CN209668341U - Aluminium oxide storing and transporting system - Google Patents
Aluminium oxide storing and transporting system Download PDFInfo
- Publication number
- CN209668341U CN209668341U CN201920212969.3U CN201920212969U CN209668341U CN 209668341 U CN209668341 U CN 209668341U CN 201920212969 U CN201920212969 U CN 201920212969U CN 209668341 U CN209668341 U CN 209668341U
- Authority
- CN
- China
- Prior art keywords
- warehouse
- chute
- transfer device
- aluminium oxide
- bucket elevator
- 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.)
- Active
Links
Landscapes
- Warehouses Or Storage Devices (AREA)
Abstract
Aluminium oxide storing and transporting system provided by the utility model includes discharging platform, with warehouse, the first powder transfer device, bucket elevator, the second powder transfer device, belt feeder and uses warehouse on 1st within 1st.Wherein, the first service bin lab setting is in discharging platform side, and height locating for the feed inlet with warehouse on the firstth is lower than height locating for discharging platform.The lower section of the discharge port with warehouse on the firstth is arranged in one end of first powder transfer device, and the other end of the first powder transfer device is connected to the feed inlet of the lower end of bucket elevator.One end of second powder transfer device is connected to the discharge port of the upper end of bucket elevator, and the other end of the second powder transfer device is connected to belt feeder.Belt feeder is connected to second and uses warehouse.Compared with the existing technology, the utility model reduces the process for by aluminium oxide pack, cutting sack and artificial blanking, and whole process can automate discharging, improve the storage and transportation efficiency of aluminium oxide, save the cost, and reduce injury of the dust to operating personnel.
Description
Technical field
The utility model relates to aluminum electrolysis technology fields, and in particular to a kind of novel aluminium oxide storing and transporting system.
Background technique
The aluminium oxide storing and transporting system of electrolytic aluminium factory is generally bagged aluminum oxide storing and transporting system at present, i.e., first carries out aluminium oxide
Pack, then by crane or fork truck by packed aluminium oxide transferring bulk cargo platform of blanking top, then by manually cutting sack,
Enter aluminium oxide in chute, then is sent the aluminium oxide on chute into service bin by belt feeder.The aluminium oxide storing and transporting system
Each storage and transport process is intended to the process by packed transport, unpacking, needs multiple people operation simultaneously, not only needs to spend longer
It is time, at high cost, and many dust are generated in whole process, it is easy to damage operating personnel.
Therefore, in view of the deficiencies of the prior art, it is necessary to a kind of novel aluminium oxide storing and transporting system is designed, to improve oxygen
Change the storage and transportation efficiency of aluminium, mitigates injury of the dust to operating personnel.
Summary of the invention
The purpose of this utility model is to provide a kind of novel aluminium oxide feeding systems, by the row for improving feeding system
Wind system, to improve the feed efficiency of aluminium oxide.
Aluminium oxide storing and transporting system provided by the utility model includes discharging platform, is transported with warehouse, the first powder within 1st
Device, bucket elevator, the second powder transfer device, belt feeder and use warehouse on 1st.Wherein, the first service bin lab setting is in discharging
Platform side, and the level height of the feed inlet with warehouse on the firstth is lower than the level height of discharging platform.First powder transhipment dress
The lower section of the discharge port with warehouse on the firstth is arranged in the one end set, and the other end of the first powder transfer device is connected to bucket elevator
Lower end feed inlet.One end of second powder transfer device is connected to the discharge port of the upper end of bucket elevator, the transhipment of the second powder
The other end of device is connected to belt feeder.Belt feeder is connected to second and uses warehouse.
Preferably, discharging platform is arranged on the ground.It is arranged at ground with warehouse, the first powder device and bucket elevator within 1
In the melt pit below of face, and the upper end of bucket elevator is located at the height and position on ground or more.
Preferably, the first powder transfer device includes the first chute, and one end of the first chute, which is arranged, used warehouse on 1st
Discharge port lower section, the other end of the first chute is connected to the feed inlet of the lower end of bucket elevator.
Preferably, the second powder transfer device includes the second chute, and one end of the second chute is connected to the upper end of bucket elevator
Discharge port, the other end of the second chute is connected to belt feeder.
Preferably, the second powder transfer device includes third chute and the 4th chute.One end of third chute is connected to bucket
The discharge port of the upper end of machine is mentioned, the other end of third chute is connected to the feed inlet in the daily warehouse of third.One end of 4th chute
It is connected to the discharge port in the daily warehouse of third, the other end of the 4th chute is connected to belt feeder.
