CN105521734B - A kind of automatically transporting materials system for Production of Ceramics - Google Patents
A kind of automatically transporting materials system for Production of Ceramics Download PDFInfo
- Publication number
- CN105521734B CN105521734B CN201511010009.1A CN201511010009A CN105521734B CN 105521734 B CN105521734 B CN 105521734B CN 201511010009 A CN201511010009 A CN 201511010009A CN 105521734 B CN105521734 B CN 105521734B
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- rotating cylinder
- discharge
- segment
- stirring
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F29/00—Mixers with rotating receptacles
- B01F29/80—Mixers with rotating receptacles rotating about a substantially vertical axis
- B01F29/83—Mixers with rotating receptacles rotating about a substantially vertical axis with rotary paddles or arms, e.g. movable out of the receptacle
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F29/00—Mixers with rotating receptacles
- B01F29/40—Parts or components, e.g. receptacles, feeding or discharging means
- B01F29/403—Disposition of the rotor axis
- B01F29/4032—Disposition of the rotor axis vertical
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F29/00—Mixers with rotating receptacles
- B01F29/80—Mixers with rotating receptacles rotating about a substantially vertical axis
- B01F29/87—Mixers with rotating receptacles rotating about a substantially vertical axis with rotary cylinders
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/71—Feed mechanisms
- B01F35/717—Feed mechanisms characterised by the means for feeding the components to the mixer
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01F—MIXING, e.g. DISSOLVING, EMULSIFYING OR DISPERSING
- B01F35/00—Accessories for mixers; Auxiliary operations or auxiliary devices; Parts or details of general application
- B01F35/75—Discharge mechanisms
- B01F35/754—Discharge mechanisms characterised by the means for discharging the components from the mixer
- B01F35/75455—Discharge mechanisms characterised by the means for discharging the components from the mixer using a rotary discharge means, e.g. a screw beneath the receptacle
- B01F35/754551—Discharge mechanisms characterised by the means for discharging the components from the mixer using a rotary discharge means, e.g. a screw beneath the receptacle using helical screws
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- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Mixers Of The Rotary Stirring Type (AREA)
Abstract
The present invention provides a kind of automatically transporting materials system for Production of Ceramics, including teeter chamber, has stirring space, and bottom is equipped with discharge port;Rotating cylinder is installed in rotation in teeter chamber, is had the first segment being located inside stirring space and is stretched out the second segment of stirring space upwards, and is equipped with rotating cylinder inner cavity inside second segment and the part first segment connecting with second segment;Driving structure drives drum rotation by connection structure;Conveying pipeline, at least 2, by connection structure to rotating cylinder inner cavity transferring raw material;Discharge gate, for raw material to be delivered to stirring space by rotating cylinder inner cavity;Flabellum is stirred, is mounted on first segment, it is opposite up and down with discharge gate, for the raw material being discharged from discharge gate to be mixed evenly.Feeding device of the invention is input to the amount of raw material inside conveying pipeline, i.e., the amount of the controllable finished product being discharged from discharge port by controlling, thus no setting is required special receiving equipment and control device, can reduce equipment cost.
Description
Technical field
The present invention relates to technical field of ceramic production, and in particular to a kind of automatically transporting materials system for Production of Ceramics.
Background technique
Ceramics in the prior art are in process of production, it is often necessary to mix various ceramic powders, special
In the case of, it is also necessary to the mixture of powder and liquid is formed, that is, solidliquid mixture, to be used for subsequent production.Prior art pottery
Porcelain production equipment only has agitating function mostly, in specific production, first weighs various raw materials by weight, is then placed in ceramics
It is stirred in blender, it is stand-by to be delivered to specific position again after to be mixed.Also, above-mentioned charging, whipping step pass through people
Work carries out, and working efficiency is low, cannot achieve automated production;Also, after mixing evenly, by manual operation control device come
It realizes the output for Solid-liquid mixture, further reduced working efficiency.
The problem of in order to avoid pure manually-operated low efficiency, people also attempt design automation equipment, will feed, stir
It mixes, transmission process realization automation, however, often resulting in blocking etc. during transportation after due to the mixing of ceramic batch solid-liquid
Problem, and smooth can not convey, also, can not often be uniformly mixed.
