A kind of three-dimensional extruding crushed aggregates device
Technical field
The present invention relates to a kind of mining crushed aggregates devices, and crushed aggregates device is squeezed more particularly to a kind of three-dimensional.
Background technology
Crushing plant is mechanical in indispensable mine in mine operation, in Ministry of Industry such as metallurgy, mine, chemical industry, cement
Door, has a large amount of raw material and the waste material of recycling to be required for being processed with crusher every year.In the mistake of ore extraction
Cheng Zhong often will produce larger ore, and this kind of ore is not easy directly to utilize, and need to carry out break process, the prior art is broken
Broken equipment is mostly the hammer crushing mechanism of single direction, and crushing effect is poor, and ore grain size is excessive after being crushed, and crushing effect is poor.
Invention content
The object of the present invention is to provide a kind of three-dimensionals to squeeze crushed aggregates device, can effectively solve in the prior art be crushed and set
Standby existing crushing effect is poor, is crushed rear the problems such as ore grain size is excessive, crushing effect is poor;A kind of three-dimensional of the present invention squeezes broken
Expect device, is internally provided with left flakeboard component, right flakeboard component and upper flakeboard component, it can be from the left side of ore, right side
Three-dimensional break process is carried out to ore with upside, and left flakeboard component, right flakeboard component and upper flakeboard component are using same
One particle drive component carries out drive control, while energy-saving so that left flakeboard component, right flakeboard component and upper broken
Flitch component coordinates more closely, can effectively improve the crushing effect and crushing efficiency of ore.
The purpose of the present invention is achieved through the following technical solutions:
A kind of three-dimensional extruding crushed aggregates device, including particle box assembly, particle drive component, left flakeboard component, right particle board group
Part, upper flakeboard component, driving front component, upper transmission component and bracket assembly, support frame as described above component include upper frame plate, erect
Support plate and base board;The both sides of the bottom end of the upper frame plate respectively connect one piece of perpendicular support plate, and the bottom end of two pieces of perpendicular support plates passes through respectively
Screw is connected to the both ends of the rear side on base board top;The particle box assembly is fixedly connected on the front end of frame plate;It is described broken
Material drive component is fixedly connected on frame plate;The left end of the particle drive component connects left flakeboard component, left flakeboard
The left end in the inside of particle box assembly is arranged in the right end of component;The left end connection driving front component of the left flakeboard component
Left end, the middle-end of driving front component are connected to the front end of particle box assembly;The right end of the driving front component connects right flakeboard
The right end of component;The right end in the inside of particle box assembly is arranged in the left end of the right flakeboard component;The particle driving group
The upper transmission component of part connection, the upper upper flakeboard component of transmission component connection;The upper flakeboard component is connected to particle box assembly
Top surface on, the centre inside particle box assembly is arranged in the lower end of upper flakeboard component, and upper flakeboard component setting is left broken
Between flitch component and right flakeboard component, left flakeboard component and right flakeboard component are oppositely arranged on inside particle box assembly
Both ends.
The particle box assembly includes particle case ontology, runner frame, rectangle sliding slot, flute profile slideway, the discharge of top surface hollow out
Door and fastening plates;The left end of the particle case ontology is fixedly connected with runner frame;The upper end of the left side of the particle case ontology and
The upper end of right side is respectively provided with a rectangle sliding slot and a flute profile slideway, and flute profile slideway is connected to rectangle sliding slot, flute profile slideway
It is arranged in the centre of rectangle sliding slot;The centre of the bottom surface of the particle case ontology is equipped with rectangle discharge port;The discharge door gap
Mating connection is fixedly connected with fastening plates on the inside of rectangle discharge port, the bottom surface of discharge door, and the both ends of fastening plates pass through respectively
Screw is connected to the both ends of particle case ontology bottom surface.
