CN206168500U - Grind garrulous integrative device of starch - Google Patents
Grind garrulous integrative device of starch Download PDFInfo
- Publication number
- CN206168500U CN206168500U CN201621171057.9U CN201621171057U CN206168500U CN 206168500 U CN206168500 U CN 206168500U CN 201621171057 U CN201621171057 U CN 201621171057U CN 206168500 U CN206168500 U CN 206168500U
- Authority
- CN
- China
- Prior art keywords
- defibrination
- cutting disk
- static cutting
- casing
- disk seat
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Crushing And Pulverization Processes (AREA)
Abstract
The utility model relates to a does is grind garrulous integrative device of starch equipped with at the appearance intracavity of casing and include smashing rotor and the mill thick liquid that grinds the thick liquid rotor by the actuating mechanism driven the smashing rotor assembly, the casing with the position that smashing rotor corresponds is equipped with crushing feed inlet to and with the casing is connected and with grind thick liquid feeding seat cover as an organic whole, and grind the thick liquid rotor and correspond and be equipped with simultaneously and grind the quiet millstone seat assembly of starching the axially movable that the feed inlet corresponds, the casing and grind the thick liquid the position that the smashing rotor assembly suited is equipped with the discharge gate. The utility model discloses a grind garrulous integrative device of starch can carry out integration with rubbing crusher and fiberizer function, and simple structure, installation and use are all very convenient to can wet or dry, but the rate of utilization that has improved equipment shown, obviously reduced the investment cost of production.
Description
Technical field
This utility model is related to the device being integrated with defibrination and crushing function.
Background technology
In current market and commercial production, the pulverizer and fiberizer being applied to all is separated from each other, or is present in
On different equipment, or the different structure to be independently arranged on same equipment.And both functions are to be frequently necessary to application simultaneously
's.When need simultaneously using both functions when, the equipment for using unavoidably can more various, equipment structure it is numerous and diverse, cause to set
Standby investment is big, the inconveniences such as trouble, production process be more are installed in configuration.
Utility model content
This utility model provides a kind of defibrination crushing integrated device, and pulverizer and fiberizer function are carried out into integrated collection
Into, and can be with Wet-dry, to improve the service efficiency of equipment.
Defibrination crushing integrated device of the present utility model, is provided with by drive mechanism driving including powder in the cavity volume of casing
The defibrination of broken rotor and refining rotors-grinding rotor assembly, casing position corresponding with the grinding rotor be provided with crush into
Material mouth, and the cover for being connected with casing and being integrated with defibrination charging seat, are correspondingly provided with while entering with defibrination with refining rotors
The corresponding static cutting disk seat assembly being axially movable of material mouth, in the position that casing is adapted with the defibrination-grinding rotor assembly
Discharging opening is provided with, discharging opening can be located at the bottom of casing, be easy to discharging.
When using crushing function, the grinding rotor under the drive of drive mechanism in defibrination-grinding rotor assembly is at a high speed
Comminution process is realized in rotation.Material is entered the comminuting space of casing cavity volume by pulverizing material inlet, by grinding rotor rotation acting powder
After broken, Jing discharging openings are discharged and collected;When using defibrination function, defibrination-grinding rotor assembly under the drive of drive mechanism
In refining rotors realizing defibrination operation compared with the slow-speed of revolution.Material and water are entered from defibrination charging aperture, and Jing static cutting disk seat inner chambers enter
Enter gap between the working end of refining rotors and static cutting disk seat assembly, in the phase of refining rotors and the working end of static cutting disk seat assembly
To being ground into slurry under effect.Axial movement static cutting disk seat assembly can be passed through during defibrination and adjust the thickness journey for grinding slurry
Degree.
Further, in defibrination-dismountable mesh structure is provided between grinding rotor assembly and casing.Tied by screen cloth
Structure can be filtered to the material particles after crushing, is reached and is crushed desired granule by mesh structure from discharge hole for discharge.
During using defibrination function, mesh structure can be removed, smooth can be discharged from discharging opening to grind slurry.
Further, described defibrination-grinding rotor assembly include by main shaft drives and respectively with pulverizing material inlet and mill
The corresponding grinding rotor of slurry charging aperture and refining rotors, in the refining rotors side of main shaft defibrination feeder is provided with, when cover is closed,
The discharge end of the defibrination feeder is located between the working end of static cutting disk seat assembly and the working end of refining rotors.