Therefore, how to provide it is a kind of for Production of Ceramics, and can be realized feeding, stirring and conveying be integrated, and
Guarantee that smoothly automatically transporting materials system is still unsolved technical problem in the prior art for uniform mixing, conveying.
Summary of the invention
Therefore, the technical problem to be solved in the present invention is that overcome in the prior art in Production of Ceramics feeding, stirring with
And conveying cannot achieve automation, and cannot achieve mixing uniformly, smooth delivery of power the technical issues of.
For this purpose, the present invention provides a kind of automatically transporting materials system for Production of Ceramics,
Connecting cylinder has connection tube inner chamber;
Shell is arranged around the connecting cylinder, is formed with the connection drum outer wall and holds material space, and the connecting cylinder energy
It is enough to be rotated around the shell;
Conveying pipeline is two, the two sides of the shell is arranged in, are connected to the appearance material space;
Feed inlet has several, is uniformly arranged on the connecting cylinder, is connected to the appearance material space and the connecting cylinder
Inner cavity;
Rotating cylinder, has first segment and second segment, and inside is equipped with rotating cylinder inner cavity, the rotating cylinder inner cavity and the connection tube inner chamber
Connection;
Teeter chamber has stirring space, some is located in the stirring space rotating cylinder, some is located at institute
It states outside stirring space;
Discharge hole, at least one are provided on the first segment outer wall, are connected to the rotating cylinder inner cavity;
Supporting plate is fixed on the first segment outer wall, and is located at the lower section of all discharge holes;
Inner cover is mounted on inside the stirring space, the first discharge space of formation opposite with the first segment outer wall, with institute
Supporting plate the second discharge space of opposite formation is stated, first discharge space is connected to the second discharge space, and described second goes out
The end far from the first segment of material space is equipped with discharge gate, outer wall certain distance of the discharge gate apart from the first segment
Setting, for the raw material to be delivered to the stirring space by the rotating cylinder inner cavity;
First discharge space is the vertical discharge space being placed in the vertical direction, and second discharge space is to incline
The inclination discharge space being tiltedly arranged;
Angle between the inner wall and horizontal plane of second discharge space is not more than 40 degree;
Motor, for driving the connecting cylinder and the drum rotation;
Bracket is two, horizontally arranged, is arranged at intervals on the first segment;
Flabellum is stirred, on the bracket, multiple stirring flabellums, the stirring is arranged in setting on each bracket
Flabellum is arranged along the short transverse of the rotating cylinder, is provided with stirrer gear on the stirring flabellum, adjacent on the same bracket
The distance between two stirring flabellums are not more than 300mm, opposite the distance between two stirring flabellums on upper and lower two brackets
No more than 600mm, the stirring flabellum and the discharge gate are opposite up and down, the raw material mixing for will be discharged from the discharge gate
It stirs evenly;
The lower section of the stirring space is arranged in discharge port;
The lower section of the stirring space is arranged in helical feed roller, for receiving the material come out from discharge port;
Roller is had enough to meet the need, is arranged between the outlet end and material-receiving device of helical feed roller, the inner wall of the turnover roller
On be provided with helical feed channel and scraper bowl, molding scraper bowl opening on the scraper bowl, the corresponding spiral of scraper bowl opening
The discharge port of transfer passage, in the turnover roller rotating process, the scraper bowl opening is received from the helical feed
The material is simultaneously poured onto material-receiving device by the material of roller;The scraper bowl includes two sidewalls and is connected between two sidewalls
Shovel fill bottom plate.
As a preferred embodiment, the internal diameter of the discharge gate is less than the lowermost internal diameter of second discharge space.
As a preferred embodiment, the bottom surface for holding material space is obliquely installed to the connecting cylinder side, and described
The lower end of feed inlet is concordant with the appearance bottom surface of material space.
As a preferred embodiment, further include mixing teeth, be arranged on the inner wall of the rotating cylinder inner cavity, in the rotating cylinder
When rotation, the drum rotation is followed, and then mixing is stirred to the raw material for entering the rotating cylinder inner cavity.