The particle drive component includes servo motor, driving disc, eccentric shaft, kinematic link, catenating slider, T shapes cunning
Rail, postive stop baffle, linkage transverse slat and push-and-pull transverse slat;Driving disc is fixedly connected on the output shaft of the servo motor, driving turns
The eccentric position of the left side of disk is fixedly connected with eccentric shaft;One end of the eccentric shaft turns mating connection kinematic link, transmission
The other end of connecting rod is rotatably assorted by short axle is connected to the right end of catenating slider;It is slided equipped with T shapes the lower end of the catenating slider
Slot, catenating slider are slidably connected by T shape sliding slots on T shape sliding rails, and the front end of T shape sliding rails is fitted in particle case ontology
On trailing flank, the lower end of T shape sliding rails is connected by screw on upper frame plate, and the rear end of T shape sliding rails is fixedly connected with postive stop baffle;Institute
The left end for stating catenating slider is fixedly connected with the right end of linkage transverse slat, and the left end for the transverse slat that links is rotatably assorted by short axle connects push-and-pull
Transverse slat;The servo motor is connected to by motor cabinet on upper frame plate;The front end of the push-and-pull transverse slat connects left flakeboard component;
The driving disc uploads dynamic component by being driven band connection.
The left flakeboard component includes cylinder slide bar, left riser, tranverse connecting plate, left flute profile push-and-pull block and left rectangle particle pressure
Plate;The cylinder sliding bar is connected in the sliding slot of runner frame;The bottom end of the cylinder slide bar, which is rotatably assorted, to be connected to
Push and pull the front end of transverse slat;The top of the cylinder slide bar is fixedly connected with left riser;The right end of the left riser is fixedly connected with two
The right end of tranverse connecting plate, two tranverse connecting plates is connected by screw on left flute profile push-and-pull block;The left flute profile push-and-pull block gap cooperation
It is connected in the flute profile slideway of particle case ontology left side, two tranverse connecting plate sliding connections are in particle case ontology left side
In rectangle sliding slot;The right end of the left flute profile push-and-pull block is fixedly connected with left rectangle particle pressing plate;The left rectangle particle pressing plate
Leading flank, trailing flank and bottom surface are bonded with leading flank, trailing flank and the bottom surface of particle case body interior respectively.
The driving front component includes left connecting rod, left rack-plate, right connecting rod, right rack-plate, rotation gear and gear shaft;Institute
The rear end for stating left connecting rod is fixedly connected on left riser, and the front end of left connecting rod is fixedly connected with the left end of left rack-plate, left rack-plate
Bottom surface be equipped with rack tooth, the lower end of left rack-plate passes through the upper end of rack tooth engagement connection rotation gear;The rotary teeth
The lower end engagement of wheel connects the rack tooth on right rack plate top surface;The right end of the right rack-plate is fixedly connected with right connecting rod;It is described
The rear end of right connecting rod is fixedly connected with right flakeboard component;The rotation gear is fixedly connected on gear shaft;The gear shaft
Rear end is connected to by the bearing block with bearing on the leading flank of particle case ontology.
The right flakeboard component includes right riser, right transverse slat, right flute profile push-and-pull block and right rectangle particle pressing plate;The right side
The front end of riser is fixedly connected with the rear end of right connecting rod;The upper end of the right riser is fixedly connected with right transverse slat, and the left end of right transverse slat is solid
Surely right flute profile push-and-pull block is connected, the left end of right flute profile push-and-pull block is fixedly connected with right rectangle particle pressing plate;The right flute profile pushes and pulls block
Clearance fit is connected in the flute profile slideway of particle case ontology right side, and right transverse slat sliding connection is on the right side of particle case ontology
In the rectangle sliding slot in face;Leading flank, trailing flank and the bottom surface of the right rectangle particle pressing plate respectively with particle case body interior
Leading flank, trailing flank and bottom surface fitting.
The upper flakeboard component include lifting compression bar, lifting yoke plate, spring lever, compressed spring, limited block, transverse frame plate and
Upper particle pressing plate;On transverse frame plate, the both ends of transverse frame plate are fixed by screw respectively to be connected for the lifting compression bar sliding connection
It is connected on the front-end and back-end of the top surface of particle case ontology;The upper transmission component of upper end connection of the right side of the lifting compression bar;Institute
The lower end for stating lifting compression bar is fixedly connected with lifting yoke plate, and the front-end and back-end for lifting yoke plate are respectively slidably connected a spring
The lower end of bar, two spring levers is threadedly attached in respectively on particle pressing plate;The top of the spring lever is connected by screw thread
Connect limited block;Compressed spring is cased on the spring lever, compressed spring setting is between lifting yoke plate and upper particle pressing plate.
