Electrolytic manganese cake processing automatic feeding
Technical field
The utility model relates to a kind of device for transporting objects, particularly a kind of electrolytic manganese cake processing automatic feeding.
Background technology
Electrolytic manganese obtains manganese salt with manganese ore through Ore Leaching, then the elemental metals sending electrolytic tank electrolysis to separate out, outward appearance chalybeate, and in irregular sheet, matter is hard and crisp, one side light, and another side is coarse, for silvery white is to brown, is silver gray after being processed as powder; Oxidizable in atmosphere, dissolve and displace hydrogen when meeting diluted acid, when a little more than room temperature, decomposable asymmetric choice net water and releasing hydrogen gas.
Manganese and manganese alloy are one of indispensable important source material such as steel and iron industry, aluminum alloy industry, magnetic material industry, chemical frbre industry.
Manganese is indispensable additive in metallurgy industry, electrolytic manganese is the primary raw material producing mangano-manganic oxide after being processed into powdery, electronics industry widely used magnetic material original paper mangano-manganic oxide is produced, and electronics industry, metallurgical industry and aerospace industry all need electrolytic manganese metal.Along with the development of science and technology and improving constantly of the level of the productive forces; electrolytic manganese metal, due to its high purity, low impurity feature, now successfully applies to the every field such as smelting iron and steel, nonferrous metallurgy, Eltec, chemical frbre industry, environmental protection, food hygiene, electric welding rod industry, space industry widely.
In steel smelting procedure, electrolytic manganese powder needs and uses in the powder such as silicon mixing input molten steel, however due to liquid steel temperature high, easily make powder volatilize, therefore greatly have impact on effective utilization of the material such as electrolytic manganese, silicon, reduce the quality of production of iron and steel.
At present, people need to use forming mould that the powder such as electrolytic manganese, silicon is made electrolytic manganese cake usually, but in feeding process, often need four workmans, wherein powder is filled in the forming hole of forming mould with hand by two workmans, and then powder is squeezed into electrolytic manganese cake by forming mould, and material is released and collected in material box by another two workmans, this mode waste of manpower, cost is higher, and workman is absolutely unsafe with hand feeding on forming mould, easily accidents caused.
Utility model content
The utility model is intended to provide a kind of electrolytic manganese cake processing automatic feeding, to save manpower, improves safety.
Patent formula: the electrolytic manganese cake processing automatic feeding in this programme, comprise the base plate be fixed on forming mould, also comprise the engine installation set gradually, the magazine sliding on base plate driven by the push rod of engine installation, be fixed on being positioned at the guide rail of magazine both sides and being positioned at the slide sieve of guide rail end on base plate, magazine is cuboid framework and is opening above, below, and slide sieve is downward-sloping.
The utility model has the advantage of: during work, the push rod of engine installation promotes magazine by feedstock transportation in forming mould, then a bit of distance of the reciprocal rollback of magazine, ensure to fill up raw material in forming mould, then forming mould extruding raw material becomes electrolytic manganese cake, now magazine is under engine installation drives, electrolytic manganese cake and part material are pushed on slide sieve, electrolytic manganese cake is then separated with raw material by slide sieve, electrolytic manganese cake enters in Material collecting box for harvesting, raw material then enters in collection box to reclaim and uses, without the need to manual operation in whole process, workman is without the need to contact moudling mould, processing can be completed, greatly save manpower, improve safety.
Further, two sides that magazine is relative with guide rail are provided with guide finger, and guide rail is provided with the chute slided for guide finger, facilitates magazine along slide.
Further, also comprise the cylinder support be fixed on base plate, the push rod of engine installation is fixed on magazine through cylinder support, play the guiding role to push rod, ensures that push rod pushes magazine along assigned direction.
