CN109282581A - A kind of anti-iron ion double-cone vacuum dryer group and its working method - Google Patents
A kind of anti-iron ion double-cone vacuum dryer group and its working method Download PDFInfo
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- CN109282581A CN109282581A CN201810740627.9A CN201810740627A CN109282581A CN 109282581 A CN109282581 A CN 109282581A CN 201810740627 A CN201810740627 A CN 201810740627A CN 109282581 A CN109282581 A CN 109282581A
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- double
- cone dryer
- interface
- vacuum
- bipyramid
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B7/00—Drying solid materials or objects by processes using a combination of processes not covered by a single one of groups F26B3/00 and F26B5/00
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B11/00—Machines or apparatus for drying solid materials or objects with movement which is non-progressive
- F26B11/02—Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles
- F26B11/04—Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles rotating about a horizontal or slightly-inclined axis
- F26B11/044—Machines or apparatus for drying solid materials or objects with movement which is non-progressive in moving drums or other mainly-closed receptacles rotating about a horizontal or slightly-inclined axis the drum or receptacle having a variable outer or inner diameter in axial direction, e.g. trunconical; the drum or receptacle having a polygonal or non-cylindrical shape
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B23/00—Heating arrangements
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B25/00—Details of general application not covered by group F26B21/00 or F26B23/00
- F26B25/001—Handling, e.g. loading or unloading arrangements
- F26B25/002—Handling, e.g. loading or unloading arrangements for bulk goods
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B25/00—Details of general application not covered by group F26B21/00 or F26B23/00
- F26B25/04—Agitating, stirring, or scraping devices
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B5/00—Drying solid materials or objects by processes not involving the application of heat
- F26B5/04—Drying solid materials or objects by processes not involving the application of heat by evaporation or sublimation of moisture under reduced pressure, e.g. in a vacuum
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F26—DRYING
- F26B—DRYING SOLID MATERIALS OR OBJECTS BY REMOVING LIQUID THEREFROM
- F26B5/00—Drying solid materials or objects by processes not involving the application of heat
- F26B5/08—Drying solid materials or objects by processes not involving the application of heat by centrifugal treatment
Abstract
The present invention relates to a kind of anti-iron ion bipyramid vacuum drying system and its working methods, the anti-iron ion bipyramid vacuum drying system includes centrifuge, the double-cone dryer being rotatably arranged, vertical spiral band combination cooling machine, vacuumizing filtration device, the top of double-cone dryer is arranged in centrifuge, the bottom end setting discharging interface and centrifuge outlet valve of the centrifuge, the lower section of double-cone dryer is arranged in combination cooling machine for vertical spiral, top setting charging interface and cooler inlet valve of the vertical spiral with cooler, flexible interface and drying machine valve are set on double-cone dryer;Further include heating plant for providing from heat source to double-cone dryer and for receive it is dry after material material collecting device.
Description
Technical field
The present invention relates to drying equipment technical field, especially a kind of anti-iron ion bipyramid vacuum drying system and its work
Method.
Background technique
Collagen peptide is that collagen or gelatin are manufactured after proteasome degradation is handled, digestion and absorption with higher,
For molecular weight about in 3000 dalton, collagen peptide can promote the formation of bone, enhance the gelatine original structure under low calcium level, from
And improve bone strength, that is, have the function that pre- anti-osteoporosis;In addition collagen peptide also has other many special
Physiological function: such as protection gastric mucosa and anti-ulcer effect, anti-allergic effects etc., it is accordingly required in particular to which proposition, collagen exist
The effect of in terms of beauty, because collagen accounts for 70% in skin, 80% is collagen in corium, and collagen is in skin
A fine and closely woven elasticated net is constituted, moisture is lockked, supports skin, the loss of collagen leads to the elastic force for supporting skin
Net fracture, skin histology atrophy collapse, and skin will show coarse, dim, color spot of dry, coarse, loose, wrinkle, pore etc.