The upper transmission component includes transmission wheel disc, shaft, wheel shaft frame plate, articulated linkage and universal driving shaft;The driving wheel
Disk is fixedly connected on shaft;The shaft is connected to by the bearing block with bearing on wheel shaft frame plate;The wheel shaft frame plate
Lower end be fixedly connected on transverse frame plate;One end of the articulated linkage is rotatably assorted by articulated shaft is connected to transmission wheel disc
The eccentric position of right side;The articulated linkage other end, which is rotatably assorted, to be connected on universal driving shaft;The left end of the universal driving shaft is solid
Surely it is connected to the upper end of the right side of lifting compression bar;The transmission wheel disc is by being driven band connection driving disc.
The upper particle pressing plate is arranged between left rectangle particle pressing plate and right rectangle particle pressing plate.
The left rectangle particle pressing plate is identical with the structure of right rectangle particle pressing plate, and left rectangle particle pressing plate and right rectangle are broken
Material pressing plate is all made of high manganese wear-resistant steel plate.
Beneficial effects of the present invention:A kind of three-dimensional of the present invention squeezes crushed aggregates device, can effectively solve in the prior art
Crushing plant existing for crushing effect it is poor, it is broken after the problems such as ore grain size is excessive, crushing effect is poor;One kind three of the present invention
To crushed aggregates device is squeezed, it is internally provided with left flakeboard component, right flakeboard component and upper flakeboard component, it can be from a left side for ore
Side, right side and upside carry out three-dimensional break process, and left flakeboard component, right flakeboard component and upper flakeboard component to ore
Drive control is carried out using same particle drive component, while energy-saving so that left flakeboard component, right flakeboard component
More closely with the cooperation of upper flakeboard component, the crushing effect and crushing efficiency of ore be can effectively improve.
Description of the drawings
Fig. 1 is the overall structure diagram one of the present invention;
Fig. 2 is the overall structure diagram two of the present invention;
Fig. 3 is the overall structure diagram three of the present invention;
Fig. 4 is the structural schematic diagram one of the particle box assembly inside the present invention;
Fig. 5 is the structural schematic diagram two of the particle box assembly inside the present invention;
Fig. 6 is the structural schematic diagram one of the particle drive component inside the present invention;
Fig. 7 is the structural schematic diagram two of the particle drive component inside the present invention;
Fig. 8 is the structural schematic diagram of the left flakeboard component inside the present invention;
Fig. 9 is the structural schematic diagram of the right flakeboard component inside the present invention;
Figure 10 is the structural schematic diagram of the upper flakeboard component inside the present invention;
Figure 11 is the structural schematic diagram of the driving front component inside the present invention;
Figure 12 is the structural schematic diagram of the upper transmission component inside the present invention;
Figure 13 is the structural schematic diagram of the bracket assembly inside the present invention.
In figure:Particle box assembly 1;Particle case ontology 1-1;Runner frame 1-2;Rectangle sliding slot 1-3;Flute profile slideway 1-4;Discharge
Door 1-5;Fastening plates 1-6;Particle drive component 2;Servo motor 2-1;Driving disc 2-2;Eccentric shaft 2-3;Kinematic link 2-4;
Catenating slider 2-5;T shape sliding rails 2-6;Postive stop baffle 2-7;Link transverse slat 2-8;Push and pull transverse slat 2-9;Left flakeboard component 3;Cylinder
Slide bar 3-1;Left riser 3-2;Tranverse connecting plate 3-3;Left flute profile push-and-pull block 3-4;Left rectangle particle pressing plate 3-5;Right flakeboard component 4;
Right riser 4-1;Right transverse slat 4-2;Right flute profile push-and-pull block 4-3;Right rectangle particle pressing plate 4-4;Upper flakeboard component 5;Lift compression bar
5-1;Lift yoke plate 5-2;Spring lever 5-3;Compressed spring 5-4;Limited block 5-5;Transverse frame plate 5-6;Upper particle pressing plate 5-7;Forward pass
Dynamic component 6;Left connecting rod 6-1;Left rack-plate 6-2;Right connecting rod 6-3;Right rack-plate 6-4;Rotate gear 6-5;Gear shaft 6-6;On
Transmission component 7;It is driven wheel disc 7-1;Shaft 7-2;Wheel shaft frame plate 7-3;Articulated linkage 7-4;Universal driving shaft 7-5;Bracket assembly 8;
Upper frame plate 8-1;Perpendicular support plate 8-2;Base board 8-3.
