A kind of nano aluminium oxide production reducing mechanism
Technical field
The utility model is related to nano aluminium oxide production technical fields, are specially a kind of nano aluminium oxide production crushing dress
It puts.
Background technology
Nano aluminium oxide is White crystal powder, and different preparation method and technology conditions can obtain the nanometer of different structure
Aluminium oxide, the application of nano aluminium oxide is very extensive, is related to crystalline ceramics, cosmetics filler, encapsulating material, precise polished material
The fields such as material, glassware, metal product, semi-conducting material, catalyst.
Production nano aluminium oxide needs to crush in bulk crystals aluminium oxide, due to higher, the common crushing of aluminium oxide hardness
Device broken process is simple, is often present with block aluminium oxide and is embedded in the space of powdered alumina accumulation, makes block oxidation
Aluminium can not be crushed fully, affect being processed further for nano aluminium oxide.
Utility model content
In view of the deficiencies of the prior art, the utility model provides a kind of nano aluminium oxide production reducing mechanism, solves
Common reducing mechanism broken process is simple, the problem of block aluminium oxide can not fully not crushed often occurs.
In order to achieve the above object, the utility model is achieved by the following technical programs:A kind of nano aluminium oxide production
With reducing mechanism, including babinet, the top of the babinet, which is run through, loading hopper, and is fixedly connected at the top of cabinet wall
Crushing shell is fixedly connected with the first motor at the top of the cabinet wall, and the output shaft of the first motor is fixedly connected
There is rotating bar, one end of the rotating bar is rotatably connected to oscillating rod by movable part, and one end of oscillating rod is slidably connected
There is slide, the inner wall of the babinet is fixedly connected with slide, and one end of the oscillating rod is rotatably connected to particle by movable part
Pendulum, the top of the cabinet wall are fixedly connected with fixed case by fixed frame, and the one side of fixed case is through there is flexible company
Bar, the bottom of the particle pendulum are rotatablely connected by movable part and shrinking connecting-rod, and the one side of the cabinet wall is fixedly connected with
Distribution box, and the one side of distribution box is fixedly connected by the second motor with babinet, and the output shaft of second motor is consolidated
Surely it is connected with material distributing rod, and one end of material distributing rod is rotatablely connected with distribution box, the bottom of the distribution box is fixedly connected with the
One sieve, and the bottom of distribution box is fixedly connected with funnel, and the bottom of the funnel is communicated with solenoid valve, and the bottom of funnel
Portion is communicated with crush box, and the both sides of the crush box are fixedly connected with babinet, the both sides of the distribution box bottom with crushing
Material blanking tube is communicated between case, the both sides of the babinet have been fixedly connected with hydraulic stem, and one end of the hydraulic stem is through crushing
Case and the inside for extending to crush box, one end that the hydraulic stem is located inside crush box is fixedly connected with tooth plate, and crushes
The internal slide of case is connected with baffle, and the bottom of the cabinet wall is fixedly connected with three-motor, and three-motor
Output shaft be fixedly connected with screw axis, the top and bottom of the screw axis are fixedly connected by supporting rack with babinet, silk
The thread surface of bar axis is connected with movable block, and the top of movable block is fixedly connected with baffle, and the inside of the crush box is set
Reducing mechanism is equipped with, and the bottom of crush box is fixedly connected with the second sieve.
Preferably, the reducing mechanism includes sliding rail, and the both sides for crushing chamber interior wall are fixed with sliding rail
Connection, and the surface of sliding rail is fixedly connected with fixed frame by sliding block, and the one side of the fixed frame inner wall is fixedly connected
There is the 4th motor, and the output shaft of the 4th motor is fixedly connected with first gear, the surface engagement of the first gear
There is second gear, and be rotatablely connected at the axle center of second gear by shaft and fixed frame, the inner wall of the fixed frame is fixed
The grooved rail being adapted with shaft is connected with, the surface of the second gear is engaged with crawler belt, and the surface of crawler belt is fixedly connected
There is pulverized zone.
Preferably, the basal sliding of the cabinet wall is connected with picking-up container, and the outer wall of picking-up container is fixedly connected with
Pull handle.
Preferably, the output shaft of second motor through distribution box and extends to the inside of distribution box.
Preferably, the bottom of the baffle through crush box and extends to the bottom of crush box.
Preferably, the outer wall of the babinet is hinged with chamber door by hinge, and the both sides of the bottom of box are fixedly connected with
There is support leg.
