CN206569626U - A kind of quantitative loading and unloading automatic controls of electrolytic cell - Google Patents
A kind of quantitative loading and unloading automatic controls of electrolytic cell Download PDFInfo
- Publication number
- CN206569626U CN206569626U CN201720253105.7U CN201720253105U CN206569626U CN 206569626 U CN206569626 U CN 206569626U CN 201720253105 U CN201720253105 U CN 201720253105U CN 206569626 U CN206569626 U CN 206569626U
- Authority
- CN
- China
- Prior art keywords
- batcher
- electrolytic cell
- electric expansion
- switch board
- lower clapboard
- 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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- Electrolytic Production Of Non-Metals, Compounds, Apparatuses Therefor (AREA)
- Electrolytic Production Of Metals (AREA)
Abstract
The utility model discloses a kind of quantitative loading and unloading automatic controls of electrolytic cell, including electrolytic cell, supporting table, switch board, electric expansion bar, pneumatic oscillator, feed bin, batcher upper spacer, batcher lower clapboard, batcher, feed cylinder.Wherein switch board connects the input end of motor of two electric expansion bars, upper electric expansion bar afterbody batcher upper spacer, lower electric expansion bar afterbody batcher lower clapboard, feed bin is placed in batcher top, lower clapboard on a pneumatic oscillator, batcher is placed outside batcher and is placed in batcher middle part, feed cylinder is placed in the lower end of batcher, feeding drum outer wall places a pneumatic oscillator, and pneumatic oscillator connects switch board.Switch board timing sends signal control electric expansion bar and then controls lower clapboard on batcher to be moved left and right, and timing carries out automatic loading/unloading, while switch board controls pneumatic oscillator to send vibrations, so that raw material is uniformly fully flowed down.The system architecture is simple, it is possible to reduce the use of labour, can be achieved at regular time and quantity automatically control electrolytic cell loading and unloading, realize energy-saving, steady production.
Description
Technical field
The utility model is related to a kind of quantitative loading and unloading automatic controls, and the quantitative loading and unloading of specially a kind of electrolytic cell are certainly
Dynamic controlling organization.
Background technology
Rare earth as most important non-renewable resources, because its unique electron structure and nuclear structure make it have it is excellent
The characteristic such as chemistry, optics, magnetics, it has also become the indispensable important materials of development of modern industry, be described as " industry dimension life
Element ".Rare earth metal and its alloy material be widely used in metallurgical industry, oil, glass ceramics, chemical industry, laser material, space flight,
The each side such as agricultural, bioengineering, purity requirement more and more higher of the every profession and trade to rare-earth products.
When Rare Earth Electrolysis works, rare earth oxide is constantly consumed, therefore addition that need to be into electrolytic cell at regular time and quantity
Rare earth oxide, but be due to that rare earth electrolysis cell upper space is narrow and small, excessively high etc. reason of rare earth electrolysis cell upper temp, electrolytic cell
Interior feeding is to go charging by manpower, because manpower feeding time and upper doses are not fixed, Rare Earth Electrolysis is caused certain
Influence, and manpower charging wastes human and material resources significantly.As can be seen here, the perfect quantitative loading and unloading controlling organization of a set of maturation,
There is larger benefit to the electrolytic process of electrolytic cell, the electrolytic efficiency of electrolytic cell will can be greatly improved, beneficial to the hair of enterprise
Exhibition.
Utility model content
Technical problem to be solved in the utility model is:There is provided a kind of quantitative loading and unloading robot brain of electrolytic cell
Structure, the problem of with proposing to solve the problems mentioned in the above background technology.
In order to solve the above technical problems, the technical solution of the utility model is:A kind of quantitative loading and unloading of electrolytic cell are controlled automatically
Mechanism processed, including it is electrolytic cell, supporting table, switch board, electric expansion bar, pneumatic oscillator, feed bin, batcher upper spacer, quantitative
Device lower clapboard, batcher, feed cylinder, described switch board connect the input end of motor of upper and lower electric expansion bar, described upper electricity
Dynamic expansion link afterbody connection batcher upper spacer, described lower electric expansion bar afterbody connection batcher lower clapboard, described material
Storehouse is placed in batcher top, places a pneumatic oscillator outside described batcher, described batcher upper spacer, batcher
Lower clapboard is placed in batcher middle part, and described feed cylinder is placed in the lower end of batcher, and described feeding drum outer wall places one
Individual pneumatic oscillator, described pneumatic oscillator connection switch board.Described switch board timing sends signal control electric expansion
Lower clapboard is moved left and right on bar and then control batcher, and timing carries out automatic loading/unloading, is shaken while switch board control is pneumatic
Swing device and send vibrations, so that raw material is uniformly fully flowed down.