Aging phenomenon;Therefore, collagen is replenished in time, for improving skin problem, delays senescence, there is extraordinary effect;Collagen
The production technology of protein peptides generally comprises (1) pretreatment, (2) collagen extracts, (3) purifying, (4) enzymatic hydrolysis, (5) fast rapid-curing cutback
Dry, the technique is in the preparation that Chinese granted patent notification number is CN102154424B, entitled small molecule collagen peptide
Technique, China Patent Publication No. CN104140992A, a kind of entitled large-scale preparation method of fish scale Type I collagen protein peptides
Be documented in equal patent documents, the rapid draing in above-mentioned technique is important process step therein, dry mass it is good
The bad final mass for directly affecting collagen peptide finished powder, existing drying equipment mostly use stainless steel to make, inner wall with
Material directly contact uses carry out iron contamination to material web for a long time, influences collagen peptide powder properties, and drying device
It cannot achieve continuous automatic production with centrifugation apparatus.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of structures simply, can the anti-iron ion bipyramid vacuum of quantity-produced
Drying system and its working method.
In order to solve the above technical problems, anti-iron ion bipyramid vacuum drying system provided by the invention, comprising: centrifuge,
Double-cone dryer, vertical spiral band the combination cooling machine, vacuumizing filtration device being rotatably arranged, the centrifuge are arranged described
The top of double-cone dryer, the bottom end setting discharging interface and centrifuge outlet valve of the centrifuge, the vertical spiral band mixing are cold
But the lower section of the double-cone dryer is arranged in machine, top setting charging interface of the vertical spiral with cooler and cooler charging
Valve flexible interface and drying machine valve is arranged on the double-cone dryer, so that the flexible interface turns to and the discharging
When interface is aligned, the interface that stretches is extended to be cooperated with the discharging sealing joint, described to stretch for the feeding into double-cone dryer
Reducer coupling mouth turns to when being aligned with the charging interface, and the interface that stretches is extended with charging sealing joint cooperation, for arranging
Material in double-cone dryer out;The double-cone dryer, inner-wall spraying tungsten carbide coating of the vertical spiral with cooler be used for every
From iron ion;The vacuumizing filtration device is connected with the inside of the double-cone dryer, for being discharged in double-cone dryer
Moisture;Further include heating plant for providing from heat source to the double-cone dryer and for receive it is dry after material rewinding
Device.
Further, the double-cone dryer is jacket type double-cone dryer, and the heating plant includes electric heating oil oven, oil
Gas separating device, the electric heating oil oven form with the collet of the jacket type double-cone dryer, gs-oil separator recycle by the road
It is closed circuit, so that electric heating oil oven can supply hot oil into the collet of the jacket type double-cone dryer, it is dry for collet bipyramid
The heating drying of machine.
Further, the vacuumizing filtration device includes external filter, condenser, water ring vacuum pump and vacuum-pumping tube,
Setting in the double-cone dryer is protruded into one end of the vacuum-pumping tube, the other end of the vacuum-pumping tube by the road with it is described external
Filter is connected, which is connected with the condenser, water ring vacuum pump by the road, so that the water ring vacuum pump can
Material dust, condenser progress condensing recovery is recovered by filtration by the gas extraction in double-cone dryer, and via external filter
Moisture.
Further, built-in filter is also set up in the double-cone dryer, which is placed in the vacuum-pumping tube
End matched so that the gas in double-cone dryer is once filtered when entering vacuum-pumping tube with external filter, shape
At secondary filter, reinforce filter effect.
Further, the material collecting device includes that vacuum feeding crosses pan, finished product bin and water ring vacuum pump, in the vacuum
Expected that pan was connected with the vertical spiral band combination cooling machine by the road, so that the water ring vacuum pump can mix vertical spiral band
The material introducing vacuum feeding in conjunction cooler is crossed pan and is filtered, and filtered material is introduced finished product bin.
Further, anti-iron ion bipyramid vacuum drying system further includes installation pedestal, the two sides point of the double-cone dryer
Not with the installation pedestal bearing fit so that the double-cone dryer is rotatably provided in the installation pedestal.
Further, the centrifuge is scraper type centrifuge, and it is stud mistake that the external filter, vacuum feeding, which cross pan,
Filter,
Further, the discharging interface, charging interface are vertically arranged, on the bearing between the double-cone dryer and installation pedestal
Photoelectric encoder is set, to control the rotation precision of double-cone dryer.
