A kind of stable type rare earth ore Multi-stage crushing plant
Technical field
It the utility model is related to a kind of breaker, more particularly to a kind of stable type rare earth ore Multi-stage crushing plant.
Background technology
Rare earth has the laudatory title of " industrial vitamin ";Nowadays extremely important strategic resource is become.Rare earth element aoxidizes
Thing refer to period of element atom ordinal number be 57 to 71 15 kinds of lanthanide oxides, and with lanthanide series chemical property
The oxide of similar scandium and yttrium totally 17 kinds of elements.
At present, in order to preferably transport and using rare earth ore, it is necessary to carry out break process to it, currently on the market broken
Broken machine structure is more complicated, and in use, reducing mechanism is relatively simple, is all to ore using a kind of crushing mechanism
Crushed, but so breaker is ineffective, and also efficiency is lower, wastes the time of user significantly, drop
Low performance.
Existing rare earth ore breaker there are crushing effect it is poor and inefficient the shortcomings that, therefore there is an urgent need for research and development are a kind of
The high stable type rare earth ore Multi-stage crushing plant of crushing efficiency.
Utility model content
(1)Technical problems to be solved
The utility model in order to overcome existing rare earth ore breaker there are crushing effect it is poor and inefficient lack
Point, the technical problem to be solved by the present invention is to provide a kind of high stable type rare earth ore multiple stage crushing dress of crushing efficiency
Put.
(2)Technical solution
In order to solve the above-mentioned technical problem, the utility model provides such a stable type rare earth ore multiple stage crushing dress
Put, include pillar, level-one crushes case, feed hopper, the first valve, level-one crushing mechanism, inclined plate, conveying bucket, the first crushing shell,
Linkage mechanism, two-stage crushing mechanism, two-stage crushing case, discharge nozzle and the second valve;Two pillars are fixed in level-one and crush bottom portion,
Feed hopper is fixed in level-one and crushes box top, and the first valve is installed on feed hopper, and level-one crushing mechanism is fixed in level-one and crushes
Case, two inclined plates are fixed in level-one and crush bottom in case, and conveying bucket is fixed in level-one and crushes bottom portion, and two-stage crushing case is fixed in defeated
Feed hopper bottom, the first crushing shell are fixed in two-stage crushing box wall, and discharge nozzle is fixed in two-stage crushing bottom portion, the second valve
On discharge nozzle, linkage mechanism is fixed in level-one and crushes bottom portion, and two-stage crushing mechanism is fixed in two-stage crushing case sidepiece,
Level-one crushing mechanism is sequentially connected by linkage mechanism and two-stage crushing mechanism.
Preferably, level-one crushing mechanism includes first rotating shaft, first bearing seat, fixed plate, second bearing seat, the first skin
Belt wheel, the first flat belt, motor and broken cylinder;Fixed plate is fixed in level-one and crushes case sidepiece, and motor is fixed in fixed plate bottom;
First bearing seat crushes one sidepiece of case embedded in level-one, and second bearing seat crushes case the other side embedded in level-one;First rotating shaft one end
Portion is pivotally connected with first bearing seat, and the other end is pivotally connected with second bearing seat and runs through second bearing seat to be connected with motor output end transmission
Connect;Broken cylinder is fixed in first rotating shaft, and the first belt pulley is fixed in first rotating shaft, and between second bearing seat and motor;
First belt pulley is sequentially connected by the first flat belt and linkage mechanism.
Preferably, linkage mechanism include the second belt pulley, the second shaft, 3rd bearing seat, first bevel gear, the 3rd turn
Axis, second bevel gear, the 3rd belt pulley, the second flat belt, fourth bearing seat and fixed link;3rd bearing seat is fixed in level-one and breaks
Broken bottom portion;Second shaft one end is pivotally connected with 3rd bearing seat and to run through 3rd bearing seat affixed with first bevel gear, another
End and the second belt pulley are affixed;Second belt pulley is connected by the first flat belt with the first pulley drive, fourth bearing seat
It is fixed in level-one and crushes bottom portion;3rd shaft one end is pivotally connected with fourth bearing seat, and second bevel gear is fixed in the 3rd shaft
The other end;Second bevel gear is engaged with first bevel gear;3rd belt pulley is fixed in the 3rd shaft, and the 3rd belt pulley passes through
Two flat belts are sequentially connected with two-stage crushing mechanism.