The working end of static cutting disk seat assembly and the work of refining rotors are reached by defibrination feeder for the ease of defibrination material
Make between end, helical form rib can be provided with the peripheral surface of defibrination feeder, helical form rib serves the effect of guiding,
Defibrination material and water are sent to working end and the defibrination of static cutting disk seat assembly under rotation of the helical form rib in defibrination feeder
Between the working end of rotor.Defibrination feeder can adopt the screw conveying structure of single head, double end or bull according to practical situation.
A kind of specific structure of the refining rotors is that described refining rotors include movable grinding disc and the method being coaxially disposed
The movable grinding disc seat of blue structure, movable grinding disc is connected by securing member with the flange face of movable grinding disc seat, the working end of movable grinding disc and quiet mill
The working end correspondence of disk seat assembly.
Further, described grinding rotor can be pulverizer row hammer slice type structure commonly used in the trade, hock type structure
Or the form such as rotating blade structure.When grinding rotor is hock type structure, can be adapted in casing and pulverizing material inlet
It is circumferential on inwall to be equidistantly provided with crushing toothing.Described toothing of crushing includes the crushing tooth of single form, or carries
The disk-like structure of crushing tooth.
On this basis, a kind of structure of described static cutting disk seat assembly is, including the inwall with the defibrination charging seat
The static cutting disk seat of the flange arrangement that gap coordinates, and be fixed on the static cutting disk of static cutting disk seat flange face, the working end of static cutting disk with
The working end correspondence of refining rotors, is provided with defibrination feeder corresponding with defibrination charging aperture, static cutting disk seat method on static cutting disk seat
Grinding clearance governor motion is provided with the small end of blue structure, static cutting disk seat assembly and defibrination are adjusted by grinding clearance governor motion
Gap between working rotor end.
A kind of structure of wherein grinding clearance governor motion is to coordinate including the small end screw thread with static cutting disk seat flange arrangement
Adjusting rod, adjusting rod and defibrination charging seat keep interfixing, and pass defibrination charging seat connection regulation handle.By adjusting rod
After axially position, coordinated by the screw thread of adjusting rod and static cutting disk seat, drive the axial movement of static cutting disk seat.
Further, the circumferential side wall in defibrination charging seat is provided with the positioning knot for preventing static cutting disk seat assembly from circumferentially rotating
Structure, such as alignment pin, being provided with the tubular part of static cutting disk seat flange arrangement corresponding with location structure makes static cutting disk seat total
Into the stopper slot that can only be moved axially.
Further, being provided with drive mechanism prevents liquid from entering the sealing structure inside drive mechanism, such as in casing
On bearing block inner end, at the cooperation of bearing (ball) cover, main shaft and bearing block arrange sealing structure, water enters when preventing defibrination operation
Enter bearing chamber, reduce the service life of bearing.
Defibrination crushing integrated device of the present utility model, pulverizer and fiberizer function can be carried out it is integrated,
And simple structure, install and using being quite convenient to, and can Wet-dry, significantly improve the In-commission Rate of equipment, it is bright
The aobvious cost of investment for reducing production.
Specific embodiment with reference to embodiments, remakes further specifically to the above of the present utility model
It is bright.But this scope for being interpreted as the above-mentioned theme of this utility model should not be only limitted to Examples below.New without departing from this practicality
In the case of the above-mentioned technological thought of type, the various replacements made according to ordinary skill knowledge and customary means or change,
Should be included in the range of this utility model.
Description of the drawings
Fig. 1 is the profile of this utility model defibrination crushing integrated device.
Fig. 2 is the left view part sectioned view of Fig. 1.
Fig. 3 is defibrination grinding rotor assembly structure schematic diagram in Fig. 1.
Fig. 4 is static cutting disk assembly structure schematic diagram in Fig. 1.