Specific implementation mode
Invention is further described in detail by 1-13 below in conjunction with the accompanying drawings.
Specific implementation mode one:
As shown in figures 1-13, a kind of three-dimensional squeezes crushed aggregates device, including particle box assembly 1, particle drive component 2, left flakeboard
Component 3, right flakeboard component 4, upper flakeboard component 5, driving front component 6, upper transmission component 7 and bracket assembly 8, the branch
Support component 8 includes upper frame plate 8-1, perpendicular support plate 8-2 and base board 8-3;The respectively connection one of the both sides of the bottom end of the upper frame plate 8-1
The bottom end that block erects support plate 8-2, two pieces of perpendicular support plate 8-2 is connected by screw respectively at the both ends of the rear side on the tops base board 8-3;Institute
State the front end that particle box assembly 1 is fixedly connected on frame plate 8-1;The particle drive component 2 is fixedly connected on frame plate 8-1
On;The left end of the particle drive component 2 connects left flakeboard component 3, and the right end of left flakeboard component 3 is arranged in particle case group
The left end of the inside of part 1;The left end of the left end connection driving front component 6 of the left flakeboard component 3, in driving front component 6
End is connected to the front end of particle box assembly 1;The right end of the driving front component 6 connects the right end of right flakeboard component 4;The right side
The right end in the inside of particle box assembly 1 is arranged in the left end of flakeboard component 4;The upper transmission group of the connection of particle drive component 2
Part 7, upper transmission component 7 connect upper flakeboard component 5;The upper flakeboard component 5 is connected on the top surface of particle box assembly 1,
The centre inside particle box assembly 1 is arranged in the lower end of upper flakeboard component 5, and upper flakeboard component 5 is arranged in left particle board group
Between part 3 and right flakeboard component 4, left flakeboard component 3 and right flakeboard component 4 are oppositely arranged on inside particle box assembly 1
Both ends.A kind of three-dimensional of the present invention squeezes crushed aggregates device and when in use puts into ore to 1 inside of particle box assembly, will
Particle drive component 2 is connected to power supply and is opened by controlling switch, and particle drive component 2 is driven by upper transmission component 7 and uploaded
Dynamic component 7 carries out the movement that is compressed to crush of upper and lower directions, and particle drive component 2 drives left flakeboard component 3 to carry out left and right directions
Be compressed to crush movement, left flakeboard component 3 drives right flakeboard component 4 to carry out the pressure of left and right directions by driving front component 6
Contracting crushing motion, right flakeboard component 4 and left flakeboard component 3 synchronize moved toward one another or counter motion, right particle board group
Part 4, left flakeboard component 3 and upper flakeboard component 5 synchronize carry out compression particle processing, realize to the efficiency crushing of mineral aggregate, break
Broken effect is good, and crushing efficiency is high.
Specific implementation mode two:
As shown in figures 1-13, the particle box assembly 1 includes that the particle case ontology 1-1, runner frame 1-2, rectangle of top surface hollow out are slided
Slot 1-3, flute profile slideway 1-4, discharge door 1-5 and fastening plates 1-6;The left end of the particle case ontology 1-1 is fixedly connected with runner frame
1-2;The upper end of left side and the upper end of right side of the particle case ontology 1-1 is respectively provided with a rectangle sliding slot 1-3 and one
Flute profile slideway 1-4, flute profile slideway 1-4 are connected to rectangle sliding slot 1-3, and flute profile slideway 1-4 is arranged in the centre of rectangle sliding slot 1-3;
The centre of the bottom surface of the particle case ontology 1-1 is equipped with rectangle discharge port;The discharge door 1-5 clearance fits are connected to rectangle and go out
The inside of material mouth is fixedly connected with fastening plates 1-6 on the bottom surface of discharge door 1-5, and the both ends of fastening plates 1-6 are connected by screw respectively
Both ends in the bottom surfaces particle case ontology 1-1.The particle box assembly 1 when in use, can be by unscrewing the spiral shell on fastening plates 1-6
Nail, fastening plates 1-6 and discharge door 1-5 is unloaded, so that mineral aggregate after crushing is in right flakeboard component 4, left flakeboard
Component 3 and upper flakeboard component 5 are dropped out when being moved by rectangle discharge port, realize automatic discharge, are not necessarily to manual cleaning, drop
Low labour degree improves unloading efficiency.