Further, the flexible interface includes bellows, corrugated pipe connector and telescopic cylinder, the tail end of the bellows with
The double-cone dryer is fixedly linked, and the corrugated pipe connector is fixed at the front end of the bellows, the telescopic cylinder
It is driven and cooperates with the corrugated pipe connector, corrugated pipe connector is mobile so that the telescopic cylinder can drive when flexible, pushes ripple
Pipe is flexible.
The working method of above-mentioned anti-iron ion bipyramid vacuum drying system, includes the following steps:
Step A, it feeds, by the material dewatering in centrifuge to after requiring moisture, double-cone dryer is added in material.
Step B, drying starts vacuumizing filtration device and heating plant, to double-cone dryer heat supply and bipyramid is dry
Moisture in machine introduces vacuumizing filtration device, and starts rotary electric machine and double vacuum driers that chase after are rotated to overturn material.
Step C, blanking after reaching setting drying time, closes vacuumizing filtration device and heating plant, and bipyramid is done
Dry machine turns to flexible interface and is arranged straight down, so that flexible interface is directed at charging interface of the vertical spiral with combination cooling machine,
Starting telescopic cylinder make flexible interface stretch out with charging sealing joint cooperation, then first open cooler inlet valve open again it is dry
Dry machine valve, so that the material in double-cone dryer enters vertical spiral band combination cooling machine;Drying machine valve is closed after the completion of discharging
Door and cooler inlet valve, and shrink flexible interface.
Step D, cooling, starting vertical spiral band combination cooling machine, carries out cooling down to the material after drying.
Step E, Vacuum discharge starts the water ring vacuum pump of material collecting device, so that cooling in vertical spiral band combination cooling machine
Material afterwards enters finished product bin after vacuum feeding crosses filter cone for filtration and is stored and packed.
The technical effect of invention: (1) of the invention anti-iron ion bipyramid vacuum drying system, compared with the existing technology,
The inner-wall spraying tungsten carbide coating of double-cone dryer and vertical spiral with combination cooling machine, and material collecting device is mixed with vertical spiral band
Pipeline, vacuum-pumping tube between cooler and the pipeline between external filter are using ceramic pipeline, so that the pipe that material flows through
Road is ceramic pipeline, can be effectively isolated iron ion, and iron ion is avoided to generate pollution to material (collagen peptide), acquisition
Iron ion content is lower than 30ppm in collagen peptide;Make double-cone dryer can quickly and centrifuge by the way that flexible interface is arranged
Or vertical spiral band combination cooling machine is docked, and convenient for quickly carrying out charging or discharging to double-cone dryer, is convenient for automatic metaplasia
It produces;Flexible interface is by setting bellows, corrugated pipe connector telescopic cylinder, so that flexible interface can easily stretch, just
It is matched in discharging interface, charging interface;It is stud filter, stud filter that external filter, vacuum feeding, which cross pan,
Titanium powder sintered filter core is used, this filter core has the advantages that precision is high, and high temperature resistant is corrosion-resistant, high mechanical strength;It vacuumizes
Pipe is combined using built-in filter and external filter, so that a small amount of material with moisture discharge can be improved through double filtration
Filter effect;The setting of photoelectric encoder can accurately control the rotation angle of double-cone dryer, convenient for flexible interface and discharging
Interface or charging sealing joint cooperation.
Detailed description of the invention
Invention is further described in detail with reference to the accompanying drawings of the specification:
Fig. 1 is the structural schematic diagram of the anti-iron ion bipyramid vacuum drying system of the present invention;
Fig. 2 is double-cone dryer of the invention, centrifuge, vertical spiral band combination cooling machine, vacuumizing filtration device, heating plant
Attachment structure schematic diagram;
Fig. 3 is the partial enlarged view of a-quadrant in Fig. 2;
Fig. 4 is the structural schematic diagram of centrifuge;
Fig. 5 is the structural schematic diagram that the anti-iron ion bipyramid vacuum drying system of the present invention is under blanking state.