By above-mentioned scheme as it can be seen that alumina raw material in bulk is directly transported on discharging platform by automobile, automobile directly will be
Alumina raw material is unloaded to first day be located at below discharging platform in warehouse on discharging platform, then passes through the first powder transfer device
Powder is transported to elevator, then is promoted powder by elevator, aluminium oxide is then transported to belt by the second powder transfer device
Machine is finally sent alumina raw material to second day in warehouse by belt feeder.Compared with the existing technology, the utility model reduces
Aluminium oxide is packed, is cut the process of sack and artificial blanking, whole process improves the storage of aluminium oxide by automation discharging
Efficiency is transported, and cost-saved, and reduces injury of the dust to operating personnel.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model aluminium oxide storing and transporting system first embodiment.
Fig. 2 is the structural schematic diagram of the utility model aluminium oxide storing and transporting system second embodiment.
Specific embodiment
The following is a further explanation of the present invention with reference to the accompanying drawings and embodiments.In order to which the present embodiment is better described,
The certain attachmentes of attached drawing have omission, zoom in or out;To those skilled in the art, in attached drawing certain known features and
It illustrates to omit will be understood by.
First embodiment
Referring to Fig. 1, aluminium oxide storing and transporting system includes the warehouse 2 of discharging platform 1, first day, the first powder transfer device, bucket
Mention machine 4, the second powder transfer device, the warehouse 7 of belt feeder 6 and second day.
Discharging platform 1 is arranged on the ground, certainly, is save the cost, directly can also set discharging platform for ground.First
The side of discharging platform 1 is arranged in daily warehouse 2, and first low with the level height of the feed inlet (Fig. 1 is not shown) in warehouse 2
In the level height of discharging platform 1.For the difficulty for mitigating installation equipment, melt pit 100, melt pit are directly set on the side of discharging platform 1
100 depth is depending on specific equipment.It is corresponding, it was set as dicang with warehouse 2 in 1st, that is, is set up directly on ground level
Lower warehouse.Dicang can be by directly scraping out hopper shape on the ground, and it is i.e. plastic to pour mixed mud structure, has construction party
Just, the features such as at low cost.Certainly.In other embodiments, it is also possible to warehouse 2 within 1st complete depot equipment is direct
It is installed into melt pit 100.It is mounted in melt pit 100 with warehouse 2 within 1st, and first is lower than with the charging open height in warehouse 2
The height of discharging platform 1.In addition, being provided with rain-proof shelter 21 with the top in warehouse 2 on 1st.Certainly, rain-proof shelter 21 is in discharging platform
Side be it is open, with the operation of easy-unloading vehicle.First day of the present embodiment is mainly with the feeding manner in warehouse 2
By directly reaching 1 side of discharging platform mounted in the automobile 200 that has alumina raw material, then automobile is by alumina raw material from use on the firstth
The feed inlet in warehouse 2 is discharged into first in warehouse 2.
First powder transfer device includes the first chute 3, and the first chute 3 is arranged in melt pit 1100, and the first chute 3 can be into
The remote transmission of row, the first chute 3 can be the skewed slot being obliquely installed without power device, be also possible to power device
Skewed slot, such as pneumatic skewed slot.In other examples, other equipment, such as conveyer belt can also be used in the first transfer device
Device etc..Bucket elevator 4 is mounted in melt pit 100, and bucket elevator 4 can carry out promotion operation in vertical direction to material.Bucket elevator 4
Lower end is located in melt pit 100, and the upper end of bucket elevator 4 is then located at the height on ground or more, i.e. the height of bucket elevator 4 is higher than melt pit
100 depth.The lower end of bucket elevator 4 is arranged in the feed inlet of bucket elevator 4, and the upper of bucket elevator 4 is arranged in the discharge port of bucket elevator 4
End.The lower section of the discharge port with warehouse 2 on the firstth is arranged in one end of first chute 3, and the other end of the first chute 3 is connected to bucket
Mention the feed inlet of the lower end of machine 4.It can be seen that first can be stored aluminium oxide with warehouse 2.When needing to call aluminium oxide
Raw material, opens the discharge port with the lower section of warehouse 2 on the firstth, first day with the aluminium oxide in warehouse 2 can under on the first chute 3,
Aluminium oxide is transported to bucket elevator 4 by the first chute 3 again, and by bucket elevator 4 by position more than alumina lift to ground, then
It is transported through by other transloading equipments.