As a preferred embodiment, further include mixing supporting plate, the mixing supporting plate around the rotating cylinder be arranged it is described go out
Expect below hole, and is fixed in the inner cover and/or the teeter chamber, and have between edge and the inner wall of the inner cover
Gap.
As a preferred embodiment, between the center and the mixing supporting plate of the discharge hole of the mixing supporting plate
Vertical range is H, and the vertical range between mixing supporting plate edge and the rotating cylinder center is L, and H/L >=0.32.
It as a preferred embodiment, further include structure for conveying, for receiving the mixture being discharged from the discharge port, and will
It is delivered to selected location, and the conveying structure is helical feed roller.
Automation feed system provided by the invention, has the advantage that
1. the automatically transporting materials system for Production of Ceramics of the invention, raw material are transported to the rotating cylinder of rotating cylinder by conveying pipeline
Inner cavity, when rotating cylinder drives rotation by driving structure, raw material can tentatively be mixed in the inside of rotation inner cavity, then pass through row again
Material mouth is expelled to stirring space, and agitated flabellum stirring is primary again, raw material can be made to be sufficiently mixed, finally continuously through being located at
The discharge port of teeter chamber lower part is discharged;Raw material is after conveying pipeline input, and after mixing twice, what is be discharged from discharge port is to accord with
Desired ceramic batch mixture is closed, when being applied to automated production occasion, by controlling the original being input to inside conveying pipeline
The amount of material, i.e., the amount of the controllable finished product being discharged from discharge port, thus no setting is required special receiving equipment and control device, energy
Enough reduce equipment cost;The end of one end of connecting cylinder and the driving axis connection of driving structure, the other end and second segment connects, from
And the rotation of drive shaft can be passed to second segment, and then drive drum rotation;Shell and connection around connecting cylinder setting
The appearance material space for accommodating raw material is formed between cylinder, the raw material through conveying pipeline conveying is kept in inside the appearance material space;Setting
Feed inlet on connecting cylinder will be located at the raw material held inside material space and import rotating cylinder inner cavity, makes raw material in rotating cylinder inner cavity
Internal mix and smooth delivery of power enter teeter chamber, and the outer wall of first segment rotating cylinder is equipped with discharge hole, and when drum rotation, raw material is from going out
Expect hole rotation discharge, the raw material of discharge is covered in the second discharge space layer by layer after passing through the first discharge space, and finally from row
Material mouth slides discharge, further increases the mixture homogeneity of raw material.In addition, shell and connecting cylinder relatively rotate and are arranged, conveying
Pipe is arranged on the shell, and in connecting cylinder rotation, conveying pipeline is not followed and rotated together, and conveying pipeline is avoided to generate torsion and damage.
Roller is had enough to meet the need by setting, the material from helical feed roller is smoothly entered in material-receiving device, above-mentioned angle
Degree setting is actually it is determined that tilt angle of the shovel dress bottom plate on the turnover inner wall of rotary drum, in turnover roller rotating process
In, above-mentioned angle setting is not only conducive to material and enters in the scraper bowl, and is conducive to material and is poured out from scraper bowl opening,
Improve the conveying effect of material.
2. the automatically transporting materials system for Production of Ceramics of the invention, the sectional area of second discharge space is in vertical side
It is linear from top to bottom upwards to reduce.This is squeezed material constantly during transportation, to improve mixed effect.
3. the automatically transporting materials system for Production of Ceramics of the invention, mixing teeth are additionally provided on the inner wall of rotating cylinder inner cavity,
In drum rotation, mixing teeth follow rotating cylinder to rotate together, and then are stirred to the raw material for entering rotating cylinder inner cavity
Mixing, so as to increase the uniformity for the raw material being discharged behind rotating cylinder inner cavity.