In figure: double-cone dryer 1, installation pedestal 11, stretch interface 12, drying machine valve 13, telescopic cylinder 14, built-in mistake
Filter 15, vacuum-pumping tube 16, rotary electric machine 17, corrugated pipe connector 18, centrifuge 2, centrifuge outlet valve 21, discharge interface 22,
Centrifuge separation cylinder 23, top cover 24, flip lid cylinder 25, centrifugation motor 26, shaft 27, belt 28, scraper motor 29, vertical spiral band are mixed
Conjunction cooler 3, cooler outlet valve 31, cooler inlet valve 32, material collecting device 4, vacuum feeding cross pan 41, finished product bin
42, water ring vacuum pump 43, vacuumizing filtration device 5, external filter 51, condenser 52, receipts flow container 53, water ring vacuum pump 54,
Heating plant 6, electric heating oil oven 61, gs-oil separator 62, surge tank 63.
Specific embodiment
Embodiment 1
As shown in Figures 1 to 5, the anti-iron ion bipyramid vacuum drying system of the present embodiment, including centrifuge 2, rotatably setting
Double-cone dryer 1, vertical spiral band combination cooling machine 3, vacuumizing filtration device 5, further include for double-cone dryer 1 provide
The heating plant 6 of heat source and for receive it is dry after material material collecting device 4.
Anti- iron ion bipyramid vacuum drying system further includes U-shaped installation pedestal 11, and double-cone dryer 1 is jacket type bipyramid
Drying machine, is respectively set left bearing, right bearing on the arranged on left and right sides wall of installation pedestal 11, in the middle part of jacket type double-cone dryer
Left rotary shaft, right spindle is respectively set in arranged on left and right sides, and left rotary shaft is matched with left bearing, and right spindle is matched with right bearing, so that
Jacket type double-cone dryer is rotatably provided in installation pedestal 11;The right side setting driving double-cone dryer rotation of installation pedestal 11
The rotary electric machine 17 turned, the right spindle of the rotary electric machine 17 and double-cone dryer 1, which is driven, to be cooperated, so that double-cone dryer 1 can be
360 ° of rotations in installation pedestal 11;Photoelectric encoder, rotary electric machine 17 and photoelectricity are also set up on the right spindle of the double-cone dryer 1
Encoder matches, for accurately controlling the rotational angle of double-cone dryer 1.
Heating plant includes electric heating oil oven 61, gs-oil separator 62, surge tank 63, the left-hand rotation of jacket type double-cone dryer
Setting through-hole is connected with the collet of jacket type double-cone dryer in axis, and electric heating oil oven 61, gs-oil separator 62 pass through respectively
Pipeline is connected with the through-hole of left rotary shaft, is equally connected by the road between electric heating oil oven 61 and gs-oil separator 62, buffering
Tank 63 is connected with gs-oil separator 62 by the road, so that electric heating oil oven 61 can be supplied into the collet of jacket type double-cone dryer
Hot oil is answered, is purified through gs-oil separator 62, the gas isolated is arranged to surge tank 63, and surge tank 63 simultaneously can be to hot oil
Expansion formed buffering.
Vacuumizing filtration device 5 includes external filter 51, condenser 52, water ring vacuum pump 54 and vacuum-pumping tube 16, double
Perforative axis hole is arranged in the right spindle for boring drying machine 1, and the front end of vacuum-pumping tube 16 is protruded into double-cone dryer 1 across axis hole to be set
Set, the tail end of the vacuum-pumping tube 16 is connected with external filter 51 by the road, the external filter 51 by the road with condenser 52,
Water ring vacuum pump 54 is connected, so that water ring vacuum pump 54 can extract the gas in double-cone dryer 1 out, and via external filter
Recovered material dust, condenser 52 carry out condensing recovery moisture after 51 filterings, and flow container 53 is received in setting in condenser 52, so that condensation
The moisture that device 52 recycles enters receipts flow container 53 and is stored.
Built-in filter 15 is also set up in double-cone dryer 1, which is placed in the end of vacuum-pumping tube 16, with
It filters the gas in double-cone dryer 1 once when entering vacuum-pumping tube 16, is matched with external filter 51, form two
Filter effect is reinforced in secondary filtering.