The utility model further improves as follows:
Further, quantitatively upper device dividing plate and batcher lower clapboard, described batcher are placed in the middle of described batcher
The distance of upper spacer and batcher lower clapboard determines the size of the capacity of batcher, that is, controls in the amount of loading and unloading, realization
The quantitative control of cutting agency.
Further, described batcher upper spacer is connected with upper electric expansion bar, realizes the left and right of batcher upper spacer
It is mobile.
Further, described batcher lower clapboard is connected with lower electric expansion bar, realizes the left and right of batcher lower clapboard
It is mobile.
Further, described batcher places a pneumatic oscillator with feeding drum outer wall, so that its inside raw material is complete
Portion is uniformly flowed down.
Further, timer is contained in described switch board, timer is to electric expansion bar up and down and pneumatic up and down shakes
Swing device and send signal, realize the timing controlled to charging and discharging mechanism.
Further, described feed cylinder leading portion is made of exotic material.
Further, described supporting table bottom is provided with wheel, can pull out charging and discharging mechanism when not working, prevent
The high temperature of upper part of the electrolytic cell is configured to unnecessary influence and loss to charging & discharging machine.
Further, described feed cylinder is welded together by tendon with supporting table, and support is played to feed cylinder and is made
With.
Brief description of the drawings
Fig. 1 is the utility model structural representation
Fig. 2 is the utility model blanking figure
Fig. 3 is the utility model feeding figure
The supporting table 2 of electrolytic cell 1
3 times electric expansion bars of switch board 4
Electric expansion bar 6 on upper pneumatic oscillator 5
The batcher upper spacer 8 of feed bin 7
The batcher lower clapboard 10 of batcher 9
Pneumatic oscillator 12 under feed cylinder 11
Embodiment
As shown in Figure 1, Figure 2, Figure 3 shows, the quantitative loading and unloading automatic controls of a kind of electrolytic cell, including graphite cuvette 1, supporting table
2nd, switch board 3, upper electric expansion bar 4, upper pneumatic oscillator 5, lower electric expansion bar 6, feed bin 7, batcher upper spacer 8, quantitative
Device 9, batcher lower clapboard 10, feed cylinder 11, under pneumatic oscillator 12.The described upper electric expansion bar 6 of the connection of switch board 3 is with
The input end of motor of electric expansion bar 4, described upper electric expansion bar 6 is connected with upper batcher upper spacer 8, it is described under it is electronic
Expansion link 4 is connected with batcher lower clapboard 10, and described batcher upper spacer 8 and batcher lower clapboard 10 is flat on batcher 9
Feed bin 7 is placed on two position up and down, the described top of batcher 9, and a upper pneumatic oscillator 5 is placed in the described outside of batcher 9,
The described upper pneumatic connection of oscillator 5 switch board 3, a feed cylinder 11, described feed cylinder are placed in the described bottom of batcher 9
11 outer walls place pneumatic oscillator 12 under one, it is described under pneumatic oscillator 12 connection switch board 3, it is described switch board 3, fixed
Measuring device 9 and feed cylinder 11 are placed in supporting table 2.The described timing of switch board 3 sends the upper electric expansion bar 6 of signal control with
Electric expansion bar 4 and then batcher upper spacer 8 and batcher lower clapboard 10 is controlled to be moved left and right, timing is carried out above and below automatically
Material, while the pneumatic work of oscillator 12 with of the upper pneumatic oscillator 5 of the control of switch board 3 sends vibrations, so that raw material is uniformly abundant
Flow down.
The described bottom of supporting table 2 is provided with wheel, can pull out charging and discharging mechanism when not working, prevent on electrolytic cell
The high temperature in portion is configured to unnecessary influence and loss to charging & discharging machine;Described feed cylinder 11 passes through tendon and supporting table 2
Weld together, feed cylinder 11 is played a supporting role;Described batcher 9 is welded together by tendon with supporting table 2,
Play the supporting role to batcher 9.
Operation principle of the present utility model is:Because charging of the cell time length, feeding quantity are slightly few, about one hour left side is spaced
The right side plus a defective material, so need to add enough one day raw materials into feed bin 7, the quantitative loading and unloading automatic controls of rare earth electrolysis cell is initial
State is batcher upper spacer 8 closes, batcher lower clapboard 10 is closed, and a certain amount of raw material is had been filled with batcher, and raw material falls
Lower clapboard actuation time has carried on time, intervals time, pneumatic oscillator duration of oscillation and batcher in electrolytic cell
It is preceding to obtain, and be configured in switch board 3 with timer.Feed time is arrived, and described switch board 3 sends signal, described
The lower action control batcher lower clapboard 10 of electric expansion bar 6 is moved to the left, and raw material falls on feed cylinder 11 times and then is slipped to electrolysis
In groove 1, while the described upper pneumatic oscillator 5 of the control of switch board 3 pneumatic oscillator 12 with is acted, the vibration of pneumatic oscillator
It is delivered on batcher 9 and feed cylinder 11, promotes raw material all uniform whereabouts;Timer time is arrived, and described switch board 3 is sent out
Go out signal, described lower electric expansion bar 4 is acted, control batcher lower clapboard moves right closure, then described switch board 3
Timing is arrived, and described switch board 3 sends signal, and the described action control batcher upper spacer of upper electric expansion bar 6 is to the left
Motion, falls in batcher 9 under raw material in described feed bin 7, and described switch board 3 receives timer signal and electronic stretched to upper
Contracting bar 6 sends signal, and the described action control batcher upper spacer 8 of upper electric expansion bar 6 moves right closure, while described
Switch board 3 sends signal, and pneumatic oscillator is stopped up and down, into next circulation.
