a drainage screen, one first screw conveying pipe and a rotation Turn batch charging mechanism；The top of the described staving that feeds intake is provided with one and feeds intake breach, and the lower end of this breach that feeds intake is the most extended has one to put Horizontalization platform；Described drainage screen is arranged on portion in described feeding barrel body；Described rotation batch charging mechanism feeds intake staving described in being arranged on Inner bottom part；The bottom of the described staving that feeds intake is provided with a discharging opening, this discharging opening and the feed end of described first screw conveying pipe It is connected；Described electric block elevator hang be located at described in feed intake the top of staving, the top of enhancing hook described in two is all and institute The suspension hook stating electric block elevator is connected；The top of the described staving that feeds intake is provided with one in the indentation, there that feeds intake described in correspondence and turns over Lid, the top of this staving that feeds intake is provided with a dust collection equipment, and this dust collection equipment is connected with described dust collection pipeline；

Described rotation batch charging mechanism includes a rotating disk and an electric rotating machine；Described electric rotating machine, electric block elevator with And dust collection equipment all electrically connects with described control device；Described rotating disk is provided with a blanking in the position of corresponding described discharging opening Hole；Described rotating disk is connected to feed intake the inner bottom part of staving, and drives this rotating disk to rotate by the axle of described electric rotating machine.

Micron order wheat bran production and processing device the most according to claim 3, it is characterised in that: described Testa Tritici aidr bells blast system Including a broken-line type body, a particulate collection casing and a whirlwind blower fan；The middle and upper part of described broken-line type body is with described The discharge end of the first screw conveying pipe is connected；The top of described broken-line type body is connected with described cyclone separator；Institute The bottom stating broken-line type body is connected with described particulate collection casing, this particulate collection casing and described dust collection pipeline It is connected；Described whirlwind blower fan electrically connects with described control device, and the middle and lower part of described broken-line type body is with this whirlwind blower fan even Connect, and be delivered up wind by described whirlwind blower fan toward described broken-line type tubular body.

Micron order wheat bran production and processing device the most according to claim 1, it is characterised in that: described metal separating device Including a vacuum feeder, an evacuator, a metal detector, a filter, a metalliferous material collecting box and a bypass Valve；Described vacuum feeder is connected with the bottom discharge end of described cyclone separator, on described bypass valve and described vacuum Material machine is connected, and described filter is connected with described bypass valve, and described evacuator is connected with described filter；Described gold Belong to detector to be connected with the bottom discharge end of described vacuum feeder, described metalliferous material collecting box and described metal detector Exhaust end be connected；Described evacuator, metal detector and bypass valve all electrically connect with described control device.

Micron order wheat bran production and processing device the most according to claim 5, it is characterised in that: described Testa Tritici drying system Including an one-level drying tower, a secondary drying tower, one first whirlwind blanking device, one first cleaner and an induced-draught fan；Institute State the helical duct that is internally provided with of one-level drying tower, the bottom discharge end of described metal detector and described helical duct Lower end is connected；Described first whirlwind blanking device, the first cleaner and induced-draught fan all electrically connect with described control device；

Described secondary drying tower includes an outer tower body and an interior conduit；The bottom of described outer tower body is inverted cone-shaped structure；Described Interior conduit is arranged on the inside of described outer tower body, and leaves a material channel between outer tower body and interior conduit；Described helical duct Upper end be connected with described material channel；The upper end in said inner tube road is connected with the upper end of described first whirlwind blanking device, The lower end in said inner tube road is provided with a horn-like suction hood, and makes this horn-like suction hood just be positioned at described inverted cone-shaped structure Top；Described first cleaner is connected with the top of described first whirlwind blanking device, and described induced-draught fan removes with described first Dirt equipment is connected.

Micron order wheat bran production and processing device the most according to claim 6, it is characterised in that: described hot-air supplying equipment Including a combustion furnace, an air filter, a pressure fan and a steam catcher；Described combustion furnace is with described pressure fan even Connect, and by described pressure fan transporting cold wind to described combustion furnace；The top phase of described steam catcher and described combustion furnace Connect；One end of described air filter is connected with described combustion furnace, and the other end is connected with the lower end of described helical duct； Described combustion furnace and pressure fan all electrically connect with described control device.

Micron order wheat bran production and processing device the most according to claim 6, it is characterised in that: described Testa Tritici micronizing System include a Testa Tritici water cooling plant, one first annular conveying pipe, one first chain drive mechanism, one first driving chain, one First storage tank, at least one super micron mill, at least one second whirlwind blanking device, at least one second cleaner, one second spiral shell Rotation feed pipe and a hot blast collection conduit；

Described first annular conveying pipe vertically stands on ground；One end of described Testa Tritici water cooling plant and described first whirlwind blanking The bottom discharge end of device is connected, and the other end is connected with described first annular conveying pipe；Described first storage tank stands on described Between upper pipe and the lower pipeline of first annular conveying pipe, the top of described first storage tank and described first annular conveying The upper pipe of pipe is connected, and bottom is connected with the lower pipeline of described first annular conveying pipe, and at this first storage tank Top and the upper pipe of described first annular conveying pipe between be provided with one first Pneumatic butterfly valve, bottom and described first ring It is provided with one second Pneumatic butterfly valve between the lower pipeline of shape conveying pipe；Described first driving chain is arranged on described first annular The inside of conveying pipe, this first driving chain is provided with some first chain sheets；Described first chain drive mechanism is arranged on institute State on first annular conveying pipe, and drive described first driving chain to carry out transmission by this first chain drive mechanism；