Specific embodiment
This utility model defibrination crushing integrated device as shown in Figures 1 to 4, the axial centre position in the cavity volume of casing 1
Installed defibrination-grinding rotor assembly, described defibrination-grinding rotor assembly include being driven by main shaft 11 and respectively with crush into
Material mouth 17 and the corresponding grinding rotor 8 of defibrination charging aperture 31 and refining rotors 7.Main shaft 11 is connected with the big belt wheel 13 for driving
With small pulley 14, small pulley 14 for driving main shaft 11 to make grinding rotor 8, at a high speed to material crush by rotation, and big belt wheel 13 is used
Refining rotors 7 are made to slowly run defibrination in main shaft 11 is driven.The inner end of bearing block 18 in casing 1, bearing (ball) cover 9, main shaft
11 and bearing block 18 cooperation at be provided with sealing structure 10, water enters bearing chamber when preventing defibrination operation, reduces bearing 12
Service life.
Described grinding rotor 8 is hock type structure, circumferential etc. on the inwall that casing 1 and pulverizing material inlet 17 are adapted
Spacing is provided with crushing toothing 20.Defibrination feeder 6, the circumferential table of defibrination feeder 6 are provided with the side of refining rotors 7 of main shaft 11
Face is provided with helical form rib, plays the guide effect to defibrination material and water.In defibrination-between grinding rotor assembly and casing 1
Dismountable mesh structure 2 is provided with, the cavity volume of casing 1 is divided into into defibrination comminuting space 15 and discharge space 16.Be additionally provided with
The cover 3 that casing 1 connects and is integrated with defibrination charging seat 32, with refining rotors 7 be correspondingly provided with simultaneously with defibrination charging aperture 31
The corresponding static cutting disk seat assembly 4 being axially movable.It is provided with and the defibrination-grinding rotor assembly position in the bottom of casing 1
Adaptable discharging opening 19.The positioning for preventing static cutting disk seat assembly 4 from circumferentially rotating is provided with the circumferential side wall of defibrination charging seat 32
The location structure 33 of pin-shaped formula.
As shown in Figure 1 to Figure 3, refining rotors 7 are coaxially disposed opposite to each other with grinding rotor 8 with main shaft 11.Refining rotors 7 include
The movable grinding disc 72 being coaxially disposed with main shaft 11 and the movable grinding disc seat 71 of flange arrangement, movable grinding disc 72 is by securing member and movable grinding disc seat
71 flange face connection, the working end of movable grinding disc 72 is corresponding with the working end of static cutting disk seat assembly 4.When the cover 3 in casing 1 is closed
When closing, the discharge end of defibrination feeder 6 is located at the working end of static cutting disk seat assembly 4 and the working end of movable grinding disc 72 of refining rotors 7
Between.
As shown in Figure 1, Figure 2 and Figure 4, described static cutting disk seat assembly 4 is included between the inwall with the defibrination charging seat 32
The static cutting disk seat 42 of the flange arrangement that gap coordinates, and it is fixed on the static cutting disk 43 of the flange face of static cutting disk seat 42, the work of static cutting disk 43
Make end corresponding with the working end of movable grinding disc 72 of refining rotors 7.It is provided with static cutting disk seat 42 and the corresponding mill of defibrination charging aperture 31
Slurry feeder 41.It is provided with the tubular part of the flange arrangement of static cutting disk seat 42 and the location structure 33 pairs on defibrination charging seat 32
That what is answered makes the stopper slot 44 that static cutting disk seat assembly 4 can only move axially.
Grinding clearance governor motion 5 is provided with the small end of the flange arrangement of static cutting disk seat 42.Grinding clearance governor motion 5 includes
The adjusting rod 52 coordinated with the small end screw thread of the flange arrangement of static cutting disk seat 42, adjusting rod 52 keeps mutually solid with defibrination charging seat 32
It is fixed, and pass the connection regulation handle 51 of defibrination charging seat 32.After by the axially position of adjusting rod 52, by adjusting rod 52 and static cutting disk
The screw thread of seat 42 coordinates, and drives the axial movement of static cutting disk seat 42 and static cutting disk 43, and can be adjusted by grinding clearance governor motion 5
Section grinds the fineness of slurry.
Claims (10)
1. defibrination crushing integrated device, it is characterized by:It is provided with the cavity volume of casing (1) by drive mechanism driving including crushing
The defibrination of rotor (8) and refining rotors (7)-grinding rotor assembly, in casing (1) position corresponding with the grinding rotor (8)
Pulverizing material inlet (17), and the cover (3) for being connected with casing (1) and being integrated with defibrination charging seat (32) are provided with, with defibrination
Rotor (7) is correspondingly provided with the static cutting disk seat assembly (4) being axially movable corresponding with defibrination charging aperture (31) simultaneously, in casing
(1) position being adapted with the defibrination-grinding rotor assembly is provided with discharging opening (19).