Specific implementation mode three:
As shown in figures 1-13, the particle drive component 2 includes servo motor 2-1, driving disc 2-2, eccentric shaft 2-3, transmission
Connecting rod 2-4, catenating slider 2-5, T shape sliding rail 2-6, postive stop baffle 2-7, linkage transverse slat 2-8 and push-and-pull transverse slat 2-9;The servo
Driving disc 2-2 is fixedly connected on the output shaft of motor 2-1, the eccentric position of the left side of driving disc 2-2 is fixedly connected partially
Mandrel 2-3;The eccentric shaft 2-3 is rotatably assorted one end of connection kinematic link 2-4, and the other end of kinematic link 2-4 passes through short
Shaft rotation is dynamic to be connected in the right end of catenating slider 2-5;The lower end of the catenating slider 2-5 is equipped with T shape sliding slots, catenating slider 2-
5 are slidably connected by T shape sliding slots on T shape sliding rails 2-6, and the front end of T shape sliding rails 2-6 is fitted in particle case ontology 1-1's
On trailing flank, the lower end of T shape sliding rails 2-6 is connected by screw on upper frame plate 8-1, and the rear end of T shape sliding rails 2-6 is fixedly connected with limit
Position baffle 2-7;The left end of the catenating slider 2-5 is fixedly connected with the right end of linkage transverse slat 2-8, and the left end of linkage transverse slat 2-8 is logical
The dynamic push-and-pull transverse slat 2-9 that is connected of too short shaft rotation;The servo motor 2-1 is connected to by motor cabinet on upper frame plate 8-1;It is described
The front end for pushing and pulling transverse slat 2-9 connects left flakeboard component 3;The driving disc 2-2 uploads dynamic component 7 by being driven band connection.
The particle drive component 2 when in use, servo motor 2-1 connection power supply and after being opened by controlling switch, servo motor 2-1
Output shaft drive driving disc 2-2 to be rotated, when driving disc 2-2 rotation, drives eccentric shaft 2-3 to carry out circulating type movement,
It drives kinematic link 2-4 to carry out circulating type movement when eccentric shaft 2-3 movements, catenating slider 2-5 is driven when kinematic link 2-4 is moved
Carry out reciprocating sliding in the front-back direction on T shape sliding rails 2-6, when catenating slider 2-5 reciprocatingly slides drive linkage transverse slat 2-8 into
Row reciprocating motion in the front-back direction, linkage transverse slat 2-8 drive push-and-pull transverse slat 2-9 to carry out push-and-pull campaign when moving back and forth, push-and-pull is horizontal
Plate 2-9 drives left flakeboard component 3 to carry out the reciprocating motion of left and right directions, to be realized to mineral aggregate by left flakeboard component 3
Be compressed to crush processing.