Centrifuge 2 is scraper type centrifuge, including centrifugation machine drum body and the scraper being placed in centrifugation machine drum body, centrifuge separation
Cylinder 23, scraper drive its rotation by scraper motor 29, and the bottom end of centrifuge separation cylinder 23 is fixedly linked with shaft 27, the bottom of shaft 27
Centrifugation machine drum body setting is stretched out at end, and centrifugation machine drum body peripheral hardware sets centrifugation motor 26, is centrifuged between motor 26 and shaft 27 and is passed through skin
The transmission cooperation of band 28, so that centrifugation motor 26 can drive centrifuge separation cylinder 23 to rotate in centrifugation machine drum body;It is centrifuged machine drum body
Top cover 24 is arranged in top, and side and the centrifugation machine drum body of the top cover 24 hingedly cooperate, and is centrifuged the side setting flip lid gas of machine drum body
Cylinder 25, the flip lid cylinder 25 and the transmission of top cover 24 cooperate, so that flip lid cylinder 25 can drive top cover 24 to be opened and closed, realize automatic
Top cover is opened or closed, manpower is saved.Centrifuge 2 is fixed at the top of double-cone dryer 1, and the bottom end of centrifuge 2 is vertical
Discharging interface 22 is set, centrifuge outlet valve 21 is set on the interface 22 that discharges, for controlling the opening and closing of discharging interface 22.
The lower section of double-cone dryer 1 is arranged in combination cooling machine 3 for vertical spiral, which sets with the top of cooler 3
Charging interface and cooler inlet valve 32 are set, flexible interface 12 and drying machine valve 13 are set on double-cone dryer 1.Flexible interface
12 include bellows, corrugated pipe connector 18 and telescopic cylinder 14, and tail end and the double-cone dryer 1 of bellows are fixedly linked, ripple
Pipe fitting 18 is fixed at the front end of bellows, and telescopic cylinder 14 and the transmission of corrugated pipe connector 18 cooperate, so that telescopic cylinder
14 can drive the movement of corrugated pipe connector 18, push bellows flexible when flexible.Double-cone dryer 1, vertical spiral are in cooler 3
Wall sprayed wc coating is used to be isolated the iron ion of its inner wall.
Material collecting device 4 includes that vacuum feeding crosses pan 41, finished product bin 42 and water ring vacuum pump 43, and the mixing of vertical spiral band is cold
But the bottom end setting cooler of machine 3 discharges interface and cooler outlet valve 31, vacuum feeding cross pan 41 by the road with vertical spiral
Cooler discharging interface with combination cooling machine 3 is connected, and controls going out for cooler discharging interface by cooler outlet valve 31
Material carried out so that vertical spiral can be crossed pan 41 with the material introducing vacuum feeding in combination cooling machine 3 by water ring vacuum pump 43
Filter, and filtered material is introduced into finished product bin 42.
When use stretch interface 12 turn to discharging interface 22 be aligned when, stretch interface 12 it is extended with discharge interface 22
Sealing cooperation, for the feeding into double-cone dryer 1, flexible interface 12 is turned to when being aligned with charging interface, flexible interface 12
It is extended to cooperate with charging sealing joint, the material for being discharged in double-cone dryer 1.
Preferably, it is stud filter that external filter 51, vacuum feeding, which cross pan 41, stud filter is used
Titanium powder sintered filter core, this filter core have the advantages that precision is high, and high temperature resistant is corrosion-resistant, high mechanical strength.
Preferably, discharging interface 22, charging interface are vertically arranged, so that flexible interface 12 turns to vertical direction
Cooperated with discharging interface 22 or charging interface, convenient for manipulation.
Preferably, material collecting device 4 and vertical spiral are with pipeline, vacuum-pumping tube 16 and the external mistake between combination cooling machine 3
Pipeline between filter 51 is ceramic pipeline, so that the pipeline that material flows through is ceramic pipeline, to avoid iron contamination.
Preferably, Weighing module is arranged in double-cone dryer 1, for weighing the weight of material in double-cone dryer.