4. the automatically transporting materials system for Production of Ceramics of the invention further includes mixing supporting plate, mixing supporting plate is around rotating cylinder
It is arranged below discharge hole, when drum rotation, raw material stacking first after discharge hole discharge is fallen on mixing supporting plate, when mixed
After stacking certain altitude on material torr plate, the raw material of subsequent stacking can be dissipated from the surface of stockpile downward four to be slid to the second discharging sky
Between, further increase the mixture homogeneity of raw material.Also, since the weight of a variety of ingredients of dry powder is inconsistent, pass through setting
Mixing supporting plate, even if in the case that material is not yet uniformly mixed in rotating cylinder, material can be also stacked on mixing supporting plate, in mixing
Mixed on supporting plate, it is preferable that mixing supporting plate setting is fixed on the outer cover by reinforcing bar, mixing supporting plate not with turn
Cylinder rotates together, so that mixing supporting plate and rotating cylinder can relatively rotate, so that the object that same discharge port comes out
Material can be fallen on the different location of mixing supporting plate, improve compounding effect;Further, the discharging near mixing supporting plate is set
Vertical range between the center in hole and the mixing supporting plate is H, the vertical range between mixing supporting plate edge and rotating cylinder center
For L, and make H/L >=0.32, the smooth discharge of discharge hole can be made, reach better discharge and mixed effect.
Detailed description of the invention
In order to illustrate more clearly of the technical solution in the prior art or the specific embodiment of the invention, below to existing skill
Attached drawing used in art or specific embodiment description is briefly described, it should be apparent that, for ordinary skill people
For member, without creative efforts, it is also possible to obtain other drawings based on these drawings.
Fig. 1 is the overall structure diagram of automatically transporting materials system in the embodiment of the present invention 1.
Fig. 2 is the principle assumption diagram of connection structure in Fig. 1.
Fig. 3 is the schematic enlarged-scale view of part A in Fig. 1.
Fig. 4 is the structural schematic diagram for having enough to meet the need roller.
Appended drawing reference: the teeter chamber 1-, 10- stirring space, 11- discharge port, 2- rotating cylinder, 21- first segment, 22- second segment,
23- discharge hole, 24- supporting plate, 25- inner cover, the first discharge space of 26-, the second discharge space of 27-, 28- mixing supporting plate, 3- conveying
Pipe, 4- discharge gate, 5- stir flabellum, 6- connecting cylinder, and 60- holds material space, 61- shell, 62- feed inlet, 7- motor, 8- connection
Pipe, 9- delivery pipe.
Specific embodiment
Technical solution of the present invention is described with reference to the accompanying drawings of the specification, it is clear that following embodiments is not this
Invent whole embodiments.Based on embodiment described in the invention, those of ordinary skill in the art are not making other wounds
Every other embodiment obtained under the premise of the property made labour, belongs to protection scope of the present invention.
It should be noted that as long as technical characteristic involved in invention described below different embodiments is each other
Between do not constitute conflict and can be combined with each other.
Embodiment 1
The present embodiment provides a kind of automation feed systems, as shown in Figs. 1-3, comprising: teeter chamber 1 has stirring space
10, bottom is equipped with the discharge port 11 being connected to the stirring space 10;Rotating cylinder 2 is installed in rotation in the teeter chamber 1,
The second segment 22 of the stirring space 10, and institute are stretched out with the first segment 21 being located inside the stirring space 10 and upwards
State second segment 22 and the part first segment 21 that is connect with the second segment 22 inside be equipped with rotating cylinder inner cavity;Motor 7 leads to
It crosses connection structure to connect with the rotating cylinder 2, for driving the rotating cylinder 2 to rotate;Conveying pipeline 3, at least 2, pass through the company
Binding structure is connected to the rotating cylinder inner cavity, is used for rotating cylinder inner cavity transferring raw material;Discharge gate 4, apart from the first segment 21
Outer wall certain distance setting, for the raw material to be delivered to the stirring space 10 by the rotating cylinder inner cavity;Bracket is two
It is a, it is horizontally arranged, it is arranged at intervals on the first segment 21;Flabellum 5 is stirred, setting is on the bracket, each described
Multiple stirring flabellums are set on bracket, and the stirring flabellum 5 is arranged along the short transverse of the rotating cylinder 2, the stirring
Stirrer gear is provided on flabellum 5, the distance between two neighboring stirring flabellum is not more than 300mm on the same bracket, up and down
The distance between opposite two stirring flabellums are not more than 600mm, the stirring flabellum 5 and the discharge gate 4 on two brackets
It is opposite up and down, for the raw material being discharged from the discharge gate 4 to be mixed evenly;The stirring flabellum 5 have air flue and
The stomata connecting with air flue, the stomata are located on the surface of the stirring flabellum, by being passed through gas into the air flue, make
Must stir flabellum 5 can outside jet, can prevent material stirring flabellum 5 on cling, improve the conveying effect of material.