Specific implementation mode four:
As shown in figures 1-13, the left flakeboard component 3 includes cylinder slide bar 3-1, left riser 3-2, tranverse connecting plate 3-3, left flute profile
Push and pull block 3-4 and left rectangle particle pressing plate 3-5;The cylinder slide bar 3-1 sliding connections are in the sliding slot of runner frame 1-2;
The bottom end of the cylinder slide bar 3-1, which is rotatably assorted, is connected to the front end of push-and-pull transverse slat 2-9;The top of the cylinder slide bar 3-1 is solid
Surely left riser 3-2 is connected;The right end of the left riser 3-2 is fixedly connected with two tranverse connecting plate 3-3, the right end of two tranverse connecting plate 3-3
It is connected by screw on left flute profile push-and-pull block 3-4;The left flute profile push-and-pull block 3-4 clearance fits are connected to particle case ontology 1-
In the flute profile slideway 1-4 of 1 left side, rectangle of two tranverse connecting plate 3-3 sliding connections in the left sides particle case ontology 1-1 is slided
In slot 1-3;The right end of the left flute profile push-and-pull block 3-4 is fixedly connected with left rectangle particle pressing plate 3-5;The left rectangle particle pressing plate
Leading flank, trailing flank and the bottom surface of 3-5 is bonded with leading flank, trailing flank and the bottom surface inside particle case ontology 1-1 respectively.It is described
When in use, cylinder slide bar 3-1 is under the push-and-pull action of push-and-pull transverse slat 2-9 in the sliding slot of runner frame 1-2 for left flakeboard component 3
The reciprocating sliding of left and right directions is carried out, cylinder slide bar 3-1 drives tranverse connecting plate 3-3 and left flute profile to push and pull block by left riser 3-2
3-4 carries out the reciprocating motion of left and right directions, and tranverse connecting plate 3-3 and left flute profile push-and-pull block 3-4 drive left rectangle particle pressing plate 3-5 broken
The inside of hopper ontology 1-1 carries out shuttle compression movement.
Specific implementation mode five:
As shown in figures 1-13, the driving front component 6 includes left connecting rod 6-1, left rack-plate 6-2, right connecting rod 6-3, right rack-plate
6-4, rotation gear 6-5 and gear shaft 6-6;The rear end of the left connecting rod 6-1 is fixedly connected on left riser 3-2, left connecting rod 6-1
Front end be fixedly connected with the left end of left rack-plate 6-2, the bottom surface of left rack-plate 6-2 is equipped with rack tooth, under left rack-plate 6-2
The upper end that end passes through rack tooth engagement connection rotation gear 6-5;The lower end engagement of the rotation gear 6-5 connects right rack-plate 6-
Rack tooth on 4 top surfaces;The right end of the right rack-plate 6-4 is fixedly connected with right connecting rod 6-3;The rear end of the right connecting rod 6-3 is solid
Surely right flakeboard component 4 is connected;The rotation gear 6-5 is fixedly connected on gear shaft 6-6;The rear end of the gear shaft 6-6
It is connected to by the bearing block with bearing on the leading flank of particle case ontology 1-1.The driving front component 6 is when in use, left
Connecting rod 6-1 and left rack-plate 6-2 carries out the reciprocating motion of left and right directions under the drive of left riser 3-2, and left rack-plate 6-2 drives
It rotates gear 6-5 and carries out shuttle rotation, rotation gear 6-5 drives right rack-plate 6-4 and right connecting rod 6-3 to carry out left and right directions
Reciprocating, right connecting rod 6-3 drive right flakeboard component 4 and left flakeboard component 3 synchronize moved toward one another or reversely
Movement is compressed to crush processing to realize to mineral aggregate.
Specific implementation mode six:
As shown in figures 1-13, the right flakeboard component 4 includes right riser 4-1, right transverse slat 4-2, right flute profile push-and-pull block 4-3 and the right side
Rectangle particle pressing plate 4-4;The front end of the right riser 4-1 is fixedly connected with the rear end of right connecting rod 6-3;The right riser 4-1's is upper
End is fixedly connected with right transverse slat 4-2, and the left end of right transverse slat 4-2 is fixedly connected with right flute profile push-and-pull block 4-3, right flute profile push-and-pull block 4-3's
Left end is fixedly connected with right rectangle particle pressing plate 4-4;The right flute profile push-and-pull block 4-3 clearance fits are connected to particle case ontology 1-1
In the flute profile slideway 1-4 of right side, rectangle sliding slot 1-3 of the right transverse slat 4-2 sliding connections in the right sides particle case ontology 1-1
It is interior;Leading flank, trailing flank and the bottom surface of the right rectangle particle pressing plate 4-4 respectively with inside particle case ontology 1-1 leading flank,
Trailing flank and bottom surface fitting.When in use, right riser 4-1 carries out past the right flakeboard component 4 under the drive of right connecting rod 6-3
Compound side-to-side movement, right riser 4-1 by right transverse slat 4-2 and right flute profile push and pull block 4-3 drive right rectangle particle pressing plate 4-4 into
The shuttle side-to-side movement of row, it is broken to synchronize compression by right rectangle particle pressing plate 4-4 and left rectangle particle pressing plate 3-5
Material movement.