Embodiment 2
The working method of above-mentioned anti-iron ion bipyramid vacuum drying system, includes the following steps:
Step A, it feeds, by the material dewatering in centrifuge 2 to after requiring moisture, double-cone dryer 1 is added in material;Specifically
, starting flip lid cylinder 25 is used to open the top cover 24 of scraper type centrifuge 1, and object to be dried is added into centrifuge separation cylinder 23
Expect and close top cover 24, starting scraper motor 29 and centrifugation motor 26 rotate scraper, centrifuge separation cylinder 23, will be centrifugated
Material dewatering in cylinder 23 is to requiring moisture;It is vertical that starting rotary electric machine 17 makes double-cone dryer 1 turn to flexible interface 12
It sets up, so that flexible interface 12 is directed at the discharging interface 22 of centrifuge 2, starting telescopic cylinder 14 stretches flexible interface 12
Cooperate out with the discharging sealing of interface 22, open centrifuge outlet valve 21 and drying machine valve 13 so that the material in centrifuge 2 into
Enter double-cone dryer 1, centrifuge outlet valve 21 and drying machine valve 13 are closed after the completion of charging, and shrinks flexible interface 12.
Step B, drying starts vacuumizing filtration device 5 and heating plant 6, to 1 heat supply of double-cone dryer and by bipyramid
Moisture in drying machine 1 introduces vacuumizing filtration device 5, and start rotary electric machine 17 make it is double chase after the rotation of vacuum drier 1 with
Overturn material.
Step C, blanking after reaching setting drying time, closes vacuumizing filtration device 5 and heating plant 6, and by bipyramid
Drying machine 1 turns to flexible interface 12 and is arranged straight down so that flexible interface 12 be aligned vertical spiral with combination cooling machine 3 into
Expect interface, starting telescopic cylinder 14 make flexible interface 12 stretch out with charging sealing joint cooperation, then first open cooler into
Material valve 32 opens drying machine valve 13 again, so that the material in double-cone dryer 1 enters vertical spiral band combination cooling machine 3;Discharging
Drying machine valve 13 and cooler inlet valve 32 are closed after the completion, and shrink flexible interface 12.
Step D, cooling, starting vertical spiral band combination cooling machine 3, carries out cooling down to the material after drying.
Step E, Vacuum discharge starts the water ring vacuum pump 43 of material collecting device 4, so that in vertical spiral band combination cooling machine 3
Material after cooling is crossed after pan 41 filters through vacuum feeding and is stored and packed into finished product bin 42.
Obviously, the above embodiment is merely an example for clearly illustrating the present invention, and is not to of the invention
The restriction of embodiment.For those of ordinary skill in the art, it can also be made on the basis of the above description
Its various forms of variation or variation.There is no necessity and possibility to exhaust all the enbodiments.And these belong to this hair
Bright spiritual changes and variations that derived from are still in the protection scope of this invention.
Claims (10)
1. a kind of anti-iron ion bipyramid vacuum drying system, which is characterized in that the bipyramid including centrifuge, being rotatably arranged is dry
The top of the double-cone dryer is arranged in machine, vertical spiral band combination cooling machine, vacuumizing filtration device, the centrifuge, should
The bottom end setting discharging interface and centrifuge outlet valve of centrifuge, the vertical spiral band combination cooling machine are arranged dry in the bipyramid
The lower section of dry machine, top of the vertical spiral with cooler, which is arranged, feeds interface and cooler inlet valve, on the double-cone dryer
Flexible interface and drying machine valve are set, so that the flexible interface turns to when being aligned with the discharging interface, stretch interface
It is extended to cooperate with the discharging sealing joint, be used for the feeding into double-cone dryer, the flexible interface turn to it is described
When feeding interface alignment, the interface that stretches is extended to be cooperated with the charging sealing joint, the object for being discharged in double-cone dryer
Material;The double-cone dryer, inner-wall spraying tungsten carbide coating of the vertical spiral with cooler are for being isolated iron ion;It is described to vacuumize
Filter device is connected with the inside of the double-cone dryer;It further include for providing the heat supply of heat source to the double-cone dryer
Device and for receive it is dry after material material collecting device.
2. anti-iron ion bipyramid vacuum drying system according to claim 1, which is characterized in that the double-cone dryer is
Jacket type double-cone dryer, the heating plant include electric heating oil oven, gs-oil separator, the electric heating oil oven by the road with
The collet of the jacket type double-cone dryer, gs-oil separator formation circulation are closed circuit, so that electric heating oil oven can be to the collet
Hot oil is supplied in the collet of formula double-cone dryer.