The automation feed system of the present embodiment, raw material are transported to the rotating cylinder inner cavity of rotating cylinder 2 by conveying pipeline 3,
When rotating cylinder 2 drives rotation by motor 7, raw material can tentatively be mixed in the inside of rotation inner cavity, be then expelled to again by discharge gate 4
Stirring space 10, and agitated flabellum 5 stirs once again, raw material can be made to be sufficiently mixed, is finally continuously located at teeter chamber 1
The discharge port 11 of lower part is discharged;Raw material is after the input of conveying pipeline 3, and after mixing twice, what is be discharged from discharge port 11 is to accord with
Desired ceramic batch mixture is closed, when being applied to automated production occasion, by controlling the original being input to inside conveying pipeline
The amount of material, i.e., the amount of the controllable finished product being discharged from discharge port, thus no setting is required special receiving equipment and control device, energy
Enough reduce equipment cost.
As shown in Fig. 2, the connection structure includes: connecting cylinder 6, the driving axis connection of one end and the motor 7, the other end
It is connect with the end of the second segment 22, and the connecting cylinder 6 has the connection tube inner chamber being connected to the rotating cylinder inner cavity;Outside
Shell 61 is arranged around the connecting cylinder 6, is formed with 6 outer wall of connecting cylinder and holds material space 60, and the connecting cylinder 6 can
It is rotated around the shell 61;The conveying pipeline 3 is connected to the appearance material space 60;Feed inlet 62 has several, is uniformly arranged
On the connecting cylinder 6, it is connected to the appearance material space 60 and the connection tube inner chamber.
The bottom surface for holding material space 60 is obliquely installed to 6 side of connecting cylinder, and the lower end of the feed inlet 62
It is concordant with the appearance bottom surface of material space 60.
As an improvement embodiment, further include mixing teeth, be arranged on the inner wall of the rotating cylinder inner cavity, in institute
When stating drum rotation, the rotating cylinder 2 is followed to rotate, and then be stirred to the raw material for entering the rotating cylinder inner cavity mixed
It closes.When rotating cylinder 2 rotates, mixing teeth follow rotating cylinder 2 to rotate together, and then carry out to the raw material for entering rotating cylinder inner cavity
It is stirred, so as to increase the uniformity for the raw material being discharged behind rotating cylinder inner cavity.
As shown in Figure 3, further includes: discharge hole 23 is provided on 21 outer wall of first segment, is connected with the rotating cylinder inner cavity
It is logical;Supporting plate 24 is fixed on 21 outer wall of first segment, and is located at the lower section of the discharge hole 23;Inner cover 25, is mounted on
Inside the stirring space 10, the first discharge space 26 of formation opposite with 21 outer wall of first segment, with the opposite shape of the support 24
At the second discharge space 27, first discharge space 26 is connected to the second discharge space 27, and second discharge space
27 end far from the first segment 21 is equipped with the discharge gate 4.First discharge space 26 is to set along vertical direction
The vertical discharge space set, second discharge space 27 are the inclination discharge space being obliquely installed;Second discharge space
27 sectional area is linear from top to bottom in the vertical direction to be reduced, between the inner wall and horizontal plane of second discharge space 27
Angle is not more than 40 degree.The internal diameter of the discharge gate 4 is less than the lowermost internal diameter of second discharge space 27, convenient in object
The lower abundant pressing materials by during of material, so that being sufficiently mixed between material.
21 outer wall of first segment of rotating cylinder is equipped with discharge hole 23, and when rotating cylinder 2 rotates, raw material is from rotary rowed from discharge hole 23
Out, the raw material of discharge is covered in the second discharge space 27 layer by layer after passing through the first discharge space 26, and finally sliding from discharge gate 4
Discharge is fallen, the mixture homogeneity of raw material is further increased.
It further include mixing supporting plate 28, the mixing supporting plate 28 is arranged below the discharge hole 23 around the rotating cylinder 2, and
It is fixed in the inner cover 25 and/or the teeter chamber 1, and there is gap between edge and the inner wall of the inner cover 25.