Specific implementation mode seven:
As shown in figures 1-13, the upper flakeboard component 5 includes lifting compression bar 5-1, lifting yoke plate 5-2, spring lever 5-3, compression
Spring 5-4, limited block 5-5, transverse frame plate 5-6 and upper particle pressing plate 5-7;The lifting compression bar 5-1 sliding connections are in crossbearer
On plate 5-6, the both ends of transverse frame plate 5-6 are fixedly connected on the front-end and back-end of the top surface of particle case ontology 1-1 by screw respectively;
The upper end of the right side of the lifting compression bar 5-1 connects upper transmission component 7;The lower end of the lifting compression bar 5-1 is fixedly connected with liter
Yoke plate 5-2 drops, each spring lever of sliding connection one 5-3's in the front-end and back-end of lifting yoke plate 5-2, two spring lever 5-3
Lower end is threadedly attached in respectively on particle pressing plate 5-7;The top of the spring lever 5-3 is connected through a screw thread limited block 5-
5;Compressed spring 5-4 is cased on the spring lever 5-3, compressed spring 5-4 settings are in lifting yoke plate 5-2 and upper particle pressing plate 5-7
Between.
The upper transmission component 7 includes transmission wheel disc 7-1, shaft 7-2, wheel shaft frame plate 7-3, articulated linkage 7-4 and linkage
Axis 7-5;The transmission wheel disc 7-1 is fixedly connected on shaft 7-2;The shaft 7-2 is connected by the bearing block with bearing
On wheel shaft frame plate 7-3;The lower end of the wheel shaft frame plate 7-3 is fixedly connected on transverse frame plate 5-6;The articulated linkage 7-4's
One end is rotatably assorted by articulated shaft is connected to the eccentric position for the right side for being driven wheel disc 7-1;The articulated linkage 7-4 is another
End, which is rotatably assorted, to be connected on universal driving shaft 7-5;The left end of the universal driving shaft 7-5 is fixedly connected on the right side of lifting compression bar 5-1
Upper end;The transmission wheel disc 7-1 is by being driven band connection driving disc 2-2.
When in use, driving disc 2-2 is driven by transmission belt and is driven for the upper transmission component 7 and upper flakeboard component 5
Wheel disc 7-1 is rotated, and transmission wheel disc 7-1 drives articulated linkage 7-4 to be rotated when rotating, and articulated linkage 7-4 passes through linkage
Axis 7-5 drives lifting compression bar 5-1 to move up and down, lifting compression bar 5-1 drive lifting yoke plate 5-2 and upper particle pressing plate 5-7 into
The reciprocating motion of row upper and lower directions realizes the break process to mineral aggregate, the spring lever 5-3 and pressure by upper particle pressing plate 5-7
The setting of contracting spring 5-4 so that upper flakeboard component 5 has certain shock absorbing effect, can prevent flakeboard component 5
It damages when in use.
The upper particle pressing plate 5-7 is arranged between left rectangle particle pressing plate 3-5 and right rectangle particle pressing plate 4-4.
The left rectangle particle pressing plate 3-5 is identical with the structure of right rectangle particle pressing plate 4-4, left rectangle particle pressing plate 3-5
It is all made of high manganese wear-resistant steel plate with right rectangle particle pressing plate 4-4.