Further, guide rail is provided with successively three photosensors, one of them photosensor is positioned at magazine reference position, another two photosensors are positioned at forming mould place and spaced apart, by the connection of photosensor and PLC, following operation can be realized: raw material enters magazine → push rod pusher box to molding concave die → by being positioned at the photosensor at forming mould place, ensure magazine molding concave die reciprocate ensure raw material be full of die → magazine and return → the shaping oil cylinder of electrolytic manganese cake presses down → pressurize → shaping oil cylinder of material cake returns → manganese cake is ejected → push oil cylinder pusher box limit by ejection cylinder to be shifted manganese cake onto slide sieve → manganese cake and be separated with powder → manganese cake is to Material collecting box for harvesting.
Accompanying drawing explanation
Fig. 1 is the schematic diagram of the utility model embodiment;
Fig. 2 is the schematic diagram of the utility model embodiment.
Detailed description of the invention
Below by detailed description of the invention, the utility model is described in further detail:
Reference numeral in Figure of description comprises: oil cylinder 1, base plate 2, cylinder support 3, magazine 4, guide rail 5, slide sieve 6, first photosensor 7, second photosensor 8, the 3rd photosensor 9.
Embodiment is substantially as shown in Figure 1 and Figure 2: electrolytic manganese cake processing automatic feeding, comprise the base plate 2 be fixed on forming mould, also comprise the oil cylinder 1 set gradually, the magazine 4 sliding on base plate 2 driven by the push rod of oil cylinder 1, fix the guide rail 5 being positioned at magazine 4 both sides on a base plate 2 and be positioned at the slide sieve 6 of guide rail 5 end, magazine 4 is cuboid framework and is opening above, below, and slide sieve 6 is downward-sloping.
The utility model has the advantage of: during work, the push rod of oil cylinder 1 promotes magazine 4 by feedstock transportation in forming mould, then the magazine 4 back and forth a bit of distance of rollback, ensure to fill up raw material in forming mould, then forming mould extruding raw material becomes electrolytic manganese cake, now magazine 4 is under oil cylinder 1 drives, electrolytic manganese cake and part material are pushed on slide sieve, electrolytic manganese cake is then separated with raw material by slide sieve, electrolytic manganese cake enters in Material collecting box for harvesting, raw material then enters in collection box to reclaim and uses, without the need to manual operation in whole process, workman is without the need to contact moudling mould, processing can be completed, greatly save manpower, improve safety.
Two sides that magazine 4 is relative with guide rail are provided with guide finger, and guide rail is provided with the chute slided for guide finger, facilitates magazine along slide.
Also comprise fixing cylinder support 3 on a base plate 2, the push rod of oil cylinder 1 is fixed on magazine through cylinder support 3, play the guiding role to push rod, ensures that push rod pushes magazine along assigned direction.
Guide rail is provided with and is provided with the first photosensor 7 successively, second photosensor 8 and the 3rd photosensor 9, wherein first photosensor 7 is positioned at magazine reference position, second photosensor 8 and the 3rd photosensor 9 are positioned at forming mould place and spaced apart, by the connection of photosensor and PLC, following operation can be realized: raw material enters magazine → push rod pusher box to molding concave die → by being positioned at the photosensor at forming mould place, ensure magazine molding concave die reciprocate ensure raw material be full of die → magazine and return → the shaping oil cylinder of electrolytic manganese cake presses down → pressurize → shaping oil cylinder of material cake returns → manganese cake is ejected → push oil cylinder pusher box limit by ejection cylinder to be shifted manganese cake onto slide sieve → manganese cake and be separated with powder → manganese cake is to Material collecting box for harvesting.
Above-described is only embodiment of the present utility model, and in scheme, the general knowledge such as known concrete structure and characteristic does not do too much description at this.Should be understood that; for a person skilled in the art, under the prerequisite not departing from the utility model structure, some distortion and improvement can also be made; these also should be considered as protection domain of the present utility model, and these all can not affect effect and the practical applicability of the utility model enforcement.The protection domain that this application claims should be as the criterion with the content of its claim, and the detailed description of the invention in specification sheets etc. record the content that may be used for explaining claim.