The quantitative loading and unloading automatic controls of rare earth electrolysis cell of the present utility model, the mechanism structure is simple, can be flexible
Quantitative automatic loading/unloading is timed to rare earth electrolysis cell freely, it is interference-free under harsh industrial environment, reduce
The use of manpower and materials, has liberated productivity significantly, reduces the labor intensity of operating personnel, it is to avoid the disadvantage of manpower feeding
End, improves the production efficiency of Rare Earth Electrolysis, it is adaptable to the production of Rare Earth Electrolysis.
The utility model is not limited to above-mentioned concrete mode, one of ordinary skill in the art from above-mentioned design,
Without performing creative labour, a variety of conversion made are all fallen within protection domain of the present utility model.
Claims (6)
1. the quantitative loading and unloading automatic controls of a kind of electrolytic cell, it is characterised in that including electrolytic cell, supporting table, switch board, electricity
Dynamic expansion link, pneumatic oscillator, feed bin, batcher upper spacer, batcher lower clapboard, batcher, feed cylinder, described switch board
The input end of motor of upper and lower electric expansion bar is connected, described upper electric expansion bar afterbody connection batcher upper spacer is described
Lower electric expansion bar afterbody connects batcher lower clapboard, and described feed bin is placed in outside batcher top, described batcher and put
Put a pneumatic oscillator, described batcher upper spacer, batcher lower clapboard are placed in batcher middle part, described feeding
Cylinder is placed in the lower end of batcher, and described feeding drum outer wall places a pneumatic oscillator, described pneumatic oscillator connection control
Cabinet processed.
2. the quantitative loading and unloading automatic controls of a kind of electrolytic cell as claimed in claim 1, it is characterised in that described quantifies
The distance of lower clapboard determines the size of the capacity of batcher on two batcher dividing plates of placement, batcher in the middle of device, that is, controls
The amount of feeding, realizes the quantitative control of charging and discharging mechanism.
3. the quantitative loading and unloading automatic controls of a kind of electrolytic cell as claimed in claim 2, it is characterised in that described quantifies
Lower clapboard is connected with electric expansion bar on device, realizes moving left and right for lower clapboard on batcher.
4. the quantitative loading and unloading automatic controls of a kind of electrolytic cell as claimed in claim 3, it is characterised in that described quantifies
Device places a pneumatic oscillator with feeding drum outer wall, is flowed down so that its inside raw material is uniform whole.
5. a kind of quantitative loading and unloading automatic controls of electrolytic cell as claimed in claim 4, it is characterised in that described control
Contain timer in cabinet, realize the timing controlled to charging and discharging mechanism.
6. a kind of quantitative loading and unloading automatic controls of electrolytic cell as claimed in claim 5, it is characterised in that described feeding
Cylinder leading portion is made of exotic material.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720253105.7U CN206569626U (en) | 2017-03-15 | 2017-03-15 | A kind of quantitative loading and unloading automatic controls of electrolytic cell |
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CN201720253105.7U CN206569626U (en) | 2017-03-15 | 2017-03-15 | A kind of quantitative loading and unloading automatic controls of electrolytic cell |
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CN206569626U true CN206569626U (en) | 2017-10-20 |
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CN201720253105.7U Expired - Fee Related CN206569626U (en) | 2017-03-15 | 2017-03-15 | A kind of quantitative loading and unloading automatic controls of electrolytic cell |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106743196A (en) * | 2017-03-15 | 2017-05-31 | 江西理工大学 | A kind of quantitative loading and unloading automatic controls of electrolytic cell |
-
2017
- 2017-03-15 CN CN201720253105.7U patent/CN206569626U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106743196A (en) * | 2017-03-15 | 2017-05-31 | 江西理工大学 | A kind of quantitative loading and unloading automatic controls of electrolytic cell |
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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 |
Granted publication date: 20171020 Termination date: 20180315 |
|
CF01 | Termination of patent right due to non-payment of annual fee |