3. anti-iron ion bipyramid vacuum drying system according to claim 2, which is characterized in that the vacuumizing filtration dress
It sets including external filter, condenser, water ring vacuum pump and vacuum-pumping tube, it is dry that the bipyramid is protruded into one end of the vacuum-pumping tube
Setting, the other end of the vacuum-pumping tube are connected with the external filter by the road in dry machine, the external filter by the road with
The condenser, water ring vacuum pump are connected, so that the water ring vacuum pump can extract the gas in double-cone dryer out, and via
Material dust is recovered by filtration in external filter, condenser carries out condensing recovery moisture.
4. anti-iron ion bipyramid vacuum drying system according to claim 2 or 3, which is characterized in that the bipyramid is dry
Built-in filter is also set up in machine, which is placed in the end of the vacuum-pumping tube.
5. anti-iron ion bipyramid vacuum drying system according to claim 4, which is characterized in that the material collecting device includes
Vacuum feeding crosses pan, finished product bin and water ring vacuum pump, and it is mixed with the vertical spiral band by the road that the vacuum feeding crosses pan
It closes cooler to be connected, so that the water ring vacuum pump can introduce vertical spiral in the vacuum with the material in combination cooling machine
Expected that pan was filtered, and filtered material is introduced into finished product bin.
6. anti-iron ion bipyramid vacuum drying system according to claim 5, which is characterized in that it further include installation pedestal,
The two sides of the double-cone dryer respectively with the installation pedestal bearing fit so that the double-cone dryer is rotatably provided in
In the installation pedestal.
7. anti-iron ion bipyramid vacuum drying system according to claim 6, which is characterized in that the centrifuge is scraper
Formula centrifuge, it is stud filter that the external filter, vacuum feeding, which cross pan,.
8. anti-iron ion bipyramid vacuum drying system according to claim 7, which is characterized in that the discharging interface, into
Material interface is vertically arranged, and photoelectric encoder is arranged on the bearing between the double-cone dryer and installation pedestal.
9. anti-iron ion bipyramid vacuum drying system according to claim 8, which is characterized in that the flexible interface includes
Bellows, corrugated pipe connector and telescopic cylinder, the tail end of the bellows are fixedly linked with the double-cone dryer, the ripple
Pipe fitting is fixed at the front end of the bellows, and the telescopic cylinder and corrugated pipe connector transmission cooperate, so that institute
Corrugated pipe connector movement can be driven, push bellows flexible by stating when telescopic cylinder stretches.
10. the working method of anti-iron ion bipyramid vacuum drying system according to claim 9, which is characterized in that including
Following steps:
Step A, it feeds, by the material dewatering in centrifuge to after requiring moisture, double-cone dryer is added in material;
Step B, drying starts vacuumizing filtration device and heating plant, to double-cone dryer heat supply and will be in double-cone dryer
Moisture introduce vacuumizing filtration device, and start rotary electric machine and double to chase after vacuum driers rotation to overturn material;
Step C, blanking after reaching setting drying time, closes vacuumizing filtration device and heating plant, and by double-cone dryer
It turns to flexible interface to be arranged straight down, so that flexible interface is directed at charging interface of the vertical spiral with combination cooling machine, starting
Telescopic cylinder stretches out flexible interface and feeds sealing joint cooperation, then first opens cooler inlet valve and opens drying machine again
Valve, so that the material in double-cone dryer enters vertical spiral band combination cooling machine;Discharging after the completion of close drying machine valve and
Cooler inlet valve, and shrink flexible interface;
Step D, cooling, starting vertical spiral band combination cooling machine, carries out cooling down to the material after drying;
Step E, Vacuum discharge starts the water ring vacuum pump of material collecting device, so that after cooling in vertical spiral band combination cooling machine
Material enters finished product bin after vacuum feeding crosses filter cone for filtration and is stored and packed.
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CN201810740627.9A CN109282581A (en) | 2018-07-07 | 2018-07-07 | A kind of anti-iron ion double-cone vacuum dryer group and its working method |
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CN112439511A (en) * | 2020-10-31 | 2021-03-05 | 浙江国光生物制药有限公司 | Ball mill workshop |
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CN112439511B (en) * | 2020-10-31 | 2022-05-17 | 浙江国光生物制药有限公司 | Ball mill workshop |
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