When rotating cylinder 2 rotates, raw material stacking first after the discharge of discharge hole 23 is fallen on mixing supporting plate 28, when the heap on mixing supporting plate 28
After folded certain altitude, the raw material of subsequent stacking can be dissipated from the surface of stockpile downward four to be slid to the second discharge space 27, into one
Step increases the mixture homogeneity of raw material.Further, be arranged near mixing supporting plate 28 discharge hole 23 center with it is described
Vertical range between mixing supporting plate 28 is H, and the vertical range between 2 center of 28 edge of mixing supporting plate and rotating cylinder is L, and makes H/
L >=0.32 can make the smooth discharge of discharge hole, reach better discharge and mixed effect.
Further include delivery pipe 9, be connected to by communicating pipe 8 with discharge port 11, for receiving from the discharge port 11 discharge
Mixture, and it is transported to selected location, helical structure is arranged in the inside of the conveying pipeline 9, to form a spiral transferring
Send roller.
As shown in figure 4, further including turnover roller, it is arranged between the outlet end and material-receiving device of helical feed roller, institute
It states and is provided with helical feed channel 111 and scraper bowl 112 on the inner wall of turnover roller 110, molding scraper bowl is opened on the scraper bowl 112
Mouth 112b, the scraper bowl opening 112b corresponds to the discharge port in the helical feed channel 111, in the turnover roller 110 rotation
In the process, the scraper bowl opening 112b receives the material from the helical feed roller and the material is poured onto splicing
In device;The scraper bowl 112 includes that two sidewalls and the shovel being connected between two sidewalls dress bottom plate 112c, the shovel fill bottom plate
Angle is 60- between 112c and the outer section and shovel dress bottom plate 112 of the connecting line of the turnover 110 inner wall junction of roller
120°。
Obviously, the above embodiments are merely examples for clarifying the description, and does not limit the embodiments.It is right
For those of ordinary skill in the art, can also make on the basis of the above description it is other it is various forms of variation or
It changes.There is no necessity and possibility to exhaust all the enbodiments.And it is extended from this it is obvious variation or
It changes still within the protection scope of the invention.
Claims (6)
1. a kind of automatically transporting materials system for Production of Ceramics, it is characterised in that: include:
Connecting cylinder (6) has connection tube inner chamber;
Shell (61) is arranged around the connecting cylinder (6), is formed with the connecting cylinder (6) outer wall and holds material space (60), and institute
Stating connecting cylinder (6) can rotate around the shell (61);
Conveying pipeline (3) is two, is arranged in the two sides of the shell (61), is connected to the appearance material space (60), is used for appearance
Material space conveys different ceramic batch;
Feed inlet (62) has several, is uniformly arranged on the connecting cylinder (6), is connected to the appearance material space (60) and institute
State connection tube inner chamber;
Rotating cylinder (2), has first segment (21) and second segment (22), and inside is equipped with rotating cylinder inner cavity, the rotating cylinder inner cavity and the company
The connection of connect cylinder inner cavity;
Teeter chamber (1) has stirring space (10), some is located in the stirring space (10) rotating cylinder (2), there is one
It is external that part is located at the stirring space (10);
Discharge hole (23), at least one are provided on the first segment (21) outer wall, are connected to the rotating cylinder inner cavity;
Supporting plate (24) is fixed on the first segment (21) outer wall, and is located at the lower section of all discharge holes (23);
Inner cover (25) is mounted on the stirring space (10) inside, opposite with the first segment (21) outer wall to form the first discharging
Space (26), opposite with the supporting plate (24) to form the second discharge space (27), first discharge space (26) goes out with second
Material space (27) connection, and the end far from the first segment (21) of second discharge space (27) is equipped with discharge gate
(4), outer wall certain distance setting of the discharge gate (4) apart from the first segment (21), is used for raw material by the rotating cylinder
Chamber is delivered to the stirring space (10);
First discharge space (26) is the vertical discharge space being placed in the vertical direction, second discharge space (27)
For the inclination discharge space being obliquely installed;
Angle between the inner wall and horizontal plane of second discharge space (27) is not more than 40 degree;