Advantageous effect
The utility model provides a kind of nano aluminium oxide production reducing mechanism.Possesses following advantageous effect:
(1), the nano aluminium oxide production reducing mechanism, is slided by the both sides for crushing chamber interior wall by sliding rail
Fixed frame is connected with, the one side of fixed frame inner wall is fixedly connected with the 4th motor, and the output shaft of the 4th motor is fixed
First gear is connected with, the surface of first gear is engaged with second gear, and by shaft at the axle center of second gear and admittedly
Determine frame rotation connection, the inner wall of fixed frame is fixedly connected with the grooved rail being adapted with shaft, and the surface of second gear is engaged with shoe
Band, and the surface of crawler belt is fixedly connected with pulverized zone, and the bottom of crush box is fixedly connected with the second sieve, has device
The block alumina sieve not crushed can be selected progress after first break and crushed for the second time by standby multiple broken function,
Thorough crushing and processing are carried out again, make the aluminium oxide not crushed without being stealthy, the good crushing effect reached.
(2), the nano aluminium oxide production reducing mechanism, picking-up container is connected with by the basal sliding of cabinet wall, and
And the outer wall of picking-up container is fixedly connected with pull handle, the outer wall of babinet is hinged with chamber door by hinge, makes equipment more convenient
Feeding is convenient for the processing of the next step.
Description of the drawings
Fig. 1 is the utility model structure diagram;
Fig. 2 is the schematic diagram of the utility model babinet external structure;
Fig. 3 is the schematic diagram of the utility model reducing mechanism structure;
Fig. 4 is the front view of the utility model reducing mechanism structure.
In figure:1 babinet, 2 loading hoppers, 3 crushing shells, 4 first motor, 5 rotating bars, 6 oscillating rods, 7 slides, 8 crush
Pendulum, 9 fixed frames, 10 fixed cases, 11 shrinking connecting-rods, 12 distribution boxes, 13 second motor, 14 material distributing rods, 15 first sieves, 16
Funnel, 17 solenoid valves, 18 crush boxes, 19 material blanking tubes, 20 hydraulic stems, 21 tooth plates, 22 baffles, 23 three-motors, 24 screws
Axis, 25 supporting racks, 26 movable blocks, 27 reducing mechanisms, 271 sliding rails, 272 sliding blocks, 273 fixed frames, 274 the 4th motor,
275 first gears, 276 second gears, 277 grooved rails, 278 shafts, 279 crawler belts, 2710 pulverized zone, 28 second sieves, 29 splicings
Case, 30 pull handles, 31 hinges, 32 chamber doors, 33 support legs.
Specific embodiment
The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out
It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole
Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are without making creative work
All other embodiments obtained shall fall within the protection scope of the present invention.
- 4 are please referred to Fig.1, the utility model provides a kind of technical solution:A kind of nano aluminium oxide production reducing mechanism,
Including babinet 1, the top of babinet 1, which is run through, loading hopper 2, and is fixedly connected with crushing shell 3, case at the top of 1 inner wall of babinet
The first motor 4 is fixedly connected at the top of 1 inner wall of body, and the output shaft of the first motor 4 is fixedly connected with rotating bar 5,
One end of rotating bar 5 is rotatably connected to oscillating rod 6 by movable part, and one end of oscillating rod 6 slidably connects slide 7, case
The inner wall of body 1 is fixedly connected with slide 7, and one end of oscillating rod 6 is rotatably connected to particle pendulum 8,1 inner wall of babinet by movable part
Top fixed case 10 is fixedly connected with by fixed frame 9, and the one side of fixed case 10 is through having shrinking connecting-rod 11, particle pendulum
8 bottom is rotatablely connected by movable part and shrinking connecting-rod 11, and the one side of 1 inner wall of babinet is fixedly connected with distribution box 12, sub-material
The top of case 12 and offer opening positioned at the bottom of crushing shell 3, and the one side of distribution box 12 by the second motor 13 and
Babinet 1 is fixedly connected, and the output shaft of the second motor 13 through distribution box 12 and extends to the inside of distribution box 12, the second electricity
The output shaft of motivation 13 is fixedly connected with material distributing rod 14, and the surface of material distributing rod 14 is fixedly connected with helical-blade, and helical-blade from point
The position that material bar 14 is located at the bottom of opening is starting point, and to the both ends spiral of material distributing rod 14, and one end of material distributing rod 14 is with dividing
Hopper 12 is rotatablely connected, and the bottom of distribution box 12 is fixedly connected with the first sieve 15, and the bottom of distribution box 12 is fixedly connected
There is funnel 16, the bottom of funnel 16 is communicated with solenoid valve 17, and the bottom of funnel 16 is communicated with crush box 18, crush box 18