Preferably, two-stage crushing mechanism include slide, sliding block, rack, the 4th belt pulley, 5th bearing seat, the 4th turn
Axis, Knucle-gear, connecting rod and the second crushing shell;5th bearing seat is fixed in two-stage crushing case sidepiece;4th shaft one end with
5th bearing seat is pivotally connected, and the other end and the 4th belt pulley are affixed;4th belt pulley passes through the second flat belt and the 3rd belt pulley
It is sequentially connected;Knucle-gear is fixed in the 4th shaft, and between 5th bearing seat and the 4th belt pulley;Slide is fixed in two level
Broken case sidepiece;Rack is slidably connected by sliding block and slide, and rack is engaged with Knucle-gear;Two-stage crushing case sidepiece is provided with logical
Hole;Connecting rod one end and rack are affixed, and the other end is through through hole and affixed with the second crushing shell.
Operation principle:When rare earth ore needs broken, worker opens the first valve, and rare earth ore is fallen by feed hopper
Enter level-one and crush case, start level-one crushing mechanism, rare earth ore is tentatively crushed, level-one crushing mechanism driving linkage mechanism
Operating, linkage mechanism drive two-stage crushing mechanism to rotate, it is preliminary it is broken after rare earth ore drop in two-stage crushing case, to its into
Row second-time breakage, can be effectively performed the break process of rare earth ore, after crushing, open the second valve, pass through discharging
Pipe is taken out by broken rare earth ore.
Because level-one crushing mechanism includes first rotating shaft, first bearing seat, fixed plate, second bearing seat, the first belt
Wheel, the first flat belt, motor and broken cylinder;Fixed plate is fixed in level-one and crushes case sidepiece, and motor is fixed in fixed plate bottom;The
One bearing block crushes one sidepiece of case embedded in level-one, and second bearing seat crushes case the other side embedded in level-one;First rotating shaft one end
It is pivotally connected with first bearing seat, the other end is pivotally connected with second bearing seat and runs through second bearing seat to be connected with motor output end transmission
Connect;Broken cylinder is fixed in first rotating shaft, and the first belt pulley is fixed in first rotating shaft, and between second bearing seat and motor;
First belt pulley is sequentially connected by the first flat belt and linkage mechanism;When needing broken to rare earth ore progress level-one, work
People controls motor running, drives first rotating shaft to rotate, so as to drive broken cylinder to rotate, and then carries out level-one to rare earth ore and breaks
It is broken, while the first pulley rotation is driven, the first belt pulley drives linkage mechanism to operate by the first flat belt, so reaches
Save the effect of the energy.
Because linkage mechanism include the second belt pulley, the second shaft, 3rd bearing seat, first bevel gear, the 3rd shaft,
Second bevel gear, the 3rd belt pulley, the second flat belt, fourth bearing seat and fixed link;3rd bearing seat is fixed in level-one and crushes
Bottom portion;Second shaft one end is pivotally connected with 3rd bearing seat and, the other end affixed with first bevel gear that run through 3rd bearing seat
Portion and the second belt pulley are affixed;Second belt pulley is connected by the first flat belt with the first pulley drive, and fourth bearing seat is consolidated
It is connected to level-one and crushes bottom portion;3rd shaft one end is pivotally connected with fourth bearing seat, and it is another that second bevel gear is fixed in the 3rd shaft
One end;Second bevel gear is engaged with first bevel gear;3rd belt pulley is fixed in the 3rd shaft, and the 3rd belt pulley passes through second
Flat belt is sequentially connected with two-stage crushing mechanism;When needing to drive the running of two-stage crushing mechanism, the first belt pulley passes through first
Flat belt drives the second pulley rotation, so as to drive the second shaft to rotate, the second shaft drives first bevel gear to rotate, due to
First bevel gear is engaged with second bevel gear, and then drives second bevel gear to rotate, and second bevel gear drives the 3rd shaft and the
The 3rd pulley rotation in three shafts, and then the 3rd belt pulley drives two-stage crushing mechanism to operate by the second flat belt.
Because two-stage crushing mechanism include slide, sliding block, rack, the 4th belt pulley, 5th bearing seat, the 4th shaft,
Knucle-gear, connecting rod and the second crushing shell;5th bearing seat is fixed in two-stage crushing case sidepiece;4th shaft one end and the 5th
Bearing block is pivotally connected, and the other end and the 4th belt pulley are affixed;4th belt pulley passes through the second flat belt and the 3rd pulley drive
Connection;Knucle-gear is fixed in the 4th shaft, and between 5th bearing seat and the 4th belt pulley;Slide is fixed in two-stage crushing
Case sidepiece;Rack is slidably connected by sliding block and slide, and rack is engaged with Knucle-gear;Two-stage crushing case sidepiece is provided with through hole;
Connecting rod one end and rack are affixed, and the other end is through through hole and affixed with the second crushing shell;When need to rare earth ore carry out two
When level is broken, the 3rd belt pulley drives the 4th pulley rotation by the second flat belt, so as to drive the 4th shaft and the 4th turn
Knucle-gear on axis rotates, the engagement of knuckle-tooth wheel and rack, and then is moved left and right with carry-over bar, with this rack drives connecting rod or so
It is mobile, and then the second crushing shell is driven to rare earth ore two-stage crushing so that it is broken more abundant, improve work efficiency.