2. defibrination crushing integrated device as claimed in claim 1, it is characterized by:In defibrination-grinding rotor assembly and casing (1)
Between be provided with dismountable mesh structure (2).
3. defibrination crushing integrated device as claimed in claim 1, it is characterized by:Described defibrination-grinding rotor assembly includes
Driven by main shaft (11) and respectively grinding rotor (8) corresponding with pulverizing material inlet (17) and defibrination charging aperture (31) and defibrination turn
Sub (7), in refining rotors (7) side of main shaft (11) defibrination feeder (6) is provided with, when cover (3) is closed, the defibrination feeder
(6) discharge end is located between the working end of static cutting disk seat assembly (4) and the working end of refining rotors (7).
4. defibrination crushing integrated device as claimed in claim 3, it is characterized by:The peripheral surface of the defibrination feeder (6)
It is provided with helical form rib.
5. defibrination crushing integrated device as claimed in claim 1, it is characterized by:Described refining rotors (7) are including coaxially setting
The movable grinding disc (72) put and the movable grinding disc seat (71) of flange arrangement, movable grinding disc (72) is by securing member and the method for movable grinding disc seat (71)
Blue face connection, the working end of movable grinding disc (72) is corresponding with the working end of static cutting disk seat assembly (4).
6. defibrination crushing integrated device as claimed in claim 1, it is characterized by:Described grinding rotor (8) is hock type knot
Structure, it is circumferential on the inwall that casing (1) and pulverizing material inlet (17) are adapted equidistantly to be provided with crushing toothing (20).
7. defibrination crushing integrated device as claimed in claim 1, it is characterized by:Described static cutting disk seat assembly (4) include with
The static cutting disk seat (42) of the flange arrangement that the inwall gap of the defibrination charging seat (32) coordinates, and it is fixed on static cutting disk seat (42)
The static cutting disk (43) of flange face, the working end of static cutting disk (43) is corresponding with the working end of refining rotors (7), in static cutting disk seat (42)
Defibrination feeder (41) corresponding with defibrination charging aperture (31) is provided with, at the small end of static cutting disk seat (42) flange arrangement mill is provided with
Slurry gap adjusting mechanism (5).
8. defibrination crushing integrated device as claimed in claim 7, it is characterized by:Described grinding clearance governor motion (5) bag
Include the adjusting rod (52) coordinated with the small end screw thread of static cutting disk seat (42) flange arrangement, adjusting rod (52) and defibrination charging seat (32)
Holding interfixes, and passes defibrination charging seat (32) connection regulation handle (51).
9. defibrination crushing integrated device as claimed in claim 7, it is characterized by:Set in the circumferential side wall of defibrination charging seat (32)
There is the location structure (33) for preventing static cutting disk seat assembly (4) from circumferentially rotating, in the tubular part of static cutting disk seat (42) flange arrangement
It is provided with the stopper slot (44) for making static cutting disk seat assembly (4) to move axially corresponding with location structure (33).
10. the defibrination crushing integrated device as described in one of claim 1 to 9, it is characterized by:Being provided with drive mechanism prevents
The sealing structure (10) that liquid is entered inside drive mechanism.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621171057.9U CN206168500U (en) | 2016-10-26 | 2016-10-26 | Grind garrulous integrative device of starch |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621171057.9U CN206168500U (en) | 2016-10-26 | 2016-10-26 | Grind garrulous integrative device of starch |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206168500U true CN206168500U (en) | 2017-05-17 |
Family
ID=58680854
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201621171057.9U Expired - Fee Related CN206168500U (en) | 2016-10-26 | 2016-10-26 | Grind garrulous integrative device of starch |
Country Status (1)
Country | Link |
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CN (1) | CN206168500U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111229399A (en) * | 2020-01-10 | 2020-06-05 | 芜湖加瑞食品有限公司 | Multistage grinding device of raw materials for rice cake production |
-
2016
- 2016-10-26 CN CN201621171057.9U patent/CN206168500U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111229399A (en) * | 2020-01-10 | 2020-06-05 | 芜湖加瑞食品有限公司 | Multistage grinding device of raw materials for rice cake production |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170517 Termination date: 20201026 |