CN204096654U - Manganese-zinc ferrite material recycle and delivery system - Google Patents
Manganese-zinc ferrite material recycle and delivery system Download PDFInfo
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- CN204096654U CN204096654U CN201420543931.1U CN201420543931U CN204096654U CN 204096654 U CN204096654 U CN 204096654U CN 201420543931 U CN201420543931 U CN 201420543931U CN 204096654 U CN204096654 U CN 204096654U
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- zinc ferrite
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Abstract
The utility model discloses manganese-zinc ferrite material recycle and delivery system, it comprises hopper, feed bin and mist projection granulating tower, hopper installs level sensor, air bubble III is connected bottom hopper, bottom air bubble III, Advance plate is set, air bubble III side is connected with powder carry pipeline one end, air bubble I and air bubble II are installed in elbow on powder carry pipeline, the powder carry pipeline other end separates two-way, one road is connected to feed bin, roof scrubber is installed at feed bin top, and roof scrubber is connected with induced draft fan; Fine powder delivery duct of separately leading up to is connected with mist projection granulating tower bottom.In the setting point of material, air bubble is installed, the material of agglomerate is dispelled; Hopper adds charging bit inductor, and feed blocking rings to certain altitude alarm device, and the material of operating personal dredge blockage immediately, reaches and do not shut down dredging work; Hopper installs butterfly valve additional, by regulating butterfly valve aperture, controls the airshed of pre-burning ball milling material conveying pipe.
Description
Technical field
The utility model relates to a kind of manganese-zinc ferrite material recycle and delivery system.
Background technology
Pre-burning is had, cooling, ball milling in manganese-zinc ferrite preparation process, hybridization is starched, sand milling, the operations such as mist projection granulating, conventional production lines adopts the artificial material input agitator crossed by pre-burning ball milling by chain block or go-cart in a large number to carry out hybridization slurry, causes product labour cost greatly to increase.Specifically there is following problem:
1, the manganese-zinc ferrite material powder footpath after pre-burning ball milling is thin, easy agglomerate, and the material powder after agglomerate is not easily taken away by negative pressure, causes pipe choking, and pipe-dredging difficulty is comparatively large, and impact is produced and run continuously;
2, feed blocking is not easily found, if be not found for a long time, the conveyor screw of negative-pressure pipeline leading portion can caused because of putty overload fault, cause device damage;
3, in time on-the-spot material is reclaimed in time, the fine powder that mist projection granulating Vibration Screen is selected, also be carried by this negative-pressure pipeline, if powder flow is less after pre-burning ball milling, due to the reason of chimneying shunting, major part suction is dividedly flowed into pre-burning ball milling material conveying pipe, causes the too small blocking of mist projection granulating vibrating grizzly thin powder recovery pipeline suction, and impact is produced and run continuously.
And the mode of production that a kind of mass transport of automation and dependence material gravity feed intake, greatly can improve manganese-zinc ferrite production efficiency, reduce productive costs simultaneously.Therefore, need to provide a kind of new technical scheme to solve the problems referred to above.
Utility model content
For solving the problem, the utility model provides a kind of manganese-zinc ferrite material recycle and delivery system.Pipeline does not block, and realizes producing running continuously, effectively reduces productive costs.
The technical solution adopted in the utility model is:
Manganese-zinc ferrite material recycle and delivery system, it comprises hopper, feed bin and mist projection granulating tower, described hopper installs level sensor, air bubble III is connected bottom described hopper, bottom described air bubble III, Advance plate is set, described air bubble III side is connected with powder carry pipeline one end, air bubble I and air bubble II are installed in elbow on described powder carry pipeline, the described powder carry pipeline other end separates two-way, one road is connected to feed bin, roof scrubber is installed at described feed bin top, and described roof scrubber is connected with induced draft fan; Fine powder delivery duct of separately leading up to is connected with mist projection granulating tower bottom.
Described mist projection granulating tower bottom adopts conveyor screw from fine powder delivery duct end feed material, installs vibrating grizzly under described conveyor screw.
Described hopper installs Hand-operated butterfly valve.
The beneficial effects of the utility model: install air bubble in the setting point of material, dispelled by the material of agglomerate, solve pipe choking problem; Hopper adds charging bit inductor, and feed blocking rings to certain altitude alarm device, and the material of operating personal dredge blockage immediately, reaches and do not shut down dredging work; Hopper installs butterfly valve additional, by regulating butterfly valve aperture, controls the airshed of pre-burning ball milling material conveying pipe.
Accompanying drawing explanation
Fig. 1 is the utility model manganese-zinc ferrite material recycle and delivery system schematic diagram.
Wherein: 1, level sensor, 2, Hand-operated butterfly valve, 3, vacuum table, 4, air bubble I, 5, air bubble II, 6, material powder delivery duct, 7, air bubble III, 8, Advance plate, 9, roof scrubber, 10, induced draft fan, 11, feed bin, 12, mist projection granulating tower, 13, vibrating grizzly, 14, conveyor screw, 15, fine powder delivery duct, 16, conveyor screw, 17, hopper.
Detailed description of the invention
In order to deepen understanding of the present utility model, below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, and this embodiment, only for explaining the utility model, does not form the restriction to protection domain of the present utility model.