Both sides are fixedly connected with babinet 1, and the both sides of 12 bottom of distribution box are communicated with material blanking tube 19, babinet 1 between crush box 18
Both sides be fixedly connected with hydraulic stem 20, one end of hydraulic stem 20 through crush box 18 and extends to the inside of crush box 18,
One end that hydraulic stem 20 is located inside crush box 18 is fixedly connected with tooth plate 21, and the internal slide of crush box 18 is connected with
Baffle 22, the bottom of baffle 22 through crush box 18 and extend to the bottom of crush box 18, and the bottom of 1 inner wall of babinet is fixedly connected
There is three-motor 23, and the output shaft of three-motor 23 is fixedly connected with screw axis 24, the top and bottom of screw axis 24
End is fixedly connected by supporting rack 25 with babinet 1, and the thread surface of screw axis 24 is connected with movable block 26, and movable block 26
Top be fixedly connected with baffle 22, crush box 18 is internally provided with reducing mechanism 27, and reducing mechanism 27 includes sliding rail
271, the both sides of 18 inner wall of crush box are fixedly connected with sliding rail 271, and the surface of sliding rail 271 passes through sliding block
272 are fixedly connected with fixed frame 273, and the one side of 273 inner wall of fixed frame is fixedly connected with the 4th motor 274, and the 4th electricity
The output shaft of motivation 274 is fixedly connected with first gear 275, and the surface of first gear 275 is engaged with second gear 276, and second
The quantity of gear 276 is four, and is rotatablely connected at the axle center of second gear 276 by shaft 278 and fixed frame 273, Gu
The inner wall for determining frame 273 is fixedly connected with the grooved rail 277 being adapted with shaft 278, and the surface of second gear 276 is engaged with crawler belt
279, and the surface of crawler belt 279 is fixedly connected with pulverized zone 2710, and the bottom of crush box 18 is fixedly connected with the second sieve
Net 28, the basal sliding of 1 inner wall of babinet is connected with picking-up container 29, and the outer wall of picking-up container 29 is fixedly connected with pull handle
30, the outer wall of babinet 1 is hinged with chamber door 32 by hinge 31, and the both sides of 1 bottom of babinet have been fixedly connected with support leg
33。
During work, block aluminium oxide is poured into from loading hopper 2 in babinet, starts the first motor 4 and drives 5 turns of rotating bar
Dynamic, rotating bar 5 drives oscillating rod 6 to move back and forth in slide 7, and oscillating rod 6 drives broken pendulum 8 to swing back and forth, and makes alumina block
Crushing is squeezed in the bottom of crushing shell 3 to fall into distribution box 12, the second motor 13 drives material distributing rod 14 to rotate, and makes oxidation
Aluminium uniformly scatters with material distributing rod 14 from distribution box 12, opens solenoid valve 17, and the aluminium oxide after crushing declines from the first sieve 15
Under, it is fallen into from funnel 16 in crush box 18, the aluminium oxide not crushed falls into baffle from the material blanking tube 19 of 12 both sides of distribution box
22 both sides, it is broken that startup hydraulic stem 20 promotes tooth plate 21 to squeeze alumina block, restarts three-motor 23 and drives screw axis 24
It rotating, screw axis 24 drive baffle 22 to move down by movable block 26, and aluminium oxide is pushed into the opposite side of baffle 22 by tooth plate 21,
Again by 22 liters times original positions of baffle, start the 4th motor 274 and first gear 275 is driven to rotate, first gear 275 passes through the second tooth
276 drive crawler belt 279 of wheel rotates, and crawler belt 279 drives pulverized zone 2710 to grind pot oxidation aluminium surface, aluminium oxide is made thoroughly to crush, powder
Aluminium oxide after broken is fallen into from the second sieve 28 in picking-up container 29, finally, is pulled out picking-up container 29 and is poured out powdered alumina.
It should be noted that herein, relational terms such as first and second and the like are used merely to a reality
Body or operation are distinguished with another entity or operation, are deposited without necessarily requiring or implying between these entities or operation
In any this actual relation or order.Moreover, term " comprising ", "comprising" or its any other variant are intended to
Non-exclusive inclusion, so that process, method, article or equipment including a series of elements not only will including those
Element, but also including other elements that are not explicitly listed or further include as this process, method, article or equipment
Intrinsic element.In the absence of more restrictions.By sentence " element limited including one ..., it is not excluded that
Also there are other identical elements in the process, method, article or apparatus that includes the element ".
While there has been shown and described that the embodiment of the utility model, for the ordinary skill in the art,
It is appreciated that in the case where not departing from the principle of the utility model and spirit can these embodiments be carried out with a variety of variations, repaiied
Change, replace and modification, the scope of the utility model are defined by the appended claims and the equivalents thereof.