A kind of three-dimensional of the present invention squeezes crushed aggregates device and when in use puts into ore to 1 inside of particle box assembly,
Particle drive component 2 is connected to power supply and is opened by controlling switch, particle drive component 2 is driven by upper transmission component 7
The progress upper and lower directions of flakeboard component 5 is compressed to crush movement, and particle drive component 2 drives left flakeboard component 3 to be controlled
Direction is compressed to crush movement, and left flakeboard component 3 drives right flakeboard component 4 to carry out left and right directions by driving front component 6
Be compressed to crush movement, right flakeboard component 4 and left flakeboard component 3 synchronize moved toward one another or counter motion, right particle
Board group part 4, left flakeboard component 3 and upper flakeboard component 5 synchronize carry out compression particle processing, realize to mineral aggregate it is efficient break
Broken, crushing effect is good, and crushing efficiency is high;The particle box assembly 1 when in use, can be by unscrewing the spiral shell on fastening plates 1-6
Nail, fastening plates 1-6 and discharge door 1-5 is unloaded, so that mineral aggregate after crushing is in right flakeboard component 4, left flakeboard
Component 3 and upper flakeboard component 5 are dropped out when being moved by rectangle discharge port, realize automatic discharge, are not necessarily to manual cleaning, drop
Low labour degree improves unloading efficiency;When in use, servo motor 2-1 connection power supplys simultaneously pass through control to the particle drive component 2
After system switch is opened, the output shaft of servo motor 2-1 drives driving disc 2-2 to be rotated, and driving disc 2-2 drives when rotating
Eccentric shaft 2-3 carries out circulating type movement, drives kinematic link 2-4 to carry out circulating type movement, kinematic link when eccentric shaft 2-3 is moved
Catenating slider 2-5 is driven to carry out reciprocating sliding in the front-back direction on T shape sliding rails 2-6 when 2-4 is moved, catenating slider 2-5 is past
Linkage transverse slat 2-8 is driven to carry out reciprocating motion in the front-back direction when sliding again, linkage transverse slat 2-8 drives push-and-pull horizontal when moving back and forth
Plate 2-9 carries out push-and-pull campaign, and push-and-pull transverse slat 2-9 drives the reciprocating motion of the left progress of flakeboard component 3 left and right directions, to pass through
The left realization of flakeboard component 3 is compressed to crush processing to mineral aggregate;When in use, cylinder slide bar 3-1's left flakeboard component 3 exists
Push and pull the reciprocating sliding for carrying out left and right directions under the push-and-pull action of transverse slat 2-9 in the sliding slot of runner frame 1-2, cylinder slide bar 3-
1 drives tranverse connecting plate 3-3 and left flute profile to push and pull the reciprocating motion that block 3-4 carries out left and right directions, tranverse connecting plate 3-3 by left riser 3-2
Left rectangle particle pressing plate 3-5 is driven to carry out shuttle compression fortune in the inside of particle case ontology 1-1 with left flute profile push-and-pull block 3-4
It is dynamic;When in use, left connecting rod 6-1 and left rack-plate 6-2 are controlled the driving front component 6 under the drive of left riser 3-2
The reciprocating motion in direction, left rack-plate 6-2 drive rotation gear 6-5 to carry out shuttle rotation, and rotation gear 6-5 drives right tooth
Batten 6-4 and right connecting rod 6-3 carries out the reciprocating of left and right directions, and right connecting rod 6-3 drives right flakeboard component 4 and left particle
Board group part 3, which synchronizes, to be moved toward one another or counter motion, and processing is compressed to crush to mineral aggregate to realize;The right particle board group
When in use, right riser 4-1 carries out shuttle side-to-side movement to part 4 under the drive of right connecting rod 6-3, and right riser 4-1 passes through the right side
Transverse slat 4-2 and right flute profile push-and-pull block 4-3 drive right rectangle particle pressing plate 4-4 to carry out shuttle side-to-side movement, to pass through the right side
Rectangle particle pressing plate 4-4 and left rectangle particle pressing plate 3-5 synchronizes compression particle movement;The upper transmission component 7 and upper broken
When in use, driving disc 2-2 drives transmission wheel disc 7-1 to be rotated to flitch component 5 by transmission belt, and transmission wheel disc 7-1 turns
Articulated linkage 7-4 is driven to be rotated when dynamic, articulated linkage 7-4 drives lifting compression bar 5-1 to carry out fortune up and down by universal driving shaft 7-5
Dynamic, lifting compression bar 5-1 drives lifting yoke plate 5-2 and upper particle pressing plate 5-7 to carry out the reciprocating motion of upper and lower directions, passes through upper particle
Pressing plate 5-7 realizes the break process to mineral aggregate, the setting of the spring lever 5-3 and compressed spring 5-4 so that upper flakeboard component
5 have certain shock absorbing effect, can prevent flakeboard component 5 from damaging when in use.
Certainly, above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art
The variations, modifications, additions or substitutions that those of ordinary skill is made in the essential scope of the present invention also belong to the guarantor of the present invention
Protect range.