The feed end of each described super micron mill all upper pipe with described first annular conveying pipe are connected, and each described super It is provided with one the 3rd Pneumatic butterfly valve, every institute between feed end and the upper pipe of described first annular conveying pipe of atomizer The discharge end stating super micron mill is connected to the second whirlwind blanking device described in, and every described super micron mill is provided with a use Aspiration channel in inside air draught；The top of the most described second whirlwind blanking device is connected to the second cleaner described in, each institute The bottom stating the second whirlwind blanking device is all connected with described second screw conveying pipe；The top of the most described second cleaner is equal Being connected with described hot blast collection conduit, bottom is all connected with described second screw conveying pipe；Described super micron mill, second Whirlwind blanking device, the first Pneumatic butterfly valve, the second Pneumatic butterfly valve, the 3rd Pneumatic butterfly valve and the second cleaner all with described control Device electrically connects；

Described first chain drive mechanism includes one first driving motor and one first head sprocket；Described first head sprocket is arranged In the inside of described first annular conveying pipe, and it is meshed with described first driving chain；Described first drives motor with described Controlling device electrical connection, described first drives the axle of motor to be connected with described first head sprocket, and by this first driving motor Axle drive described first head sprocket rotate；Described first annular conveying pipe is provided with one first auxiliary chain in the inside of bending place Wheel, described first auxiliary sprocket wheel is meshed with described first driving chain.

Micron order wheat bran production and processing device the most according to claim 8, it is characterised in that: Testa Tritici water cooling plant includes Steel pipe, an outer steel pipe, a screw rod transmission mechanism, an inlet channel and an outlet conduit in one；Described outer steel pipe socket is located at institute State the outside of interior steel pipe, between the closed at both ends of this outer steel pipe, and outer steel pipe and interior steel pipe, leave a cooling water channel, this cooling water One first spiral septum it is provided with on road；Described inlet channel from one end of described outer steel pipe access, described outlet conduit from The other end of described outer steel pipe picks out；Described screw rod transmission mechanism is arranged in described interior steel pipe；The feed end of described interior steel pipe It is connected with the bottom discharge end of described first whirlwind blanking device, the discharge end of this interior steel pipe and described first annular conveying pipe phase Connect；

Described screw rod transmission mechanism includes one the 3rd driving motor, a bearing and a bull stick；Described 3rd drives motor to fix Being arranged on the one end of described interior steel pipe, and the 3rd drives motor to electrically connect with described control device, described bearing is fixing to be set Put the other end at described interior steel pipe；Described bull stick is arranged on the inside of described interior steel pipe, and one end of this bull stick is with described 3rd drives the axle of motor to connect, and the other end is connected with described bearing；One second spiral it is provided with on the outer surface of described bull stick Shape dividing plate.

Micron order wheat bran production and processing device the most according to claim 8, it is characterised in that: described wheat bran is automatic Packaging system include one second annular duct, one second chain drive mechanism, one second driving chain, one second storage tank, One packaging unit, sealing unit and a finished product conveyer group；Described second annular duct is vertically stood on ground, described The discharge end of the second screw conveying pipe is connected with this second annular duct；Described second storage tank stands on described second annular Between upper pipe and the lower pipeline of conveying pipe, the top of described second storage tank and the top of described second annular duct Pipeline is connected, and bottom is connected with the lower pipeline of described second annular duct, and the top of this second storage tank with One the 4th Pneumatic butterfly valve, bottom and described second annular duct it is provided with between the upper pipe of described second annular duct Lower pipeline between be provided with one the 5th Pneumatic butterfly valve；Described second driving chain is arranged on described second annular duct Inside, this second driving chain is provided with some second chain sheets；Described second chain drive mechanism is arranged on described second ring On shape conveying pipe, and described second driving chain is driven to carry out transmission by this second chain drive mechanism；Described packaging unit It is connected with the upper pipe of described second annular duct, and the feed end of described packaging unit carries with described second annular One the 6th Pneumatic butterfly valve it is provided with between the upper pipe of pipe；Described sealing unit is arranged on the front end of described packaging unit, Described finished product conveyer group is arranged on the front end of described sealing unit；Described packaging unit, sealing unit, the 4th Pneumatic butterfly valve, 5th Pneumatic butterfly valve, the 6th Pneumatic butterfly valve and finished product conveyer group all electrically connect with described control device；

Described second chain drive mechanism includes one second driving motor and one second head sprocket；Described second head sprocket is arranged In the inside of described second annular duct, and it is meshed with described second driving chain；Described second drives motor with described Controlling device electrical connection, described second drives the axle of motor to be connected with described second head sprocket, and by this second driving motor Axle drive described second head sprocket rotate；Described second annular duct is provided with one second auxiliary chain in the inside of bending place Wheel, described second auxiliary sprocket wheel is meshed with described second driving chain.