The control mode of the utility model is controlled by manually starting and turning off the switch, the wiring diagram of dynamical element with
The offer of power supply belongs to the common knowledge of this area, and the utility model is mainly used to protect mechanical device, so this practicality
It is new not to be explained control mode and wiring arrangement.
(3)Beneficial effect
The utility model carries out level-one break process by level-one crushing mechanism to rare earth ore, and can also pass through linkage
Mechanism drives the running of two-stage crushing mechanism, and two-stage crushing mechanism carries out two-stage crushing processing to rare earth ore, and the utility model reaches
Arrive and saved the energy and the high effect of crushing efficiency.
Brief description of the drawings
Fig. 1 is the main structure diagram of the utility model.
Fig. 2 is the main structure diagram of the utility model level-one crushing mechanism.
Fig. 3 is the main structure diagram of the utility model linkage mechanism.
Fig. 4 is the main structure diagram of the utility model two-stage crushing mechanism.
Mark in attached drawing for:1- pillars, 2- level-ones crush case, 3- feed hoppers, the first valves of 4-, 5- level-one crushers
Structure, 51- first rotating shafts, 52- first bearing seats, 53- fixed plates, 54- second bearing seats, the first belt pulleys of 55-, 56- first are flat
Belt, 57- motors, 58- crush cylinder, 6- inclined plates, 7- conveying buckets, the first crushing shells of 8-, 9- linkage mechanisms, the second belt pulleys of 91-,
The second shafts of 92-, 93- 3rd bearing seats, 94- first bevel gears, the 3rd shafts of 95-, 96- second bevel gears, the 3rd belts of 97-
Wheel, the second flat belts of 98-, 99- fourth bearing seats, 910- fixed links, 10- two-stage crushings mechanism, 101- slides, 102- sliding blocks,
103- racks, the 4th belt pulleys of 104-, 105- 5th bearing seats, the 4th shafts of 106-, 107- Knucle-gears, 108- connecting rods,
109- through holes, the second crushing shells of 110-, 11- two-stage crushing casees, 12- discharge nozzles, the second valves of 13-.
Embodiment
The utility model is further described with reference to the accompanying drawings and examples.
Embodiment 1
A kind of stable type rare earth ore Multi-stage crushing plant, as shown in Figs 1-4, include pillar 1, level-one crushes case 2, into
Hopper 3, the first valve 4, level-one crushing mechanism 5, inclined plate 6, conveying bucket 7, the first crushing shell 8, linkage mechanism 9, secondary breaker
Structure 10, two-stage crushing case 11,12 and second valve 13 of discharge nozzle;Two pillars 1 are fixed in level-one and crush 2 bottom of case, and feed hopper 3 is solid
It is connected to level-one and crushes the top of case 2, the first valve 4 is installed on feed hopper 3, and level-one crushing mechanism 5 is fixed in level-one and crushes case 2,
Two inclined plates 6 are fixed in level-one and crush bottom in case 2, and conveying bucket 7 is fixed in level-one and crushes 2 bottom of case, and two-stage crushing case 11 is affixed
In 7 bottom of conveying bucket, the first crushing shell 8 is fixed in 11 madial wall of two-stage crushing case, and discharge nozzle 12 is fixed in two-stage crushing case 11
Bottom, the second valve 13 are installed on discharge nozzle 12, and linkage mechanism 9 is fixed in level-one and crushes 2 bottom of case, two-stage crushing mechanism 10
11 sidepiece of two-stage crushing case is fixed in, level-one crushing mechanism 5 is sequentially connected by linkage mechanism 9 and two-stage crushing mechanism 10.