As shown in Figure 1, manganese-zinc ferrite material recycle of the present utility model and delivery system, it comprises hopper 17, feed bin 11 and mist projection granulating tower 12, hopper 17 is installed level sensor 1 and Hand-operated butterfly valve 2, air bubble III 7 is connected bottom hopper 17, Advance plate 8 is set bottom air bubble III 7, air bubble III 7 side is connected with powder carry pipeline 6 one end, air bubble I 4 and air bubble II 5 are installed in elbow on powder carry pipeline 6, powder carry pipeline 6 other end separates two-way, one road is connected to feed bin 11, roof scrubber 9 is installed at feed bin 11 top, roof scrubber 9 is connected with induced draft fan 10, fine powder delivery duct 15 of separately leading up to is connected with bottom mist projection granulating tower 12.
Adopt conveyor screw 14 from fine powder delivery duct 15 end feed material bottom mist projection granulating tower 12, conveyor screw installs vibrating grizzly 13 14 times.Conveyor screw rating horsepower 2.2KW, vibrating grizzly 13 has two layers of mesh, above coarse net 50 order, below fine-structure mesh 160 order.
Powder carry pipeline 6 is installed vacuum table 3, range 0-10KPA, material powder delivery duct 6 caliber 300mm, fine powder delivery duct 15 caliber 100mm, roof scrubber 9, the induced draft fan 10 rating horsepower 22KW that it uses, feed bin volume 7000L.
The utility model installs level sensor 1 on hopper, when pipe choking material powder encounters level sensor, annunciator rings, and operative employee enters scene immediately and dredges, the design of Advance plate 8, material powder dredging efficiency can be improved, only Advance plate 8 need be released, material powder drops in the packaging bag of putting well in advance, completes dredging work, substantially increase dredging efficiency, ensure the continuous operation of producing.
Because material powder is meticulous, easy agglomerate is head it off, and install air bubble III 7 at conveyor screw 16 blanking point, air bubble III 7 has Pulse Width Control, stops 10 seconds, and work 2 seconds, air bubble 7 sprays a large amount of pressurized airs instantaneously, is dispelled by agglomerate material powder, avoids blocking.
Because material powder is meticulous, material powder, particularly channel bend place that material powder delivery duct 6 uses meeting adhesion very thick for a long time, because resistance is large, easier adhesion material powder, install air bubble I 4 and air bubble II 5 in elbow, air bubble I 4 and air bubble II 5 have Pulse Width Control, stop 10 seconds, work 2 seconds, air bubble I 4 and air bubble II 5 spray a large amount of pressurized airs instantaneously, are dispelled by agglomerate material powder, avoid elbow to block.
Finally immediately reclaim for reaching black spray fine powder, reduce the labour intensity of on-the-spot employee, black spray fine powder is connected with material powder delivery duct 6 by fine powder delivery duct 15, utilize induced draft fan 10, produce air-flow and realize instant recovery, due to airflow diversion reason, when conveyor screw 16 discharge quantity is lower than 16KG/MIN, fine powder delivery duct 15 suction is very little, therefore butterfly valve 2 is installed, by the aperture of regulating butterfly valve 2, control the air-flow of material powder delivery duct 6, concrete regulative mode is conveyor screw 16 discharge quantity 16KG/MIN above Hand-operated butterfly valve 2 standard-sized sheet, lower than 16KG/MIN, reduce Hand-operated butterfly valve 2 aperture.
Claims (3)
1. manganese-zinc ferrite material recycle and delivery system, it is characterized in that: it comprises hopper, feed bin and mist projection granulating tower, described hopper installs level sensor, air bubble III is connected bottom described hopper, bottom described air bubble III, Advance plate is set, described air bubble III side is connected with powder carry pipeline one end, air bubble I and air bubble II are installed in elbow on described powder carry pipeline, the described powder carry pipeline other end separates two-way, one road is connected to feed bin, roof scrubber is installed at described feed bin top, described roof scrubber is connected with induced draft fan, fine powder delivery duct of separately leading up to is connected with mist projection granulating tower bottom.
2. manganese-zinc ferrite material recycle according to claim 1 and delivery system, is characterized in that: described mist projection granulating tower bottom adopts conveyor screw from fine powder delivery duct end feed material, installs vibrating grizzly under described conveyor screw.
3. manganese-zinc ferrite material recycle according to claim 2 and delivery system, is characterized in that: described hopper installs Hand-operated butterfly valve.
Priority Applications (1)
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CN201420543931.1U CN204096654U (en) | 2014-09-22 | 2014-09-22 | Manganese-zinc ferrite material recycle and delivery system |
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CN201420543931.1U CN204096654U (en) | 2014-09-22 | 2014-09-22 | Manganese-zinc ferrite material recycle and delivery system |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109225063A (en) * | 2018-10-22 | 2019-01-18 | 安徽科达洁能股份有限公司 | A kind of flyash wet granulation device and its prilling process |
CN115072384A (en) * | 2022-07-06 | 2022-09-20 | 台州闪能科技有限公司 | Sticky material powder conveying equipment |
-
2014
- 2014-09-22 CN CN201420543931.1U patent/CN204096654U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109225063A (en) * | 2018-10-22 | 2019-01-18 | 安徽科达洁能股份有限公司 | A kind of flyash wet granulation device and its prilling process |
CN115072384A (en) * | 2022-07-06 | 2022-09-20 | 台州闪能科技有限公司 | Sticky material powder conveying equipment |
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