A kind of activated carbon raw material pulverizer
Technical field
The utility model is related to agricultural machinery technological field, specially a kind of activated carbon raw material pulverizer.
Background technology
With the development in epoch, being widely used for activated carbon has higher to activated carbon raw material pulverizing processing machinery
It is required that, the mechanical general utility functions of existing activated carbon raw material pulverizing processing are single, can only process a certain raw material, and to the profit of raw material
It is low with rate, in addition, existing pulverizing processing machinery also has the shortcomings of noise is big, dust is more, it is unfavorable for production and processing and workman
Healthy, and dangerous higher, the inconvenient operation during use.
Utility model content
The purpose of this utility model is to provide a kind of activated carbon raw material pulverizer, to solve to propose in above-mentioned background technology
Feedstuff the problem of crush.
To achieve the above object, the utility model provides a kind of following activated carbon raw material pulverizer of technical scheme, including cuts
Cut cylinder, feed hopper, the first motor, blade sleeve, blade, crush box, the second motor, the 3rd motor, kibble mill tube, connecting rod,
Gross porosity sieve, movable folder, cylinder of carefully milling, pore sieve and discharging opening, the cutting cylinder top left side are provided with feed hopper, and cut
Cut a upper end and the first motor is installed, the blade sleeve surface is provided with blade, and blade sleeve passes through rotating shaft and the first electricity
Machine is connected, and the crush box top left hand, which is provided with the right side of the second motor, and crush box top, is provided with the 3rd motor, described thick
Cylinder of milling is located inside crush box, and left side is kibbled mill tube and is connected by chain with the second motor, and right side kibbles mill tube and passes through chain
Article it is connected with the 3rd motor, the connecting rod upper end is connected with the 3rd motor, the gross porosity sieve, which is located at, kibbles mill tube and thin stone roller
In space between mill tube, the activity folder is arranged in connecting rod, and the pore sieve is milled between cylinder and discharging opening carefully
Space in.
It is preferred that, there are a diameter and the isometric circular groove of cutting cylinder diameter at the top of the crush box.
It is preferred that, the axis of the discharging opening passes through the midpoint for kibbling distance between mill tube.
It is preferred that, second motor and the 3rd motor, kibble it is symmetrically placed between thin cylinder of milling between mill tube.
It is preferred that, the distances of the activity folder both sides from top to spring at be gradually reduced, and its ultimate range and the 3rd
The shaft diameter of motor is equal.
Compared with prior art, the beneficial effects of the utility model are:The raw material chopper, can be by one provided with cutting cylinder
A little larger raw materials of build need the raw material cut to cut into fritter, in order to milling for crush box, expand raw material
Scope, effectively increase the efficiency that case of milling is milled, provided with kibble mill tube and it is thin mill that cylinder is dual to mill, by raw material powder layer by layer
The size of our needs is broken to, while provided with sieve, by underproof raw materials recovery, improving the utilization rate of raw material.
Brief description of the drawings
Fig. 1 is the utility model structural representation;
Fig. 2 is the utility model structure front view.
In figure:1st, cylinder is cut, 2, feed hopper, the 3, first motor, 4, blade sleeve, 5, blade, 6, crush box, the 7, second electricity
Machine, the 8, the 3rd motor, 9, kibble mill tube, 10, connecting rod, 11, gross porosity sieve, 12, activity folder, 13, cylinder of carefully milling, 14, pore
Sieve, 15, discharging opening.
Embodiment
Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out
Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made
The every other embodiment obtained, belongs to the scope of the utility model protection.
Fig. 1-2 is referred to, the utility model provides a kind of technical scheme:A kind of activated carbon raw material pulverizer, including cutting
Cylinder 1, feed hopper 2, the first motor 3, blade sleeve 4, blade 5, crush box 6, the second motor 7, the 3rd motor 8, kibble mill tube 9,
Connecting rod 10, gross porosity sieve 11, activity folder 12, thin mill cylinder 13, pore sieve 14 and discharging opening 15, cut the top left side of cylinder 1
Feed hopper 2 is provided with, and cutting cylinder 1 upper end is provided with the first motor 3, the surface of blade sleeve 4 is provided with blade 5, and blade sleeve
Cylinder 4 is connected by rotating shaft with the first motor 3, and the top left hand of crush box 6, which is provided with the right side of the second motor 7, and the top of crush box 6, pacifies
Equipped with the 3rd motor 8, a diameter and the isometric circular groove of the cutting diameter of cylinder 1 are arranged at the top of crush box 6, when in use will cutting
Cylinder is stuck in circular groove, convenient and swift, kibbles mill tube 9 inside the crush box 6, and left side kibble mill tube 9 by chain with
Second motor 7 is connected, and right side is kibbled mill tube 9 and is connected by chain with the 3rd motor 8, the upper end of connecting rod 10 and the phase of the 3rd motor 8
Even, gross porosity sieve 11 is located in the space kibbled between mill tube 9 and thin cylinder 13 of milling, and the second motor 7 and the 3rd motor 8, kibbles
Symmetrically placed between thin cylinder 13 of milling between mill tube 9, the length of unified chain reduces the difficulty for changing chain, activity folder 12
In connecting rod 10, the distances of 12 both sides of activity folder from top to spring at be gradually reduced, and its ultimate range and the 3rd
The shaft diameter of motor 8 is equal, it is ensured that two kinds of sieves are stuck in activity folder 12, and can be moved with connecting rod 10, fine ga(u)ge screen
Son 14 is carefully being milled in the space between cylinder 13 and discharging opening 15, and the axis of discharging opening 15, which is passed through, kibbles distance between mill tube 9
Midpoint, makes raw material freely fall into outlet, it is to avoid increase conveyer belt, cost-effective.
Operation principle:When using the raw material chopper, start the first motor 3, the second motor 7 and the 3rd motor 8, will raise
Material raw material is poured into feed hopper 2, and the first motor 3 drives blade sleeve 4 to rotate, and is made the quickly motion of blade 5, is cut raw material, cutting
Raw material afterwards leaves cutting cylinder 1 and entered in crush box 6, is driven by the second motor 7 and the 3rd motor 8 and kibbles mill tube 9 and thin
Cylinder 13 of milling is rotated, for the raw material that grinds fodder, gross porosity sieve 11 and pore sieve 14 by activity folder 12 and connecting rod 10 with
3rd motor 8 is moved back and forth together, for screening the raw material not crushed, and is re-poured into feed hopper 2, is crushed
Good raw material leaves crush box by discharging opening 15.
Although the utility model is described in detail with reference to the foregoing embodiments, come for those skilled in the art
Say, it can still be modified to the technical scheme described in foregoing embodiments, or which part technical characteristic is entered
Row equivalent substitution, all within spirit of the present utility model and principle, any modification, equivalent substitution and improvements made etc. all should
Within protection domain of the present utility model.