Level-one crushing mechanism 5 includes first rotating shaft 51, first bearing seat 52, fixed plate 53, second bearing seat 54, first
Belt pulley 55, the first flat belt 56, motor 57 and broken cylinder 58;Fixed plate 53 is fixed in level-one and crushes 2 sidepiece of case, and motor 57 is solid
It is connected to 53 bottom of fixed plate;First bearing seat 52 crushes 2 one sidepiece of case embedded in level-one, and second bearing seat 54 crushes case embedded in level-one
2 the other sides;51 one end of first rotating shaft is pivotally connected with first bearing seat 52, and the other end is pivotally connected and runs through with second bearing seat 54
Second bearing seat 54 is sequentially connected with 57 output terminal of motor;Broken cylinder 58 is fixed in first rotating shaft 51, and the first belt pulley 55 is affixed
In first rotating shaft 51, and between second bearing seat 54 and motor 57;First belt pulley 55 passes through the first flat belt 56 and connection
Motivation structure 9 is sequentially connected.
Linkage mechanism 9 includes the second belt pulley 91, the second shaft 92,3rd bearing seat 93, first bevel gear the 94, the 3rd
Shaft 95, second bevel gear 96, the 3rd belt pulley 97, the second flat belt 98, fourth bearing seat 99 and fixed link 910;3rd axis
Bearing 93 is fixed in level-one and crushes 2 bottom of case;Second shaft, 92 one end is pivotally connected with 3rd bearing seat 93 and runs through 3rd bearing
Seat 93 is affixed with first bevel gear 94, and the other end and the second belt pulley 91 are affixed;Second belt pulley 91 passes through the first flat belt
56 are sequentially connected with the first belt pulley 55, and fourth bearing seat 99 is fixed in level-one and crushes 2 bottom of case;3rd shaft, 95 one end with
Fourth bearing seat 99 is pivotally connected, and second bevel gear 96 is fixed in 95 the other end of the 3rd shaft;Second bevel gear 96 and first bores tooth
The engagement of wheel 94;3rd belt pulley 97 is fixed in the 3rd shaft 95, and the 3rd belt pulley 97 passes through the second flat belt 98 and two-stage crushing
Mechanism 10 is sequentially connected.
Two-stage crushing mechanism 10 includes slide 101, sliding block 102, rack 103, the 4th belt pulley 104,5th bearing seat
105th, the 4th shaft 106, Knucle-gear 107,108 and second crushing shell 110 of connecting rod;5th bearing seat 105 is fixed in two level and breaks
Broken 11 sidepiece of case;4th shaft, 106 one end is pivotally connected with 5th bearing seat 105, and the other end and the 4th belt pulley 104 are affixed;
4th belt pulley 104 is sequentially connected by the second flat belt 98 with the 3rd belt pulley 97;Knucle-gear 107 is fixed in the 4th shaft
106, and between 105 and the 4th belt pulley 104 of 5th bearing seat;Slide 101 is fixed in 11 sidepiece of two-stage crushing case;Rack
103 are slidably connected by sliding block 102 and slide 101, and rack 103 is engaged with Knucle-gear 107;11 sidepiece of two-stage crushing case is provided with
Through hole 109;108 one end of connecting rod and rack 103 are affixed, and the other end is through through hole 109 and affixed with the second crushing shell 110.
Operation principle:When rare earth ore needs broken, worker opens the first valve 4, and rare earth ore is passed through feed hopper 3
Pour into level-one and crush case 2, start level-one crushing mechanism 5, rare earth ore is tentatively crushed, the driving connection of level-one crushing mechanism 5
Motivation structure 9 operates, and linkage mechanism 9 drives two-stage crushing mechanism 10 to rotate, and the rare earth ore after tentatively crushing drops to be broken in two level
Broken case 11, carries out second-time breakage to it, the break process of rare earth ore can be effectively performed, and after crushing, opens second
Valve 13, is taken out by broken rare earth ore by discharge nozzle 12.
Because level-one crushing mechanism 5 include first rotating shaft 51, first bearing seat 52, fixed plate 53, second bearing seat 54,
First belt pulley 55, the first flat belt 56, motor 57 and broken cylinder 58;Fixed plate 53 is fixed in level-one and crushes 2 sidepiece of case, motor
57 are fixed in 53 bottom of fixed plate;First bearing seat 52 crushes 2 one sidepiece of case embedded in level-one, and second bearing seat 54 is broken embedded in level-one
Broken 2 the other side of case;51 one end of first rotating shaft is pivotally connected with first bearing seat 52, and the other end is pivotally connected simultaneously with second bearing seat 54
It is sequentially connected through second bearing seat 54 and 57 output terminal of motor;Broken cylinder 58 is fixed in first rotating shaft 51, the first belt pulley 55
First rotating shaft 51 is fixed in, and between second bearing seat 54 and motor 57;First belt pulley 55 passes through the first flat belt 56
It is sequentially connected with linkage mechanism 9;When need to carry out rare earth ore level-one it is broken when, worker controls motor 57 to operate, and drives the
One shaft 51 rotates, so as to drive broken cylinder 58 to rotate, and then carries out level-one to rare earth ore and crushes, while drives the first belt
Wheel 55 rotates, and the first belt pulley 55 drives linkage mechanism 9 to operate by the first flat belt 56, has so reached the effect for saving the energy
Fruit.