Second powder transfer device includes the second chute 5, and the second chute 5 is rest on the ground.One end of second chute 5 connects
To the discharge port of the upper end of bucket elevator 4, the other end of the second chute 5 is connected to belt feeder 6.Feed belt is set on belt feeder 6,
The top of the feed belt of belt feeder 6 is then arranged in second chute 5.In this way, aluminium oxide can be transported to belt feeder 6 by the second chute 5
Feed belt on.The feed belt of belt feeder 6 is then connected to the feed inlet with warehouse 7 on the secondth.Second is day with warehouse 7
With storehouse, directly aluminium oxide was put into electrolytic cell with warehouse 7 by second day and carries out electrolysis operation, is deposited on warehouse 7 within 1st
The aluminium oxide quantity of storage is aluminium oxide quantity needed for electrolytic cell carries out electrolytic aluminium daily.When second day with warehouse 7 need using
Aluminium oxide can be automatically by aluminium oxide from first by the first chute 3 of control, bucket elevator 4, the second chute 5 and belt feeder 6
Daily warehouse 2 is maneuvered into second in warehouse 7.Relative to it is traditional bagged aluminum oxide is transported to by service bin by fork truck before
It on chute, then cuts sack and unloads aluminium oxide in chute, and aluminium oxide is transported to the process of service bin, this implementation by chute
Aluminium oxide in bulk directly can be discharged into first in warehouse 2 with the feed inlet in warehouse 2 from first day by automobile 200 by example
It stores.It needed to store with warehouse 7 when second day and uses aluminium oxide, the first chute 3, bucket elevator 4, the second chute 5 can be passed through
With belt feeder 6 by first day with the alumina transferring in warehouse 2 to second day in warehouse 7.Entire aluminium oxide storage and transport process subtracts
Lack processes such as aluminium oxide pack, manual work carryings, high degree of automation is convenient and efficient, effectively improves the storage of aluminium oxide
Efficiency is transported, and can effectively avoid injury of the dust raising phenomenon to operating personnel.
Second embodiment
Relative to first embodiment, the aluminium oxide storing and transporting system of the present embodiment be only that the second transfer device difference and
Increase the daily warehouse of third.Therefore, the present embodiment is only to the second transfer device and third service bin of aluminium oxide storing and transporting system
Library is described in detail, and the other parts of aluminium oxide storing and transporting system can be found in the description of first embodiment.
Referring to fig. 2, the aluminium oxide storing and transporting system of the present embodiment includes discharging platform 1, first day described in first embodiment
Use warehouse 2, the first chute 3, bucket elevator 4, belt feeder 6 as the first transfer device.The present embodiment aluminium oxide storing and transporting system is also
Including the daily warehouse 8 of third, feed inlet (being not shown in Fig. 2) is arranged in the upper end in the daily warehouse 8 of third, the daily warehouse 8 of third
Discharge port (being not shown in Fig. 2) is arranged in lower end.The setting of third daily warehouse 8 is located at bucket elevator 4 and belt on the ground
Between machine 6.Second transfer device of the present embodiment then includes third chute 91 and the 4th chute 92.Wherein, third chute 91
One end is connected to the discharge port of the upper end of bucket elevator 4, and the other end of third chute 91 is connected to the charging in the daily warehouse 8 of third
Mouthful.One end of 4th chute 92 is connected to the discharge port in the daily warehouse 8 of third, and the other end of the 4th chute 92 is connected to belt feeder
6。
First can be first delivered in the daily warehouse 8 of third with the partial oxidation aluminium in warehouse 2 and be stored by the present embodiment
Come.It, can be quick by the 4th chute 92 and belt feeder 6 when needing to carry out electrolysis operation using aluminium oxide with warehouse 7 within 1st
Ground from the daily warehouse 8 of third by alumina transferring to second day in warehouse 7, to further increase operating efficiency.
The above is only the preferred embodiment of the present invention, is not intended to limit the invention.It is all in the utility model
Spirit and principle within, any modification, equivalent replacement, improvement and so on should be included in the protection model of the utility model
Within enclosing.