Motor, for driving the connecting cylinder (6) and the rotating cylinder (2) to rotate;
Bracket is two, horizontally arranged, is arranged at intervals on the first segment (21);
It stirs flabellum (5), on the bracket, multiple stirring flabellums, the stirring is arranged in setting on each bracket
Flabellum (5) is arranged along the short transverse of the rotating cylinder (2), is provided with stirrer gear, the same branch on the stirring flabellum (5)
The distance between two neighboring stirring flabellum is not more than 300mm on frame, on upper and lower two brackets two opposite stirring flabellums it
Between distance be not more than 600mm, the stirring flabellum (5) and the discharge gate (4) are opposite up and down, and being used for will be from the discharge gate
(4) raw material being discharged is mixed evenly;
Discharge port (11) is arranged in the lower section of the stirring space (10);
Helical feed roller, setting is in the lower section of the stirring space (10), for receiving the material come out from discharge port (11);
Roller is had enough to meet the need, is arranged between the outlet end and material-receiving device of helical feed roller, the inner wall of turnover roller (110)
On be provided with helical feed channel (111) and scraper bowl (112), molding scraper bowl opening (112b), described on the scraper bowl (112)
The discharge port of the corresponding helical feed channel (111) of scraper bowl opening (112b), in turnover roller (110) rotary course
In, the scraper bowl opening (112b) receives the material from the helical feed roller and the material is poured onto splicing dress
In setting;The scraper bowl (112) includes two sidewalls and the shovel being connected between two sidewalls dress bottom plate (112c).
2. the automatically transporting materials system according to claim 1 for Production of Ceramics, it is characterised in that: the discharge gate (4)
Internal diameter be less than second discharge space (27) the lowermost internal diameter.
3. the automatically transporting materials system according to claim 1 for Production of Ceramics, it is characterised in that: the appearance material space
(60) bottom surface is obliquely installed to the connecting cylinder (6) side, and the lower end of the feed inlet (62) and the appearance material space
(60) bottom surface is concordant.
4. the automatically transporting materials system according to claim 1 for Production of Ceramics, it is characterised in that: further include mixing tooth
Tooth is arranged on the inner wall of the rotating cylinder inner cavity, in the drum rotation, follows the rotating cylinder (2) to rotate, and then to entrance
Raw material to the rotating cylinder inner cavity is stirred mixing.
5. the automatically transporting materials system according to claim 4 for Production of Ceramics, it is characterised in that: further include mixing supporting plate
(28), the mixing supporting plate (28) is arranged below the discharge hole (23) around the rotating cylinder (2), and is fixed at described
On inner cover (25) and/or the teeter chamber (1), and there is gap between edge and the inner wall of the inner cover (25).
6. the automatically transporting materials system according to claim 5 for Production of Ceramics, it is characterised in that: near the mixing
Vertical range between the center and the mixing supporting plate (28) of the discharge hole (23) of supporting plate (28) is H, the mixing supporting plate
(28) vertical range between edge and the rotating cylinder (2) center is L, and H/L >=0.32.
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CN201511010009.1A CN105521734B (en) | 2015-12-29 | 2015-12-29 | A kind of automatically transporting materials system for Production of Ceramics |
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CN201511010009.1A CN105521734B (en) | 2015-12-29 | 2015-12-29 | A kind of automatically transporting materials system for Production of Ceramics |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN105643800A (en) * | 2015-12-30 | 2016-06-08 | 汪振朴 | Autonomic feeding system |
CN105599141A (en) * | 2015-12-30 | 2016-05-25 | 汪振朴 | Dry-mixed mortar continuous feeding device |
CN105500526A (en) * | 2015-12-30 | 2016-04-20 | 汪振朴 | Material conveying device |
CN105619607A (en) * | 2015-12-30 | 2016-06-01 | 汪振朴 | Automated feeding equipment |
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CN204865609U (en) * | 2015-06-19 | 2015-12-16 | 储娟英 | Vertical blendor is used to production pottery |
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CN204566396U (en) * | 2015-04-25 | 2015-08-19 | 李远居 | A kind of vertical concrete stirring machine |
CN204865609U (en) * | 2015-06-19 | 2015-12-16 | 储娟英 | Vertical blendor is used to production pottery |
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