Because linkage mechanism 9 include the second belt pulley 91, the second shaft 92,3rd bearing seat 93, first bevel gear 94,
3rd shaft 95, second bevel gear 96, the 3rd belt pulley 97, the second flat belt 98, fourth bearing seat 99 and fixed link 910;The
Three bearing blocks 93 are fixed in level-one and crush 2 bottom of case;Second shaft, 92 one end is pivotally connected with 3rd bearing seat 93 and through the 3
Bearing block 93 and first bevel gear 94 are affixed, and the other end and the second belt pulley 91 are affixed;Second belt pulley 91 is flat by first
Belt 56 is sequentially connected with the first belt pulley 55, and fourth bearing seat 99 is fixed in level-one and crushes 2 bottom of case;3rd shaft, 95 one end
Portion is pivotally connected with fourth bearing seat 99, and second bevel gear 96 is fixed in 95 the other end of the 3rd shaft;Second bevel gear 96 and first
Bevel gear 94 engages;3rd belt pulley 97 is fixed in the 3rd shaft 95, and the 3rd belt pulley 97 passes through the second flat belt 98 and two level
Crushing mechanism 10 is sequentially connected;When needing to drive two-stage crushing mechanism 10 to operate, the first belt pulley 55 passes through the first flat belt
56 the second belt pulleys 91 of drive rotate, so as to drive the second shaft 92 to rotate, the second shaft 92 drives first bevel gear 94 to rotate,
Since first bevel gear 94 is engaged with second bevel gear 96, and then second bevel gear 96 is driven to rotate, second bevel gear 96 drives
The 3rd belt pulley 97 in 3rd shaft 95 and the 3rd shaft 95 rotates, and then the 3rd belt pulley 97 passes through 98 band of the second flat belt
Dynamic two-stage crushing mechanism 10 operates.
Because two-stage crushing mechanism 10 includes slide 101, sliding block 102, rack 103, the 4th belt pulley 104, the 5th axis
Bearing 105, the 4th shaft 106, Knucle-gear 107,108 and second crushing shell 110 of connecting rod;5th bearing seat 105 is fixed in two
Broken 11 sidepiece of case of level;4th shaft, 106 one end is pivotally connected with 5th bearing seat 105, and the other end is solid with the 4th belt pulley 104
Connect;4th belt pulley 104 is sequentially connected by the second flat belt 98 with the 3rd belt pulley 97;Knucle-gear 107 is fixed in the 4th turn
Axis 106, and between 105 and the 4th belt pulley 104 of 5th bearing seat;Slide 101 is fixed in 11 sidepiece of two-stage crushing case;Tooth
Bar 103 is slidably connected by sliding block 102 and slide 101, and rack 103 is engaged with Knucle-gear 107;11 sidepiece of two-stage crushing case is opened
There is through hole 109;108 one end of connecting rod and rack 103 are affixed, and the other end is through through hole 109 and affixed with the second crushing shell 110;
When needing to carry out two-stage crushing to rare earth ore, the 3rd belt pulley 97 drives the 4th belt pulley 104 by the second flat belt 98
Rotate, so as to drive the Knucle-gear 107 in the 4th shaft 106 and the 4th shaft 106 to rotate, Knucle-gear 107 is nibbled with rack 103
Close, and then moved left and right with carry-over bar 103, drive connecting rod 108 to move left and right with this rack 103, and then drive second to crush
Plate 110 is to rare earth ore two-stage crushing so that and it is broken more abundant, improve work efficiency.
The control mode of the utility model is controlled by manually starting and turning off the switch, the wiring diagram of dynamical element with
The offer of power supply belongs to the common knowledge of this area, and the utility model is mainly used to protect mechanical device, so this practicality
It is new not to be explained control mode and wiring arrangement.
Embodiment described above only expresses the preferred embodiment of the utility model, its description is more specific and detailed,
But it should not be interpreted as limiting the scope of the present invention.It should be pointed out that for the common of this area
For technical staff, without departing from the inventive concept of the premise, some deformations can also be made, improves and substitutes, these are all
Belong to the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.