Claims (5)
1. aluminium oxide storing and transporting system, it is characterised in that:
The aluminium oxide storing and transporting system includes discharging platform, first with warehouse, the first powder transfer device, bucket elevator, the second powder
Expect transfer device, belt feeder and uses warehouse on 1st;
The first service bin lab setting is in the discharging platform side, and the level of the feed inlet with warehouse on the firstth is high
Degree is lower than the level height of the discharging platform;One end of the first powder transfer device is arranged in described first day with warehouse
The lower section of discharge port, the other end of the first powder transfer device are connected to the feed inlet of the lower end of the bucket elevator;It is described
One end of second powder transfer device is connected to the discharge port of the upper end of the bucket elevator, the second powder transfer device it is another
One end is connected to the belt feeder;The belt feeder is connected to described second day and uses warehouse.
2. aluminium oxide storing and transporting system according to claim 1, it is characterised in that:
The discharging platform setting is on the ground;
It is arranged in the melt pit of below ground with warehouse, the first powder device and the bucket elevator within described first day, and
And the upper end of the bucket elevator is located at the height and position on ground or more.
3. aluminium oxide storing and transporting system according to claim 1 or 2, it is characterised in that:
The first powder transfer device includes the first chute, and one end of first chute, which is arranged, used warehouse at described first day
Discharge port lower section, the other end of first chute is connected to the feed inlet of the lower end of the bucket elevator.
4. aluminium oxide storing and transporting system according to claim 3, it is characterised in that:
The second powder transfer device includes the second chute, and one end of second chute is connected to the upper end of the bucket elevator
Discharge port, the other end of second chute is connected to the belt feeder.
5. aluminium oxide storing and transporting system according to claim 3, it is characterised in that:
The aluminium oxide storing and transporting system further includes the daily warehouse of third, and the third service bin lab setting is in the bucket elevator and institute
It states between belt feeder;
The second powder transfer device includes third chute and the 4th chute;One end of the third chute is connected to the bucket
The discharge port of the upper end of machine is mentioned, the other end of the third chute is connected to the feeding inlet in the daily warehouse of the third;Described
One end of four chutes is connected to the discharge port in the daily warehouse of the third, and the other end of the 4th chute is connected to the belt
Machine.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920212969.3U CN209668341U (en) | 2019-02-18 | 2019-02-18 | Aluminium oxide storing and transporting system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201920212969.3U CN209668341U (en) | 2019-02-18 | 2019-02-18 | Aluminium oxide storing and transporting system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209668341U true CN209668341U (en) | 2019-11-22 |
Family
ID=68569101
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201920212969.3U Active CN209668341U (en) | 2019-02-18 | 2019-02-18 | Aluminium oxide storing and transporting system |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209668341U (en) |
-
2019
- 2019-02-18 CN CN201920212969.3U patent/CN209668341U/en active Active
Similar Documents
Publication | Publication Date | Title |
---|---|---|
EP1173372A1 (en) | A stockyard for bulk materials | |
CN107098175B (en) | A kind of vertical storehouse formula biomass fuel storage and transportation system | |
CN213864488U (en) | Clean grain business turn over silo system | |
CN210410582U (en) | Automatic stacking and batching system | |
CN110386472B (en) | Environment-friendly storage bin | |
CN211282950U (en) | Blast furnace scrap steel feeding and charging system | |
CN209668341U (en) | Aluminium oxide storing and transporting system | |
CN206724217U (en) | A kind of dustless biomass fuel induction system of vertical storehouse formula | |
CN216335415U (en) | Bulk truck unloading system | |
CN103723528B (en) | Ore stockpile discharge system | |
CN206265907U (en) | A kind of material handling system | |
CN101830355B (en) | Mechanically loading and discharging material holding grating device for use in transportation of bulk material of small specific gravity with railway gondola | |
CN211712125U (en) | Device for transporting materials and automatically discharging materials | |
CN212150883U (en) | Material lifting device for building engineering | |
CN205011270U (en) | Overhead crane with grab warehouse | |
CN209668327U (en) | A kind of building stones warehousing system | |
CN104444457A (en) | Bulk material unloading system | |
CN217458064U (en) | Powdery and granular material collecting, distributing, protecting and supplying system | |
CN110790028A (en) | Device for transporting materials and automatically discharging materials and using method thereof | |
CN215666031U (en) | Discharging and loading system for cooked material warehouse | |
CN217971125U (en) | Titanium slag electric furnace feeding and storing system | |
CN203593581U (en) | Automatic material discharging lifting conveying device for switch cabinet | |
CN210477354U (en) | Automatic vertical batching supplies to store up system | |
CN210097920U (en) | Automatic broken feed system of handling round package | |
CN213264762U (en) | Fixed powder discharge system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |