CN109092440A - A kind of multi-functional building stones crushing device of hydraulic engineering - Google Patents
A kind of multi-functional building stones crushing device of hydraulic engineering Download PDFInfo
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- CN109092440A CN109092440A CN201810867552.0A CN201810867552A CN109092440A CN 109092440 A CN109092440 A CN 109092440A CN 201810867552 A CN201810867552 A CN 201810867552A CN 109092440 A CN109092440 A CN 109092440A
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- main casing
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/02—Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft
- B02C13/04—Disintegrating by mills having rotary beater elements ; Hammer mills with horizontal rotor shaft with beaters hinged to the rotor; Hammer mills
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
- B02C13/28—Shape or construction of beater elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
- B02C13/282—Shape or inner surface of mill-housings
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
- B02C13/286—Feeding or discharge
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
- B02C13/30—Driving mechanisms
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C21/00—Disintegrating plant with or without drying of the material
- B02C21/02—Transportable disintegrating plant
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60G—VEHICLE SUSPENSION ARRANGEMENTS
- B60G13/00—Resilient suspensions characterised by arrangement, location or type of vibration dampers
- B60G13/02—Resilient suspensions characterised by arrangement, location or type of vibration dampers having dampers dissipating energy, e.g. frictionally
- B60G13/04—Resilient suspensions characterised by arrangement, location or type of vibration dampers having dampers dissipating energy, e.g. frictionally mechanically, e.g. having frictionally-engaging springs as damping elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B02—CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
- B02C—CRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
- B02C13/00—Disintegrating by mills having rotary beater elements ; Hammer mills
- B02C13/26—Details
- B02C13/286—Feeding or discharge
- B02C2013/28618—Feeding means
- B02C2013/28672—Feed chute arrangements
Abstract
The present invention relates to a kind of crushing devices, it in particular is a kind of multi-functional building stones crushing device of hydraulic engineering, including chassis mechanism, casing mechanism, gyratory crusher structure, feeding mechanism, device can be crushed to building stones defined specification, device is capable of providing two kinds of breaking patterns, use scope is wide, device can have the service life of long period, the replacement of device vulnerable part is easy, device can move and reduce the vibration to device in the process of moving, device being capable of parking, chassis mechanism is located at the lower section of casing mechanism, the connection type of chassis mechanism and casing mechanism is to be bolted, the inside of casing mechanism is arranged in gyratory crusher structure, the connection type of gyratory crusher structure and casing mechanism is welding, feeding mechanism is located at the top of casing mechanism, the connection type of feeding mechanism and casing mechanism is welding.
Description
Technical field
The present invention relates to a kind of crushing devices, are in particular a kind of multi-functional building stones crushing devices of hydraulic engineering.
Background technique
In water in engineering, building stones are often used for infrastructure, and the specification of natural stone is often unsatisfactory for building
If it is required that crushing plant is at this moment used, so devising this hydraulic engineering so building stones are crushed to defined size
With multi-functional building stones crushing device.
Summary of the invention
The invention mainly solves the technical problem of providing a kind of hydraulic engineering multi-functional building stones crushing device, device energy
Enough that building stones are crushed to defined specification, device is capable of providing two kinds of breaking patterns, and use scope is wide, when device can have longer
Between service life, device vulnerable part replacement be easy, device can move and reduce in the process of moving the vibration to device,
Device being capable of parking.
In order to solve the above technical problems, the present invention relates to a kind of crushing devices, it is in particular a kind of hydraulic engineering use
Multi-functional building stones crushing device, including chassis mechanism, casing mechanism, gyratory crusher structure, feeding mechanism, device can be building stones
It is crushed to defined specification, device is capable of providing two kinds of breaking patterns, and use scope is wide, and device there can be the use of long period
Service life, the replacement of device vulnerable part are easy, and device can move and reduce the vibration to device in the process of moving, and device can
Parking.
Chassis mechanism includes that wheel mechanism, chassis ontology are stayed in damping, and the lower section that wheel mechanism is located at chassis ontology is stayed in damping,
It is to be bolted that wheel mechanism and the connection type of chassis ontology are stayed in damping;
It includes wheel, wheel tight locking button, wheel connecting rod, wheel support bar, damping spring, damping that wheel mechanism is stayed in damping
Spring base, intermediate attachment base and chassis attachment base, wheel are connected with wheel connecting rod, the connection side of wheel and wheel connecting rod
Formula is bearing connection, and wheel connecting rod is connected with wheel support bar, and the fit system of wheel connecting rod and wheel support bar was
It is full of cooperation, wheel tight locking button is connected with wheel connecting rod, and wheel tight locking button is that spiral is connect with the connection type of wheel connecting rod,
Damping spring is located at the top of wheel support bar, and the connection type of damping spring and wheel support bar is welding, damping spring seat
Positioned at the top of damping spring, the connection type of damping spring seat and damping spring is welding, and intermediate attachment base is located at damping bullet
The connection type of the top of spring abutment, intermediate attachment base and damping spring seat is welding, is located at intermediate attachment base with chassis attachment base
Top, be welding with the connection type of chassis attachment base and intermediate attachment base;
Chassis ontology includes trailer ring, chassis plate, and trailer ring is connected with chassis plate, the connection type of trailer ring and chassis plate
For welding;
Casing mechanism includes discharging shell, main casing, replaceable impact block, upper end cover, two sides feed openings, intermediate feed
Opening, bearing seat supports, middle baffle plate, rotor through hole, motor through hole, bottom plate, main casing supporting leg, discharging shell are located at master
The connection type of the two sides symmetric position of shell, discharging shell and main casing is welding, and replaceable impact block is arranged in main casing
On inner wall, the connection type of replaceable impact block and main casing is spiral connection, and upper end cover is located at the top of main casing, upper end cover
Connection type with main casing is to be bolted, and two sides feed openings are opened in the bilateral symmetry position of upper end cover, and intermediate feed is opened
Mouth is opened in the middle position of upper end cover, and bearing seat supports are arranged inside main casing, the connection side of bearing seat supports and main casing
Formula is welding, and middle baffle plate is located at the lower section of bearing seat supports, and the inside of main casing, middle baffle plate and master is arranged in middle baffle plate
The connection type of shell is welding, and rotor through hole is opened in the middle position of middle baffle plate, and bottom plate is located at the lower section of main casing, bottom
The connection type of plate and main casing is to be bolted, and motor through hole is opened on bottom plate, and main casing supporting leg is located under main casing
The connection type of side, main casing supporting leg and main casing is welding;
Gyratory crusher structure includes driving motor mechanism, belt, rotor mechanism, striker plate, crushing mechanism, driving motor machine
Structure is connected with belt, and the fit system of driving motor mechanism and belt is to be engaged, and belt is located at the lower end of rotor mechanism, skin
The fit system of band and rotor mechanism is to be engaged, and rotor mechanism is located at the lower section of crushing mechanism, rotor mechanism and crusher
The connection type of structure is to be bolted, and striker plate is connected with crushing mechanism, and the connection type of striker plate and crushing mechanism is welding;
Driving motor mechanism includes motor supporting base, motor supporting leg, motor body, machine shaft, motor pulley, belt
Slot, motor supporting base are located at the lower section of motor supporting leg, and the connection type of motor supporting base and motor supporting leg is to be bolted, motor
Supporting leg is located at the lower section of motor body, and the connection type of motor supporting leg and motor body is welding, and motor pulley is located at motor
The connection type of the top of shaft, motor pulley and machine shaft is expansion set connection, and belt grooves are opened on motor pulley;
Rotor mechanism includes rotor belt pulley, rotor pulley belt slot, bearing, rotor body, rotor pulley belt
Slot is opened on rotor belt pulley, and rotor belt pulley is located at the lower section of rotor body, the connection side of rotor belt pulley and rotor body
Formula is expansion set connection, and bearing is connect with rotor body, and the fit system of bearing and rotor body is interference fit;
Crushing mechanism includes cracking hammer head, cracking hammer head support rod, hinge bar, blanking opening, is centrifuged box body, gets rid of material and open
Mouthful, cracking hammer head is connected with cracking hammer head support rod, and the connection type of cracking hammer head and cracking hammer head support rod is to be bolted,
Cracking hammer head support rod is connected with hinge bar, the connection type of cracking hammer head support rod and hinge bar be it is hinged, hinge bar with from
The connection type of heart box body is spiral connection, and blanking is opened in the middle position of centrifugation box body, gets rid of material and is opened in centrifuge box
The side of body;
Feeding mechanism includes charging nozzle, feed chute, intermediate feed pipe, combined feed mouth, feeds nozzle and feed chute
Be connected, the connection type for feeding nozzle and feed chute is welding, and intermediate feed pipe is connected with feed chute, intermediate feed pipe and
The connection type of feed chute is welding, and combined feed mouth is located at the top of feed chute, the connection of combined feed mouth and feed chute
Mode is welding;
Chassis mechanism is located at the lower section of casing mechanism, and the connection type of chassis mechanism and casing mechanism is to be bolted, and revolves
Turn the inside that casing mechanism is arranged in crushing mechanism, the connection type of gyratory crusher structure and casing mechanism is welding, charger
Structure is located at the top of casing mechanism, and the connection type of feeding mechanism and casing mechanism is welding.
As advanced optimizing for the technical program, a kind of hydraulic engineering of the present invention is described in multi-functional building stones crushing device
Chassis ontology, main casing material be Q235.
As advanced optimizing for the technical program, a kind of hydraulic engineering of the present invention is described in multi-functional building stones crushing device
Damping spring material be high-carbon steel.
As advanced optimizing for the technical program, a kind of hydraulic engineering of the present invention is described in multi-functional building stones crushing device
Damping stay wheel mechanism number be four.
As advanced optimizing for the technical program, a kind of hydraulic engineering of the present invention is described in multi-functional building stones crushing device
Discharging shell, replaceable impact block, striker plate, cracking hammer head, centrifugation box body, charging nozzle, feed chute, intermediate feed
It manages, the material of combined feed mouth is potassium steel.
As advanced optimizing for the technical program, a kind of hydraulic engineering of the present invention is described in multi-functional building stones crushing device
Bearing can bear axial compressive force.
A kind of hydraulic engineering having the beneficial effect that with multi-functional building stones crushing device of the present invention
A kind of multi-functional building stones crushing device of hydraulic engineering of the invention, device can be crushed to building stones defined rule
Lattice, device are capable of providing two kinds of breaking patterns, and use scope is wide, and device can have the service life of long period, device rapid wear
Part replacement is easy, and device can move and reduce in the process of moving the vibration to device, and device being capable of parking.
Detailed description of the invention
The present invention will be further described in detail with specific implementation method with reference to the accompanying drawing.
Fig. 1 is a kind of structural schematic diagram of the multi-functional building stones crushing device of hydraulic engineering of the present invention.
Fig. 2 is a kind of structural schematic diagram of the hydraulic engineering chassis mechanism 1 of multi-functional building stones crushing device of the present invention.
Fig. 3 is a kind of structure of the hydraulic engineering damping 1-1 in wheel mechanism of multi-functional building stones crushing device of the present invention
Schematic diagram.
Fig. 4 is the structural schematic diagram of the chassis ontology 1-2 of the multi-functional building stones crushing device of hydraulic engineering of the invention a kind of.
Fig. 5 is a kind of structural schematic diagram of the hydraulic engineering casing mechanism 2 of multi-functional building stones crushing device of the present invention.
Fig. 6 is a kind of structural representation of the hydraulic engineering gyratory crusher structure 3 of multi-functional building stones crushing device of the present invention
Figure.
Fig. 7 is that the structure of the driving motor mechanism 3-1 of the multi-functional building stones crushing device of hydraulic engineering of the invention a kind of is shown
It is intended to.
Fig. 8 is a kind of structural schematic diagram of the hydraulic engineering rotor mechanism 3-3 of multi-functional building stones crushing device of the present invention.
Fig. 9 is a kind of structural schematic diagram of the hydraulic engineering crushing mechanism 3-5 of multi-functional building stones crushing device of the present invention.
Figure 10 is a kind of structural schematic diagram of the hydraulic engineering feeding mechanism 4 of multi-functional building stones crushing device of the present invention.
In figure: chassis mechanism 1, damping 1-1 in wheel mechanism, wheel 1-1-1, wheel tight locking button 1-1-2, wheel connecting rod
1-1-3, wheel support bar 1-1-4, damping spring 1-1-5, damping spring seat 1-1-6, intermediate attachment base 1-1-7 and chassis connect
Joint chair 1-1-8, chassis ontology 1-2, trailer ring 1-2-1, chassis plate 1-2-2, casing mechanism 2, discharging shell 2-1, main casing 2-
2, replaceable impact block 2-3, upper end cover 2-4, two sides feed openings 2-5, intermediate feed opening 2-6, bearing seat supports 2-7, in
Between baffle 2-8, rotor through hole 2-9, motor through hole 2-10, bottom plate 2-11, main casing supporting leg 2-12, gyratory crusher structure 3,
Driving motor mechanism 3-1, motor supporting base 3-1-1, motor supporting leg 3-1-2, motor body 3-1-3, machine shaft 3-1-4, electricity
Machine belt pulley 3-1-5, belt grooves 3-1-6, belt 3-2, rotor mechanism 3-3, rotor belt pulley 3-3-1, rotor pulley belt
Slot 3-3-2, bearing 3-3-3, rotor body 3-3-4, striker plate 3-4, crushing mechanism 3-5, cracking hammer head 3-5-1, cracking hammer head
Support rod 3-5-2, hinge bar 3-5-3, blanking opening 3-5-4, centrifugation box body 3-5-5, get rid of material opening 3-5-6, feeding mechanism 4,
Feed nozzle 4-1, feed chute 4-2, intermediate feed pipe 4-3, combined feed mouth 4-4.
Specific embodiment
Specific embodiment 1:
Illustrate present embodiment below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, the present invention
It is related to a kind of crushing device, is in particular a kind of multi-functional building stones crushing device of hydraulic engineering, including chassis mechanism 1,
Casing mechanism 2, gyratory crusher structure 3, feeding mechanism 4, device can be crushed to building stones defined specification, and device is capable of providing
Two kinds of breaking patterns, use scope is wide, and device can have the service life of long period, and the replacement of device vulnerable part is easy, device
The vibration to device can be moved and reduce in the process of moving, device being capable of parking.
Chassis mechanism 1 is located at chassis including damping 1-1 in wheel mechanism, chassis ontology 1-2, damping 1-1 in wheel mechanism
The lower section of ontology 1-2, the connection type of damping 1-1 in wheel mechanism and chassis ontology 1-2 are to be bolted, and are convenient for later damping
Detachable maintaining replacement after the damage of 1-1 in wheel mechanism;
Damping 1-1 in wheel mechanism includes wheel 1-1-1, wheel tight locking button 1-1-2, wheel connecting rod 1-1-3, wheel branch
Strut 1-1-4, damping spring 1-1-5, damping spring seat 1-1-6, intermediate attachment base 1-1-7 and chassis attachment base 1-1-8, wheel
Sub- 1-1-1 is connected with wheel connecting rod 1-1-3, and wheel 1-1-1 is that bearing is connect with the connection type of wheel connecting rod 1-1-3,
Reliable rotation is provided for wheel 1-1-1, wheel connecting rod 1-1-3 is connected with wheel support bar 1-1-4, wheel connecting rod 1-1-
The fit system of 3 and wheel support bar 1-1-4 is interference fit, prevents wheel connecting rod 1-1-3 from sliding, wheel tight locking button 1-1-
2 are connected with wheel connecting rod 1-1-3, and wheel tight locking button 1-1-2 is that spiral is connect with the connection type of wheel connecting rod 1-1-3,
Convenient in the rotation for tightening the sub- 1-1-1 of wheel tight locking button 1-1-2 time limit ratch, damping spring 1-1-5 is located at wheel support bar 1-
The connection type of the top of 1-4, damping spring 1-1-5 and wheel support bar 1-1-4 are welding, can be effectively prevented damping bullet
Spring 1-1-5 play, damping spring seat 1-1-6 are located at the top of damping spring 1-1-5, damping spring seat 1-1-6 and damping spring
The connection type of 1-1-5 is welding, and connection type is simple and reliable, and intermediate attachment base 1-1-7 is located at the upper of damping spring seat 1-1-6
The connection type of side, intermediate attachment base 1-1-7 and damping spring seat 1-1-6 are welding, are located at centre with chassis attachment base 1-1-8
The top of attachment base 1-1-7, the connection type with chassis attachment base 1-1-8 and intermediate attachment base 1-1-7 is welding, is connected with chassis
Joint chair 1-1-8 can be tightened with bolt, and be easy to remove and repair damping 1-1 in wheel mechanism;
Chassis ontology 1-2 includes trailer ring 1-2-1, chassis plate 1-2-2, and trailer ring 1-2-1 is connected with chassis plate 1-2-2,
The connection type of trailer ring 1-2-1 and chassis plate 1-2-2 is welding, can be withstood more force in actuator;
Casing mechanism 2 includes discharging shell 2-1, main casing 2-2, replaceable impact block 2-3, upper end cover 2-4, two sides charging
Be open 2-5, intermediate feed opening 2-6, bearing seat supports 2-7, middle baffle plate 2-8, rotor through hole 2-9, motor through hole 2-
10, bottom plate 2-11, main casing supporting leg 2-12, discharging shell 2-1 are located at the two sides symmetric position of main casing 2-2, and discharge shell 2-1
Connection type with main casing 2-2 is welding, and replaceable impact block 2-3 is arranged on main casing 2-2 inner wall, replaceable impact block
2-3 is that spiral is connect with the connection type of main casing 2-2, can eaily be replaced when replaceable impact block 2-3 abrasion,
Upper end cover 2-4 is located at the top of main casing 2-2, and the connection type of upper end cover 2-4 and main casing 2-2 is to be bolted, convenient for tearing open
The internal structure that main casing 2-2 is overhauled after upper end cover 2-4 is opened, two sides feed openings 2-5 is opened in the bilateral symmetry position of upper end cover 2-4
It sets, intermediate feed opening 2-6 is opened in the middle position of upper end cover 2-4, and bearing seat supports 2-7 is arranged inside main casing 2-2, axis
The connection type of seat supports 2-7 and main casing 2-2 are held as welding, provides reliable support, middle baffle plate 2- for rotor mechanism 3-3
8 are located at the lower section of bearing seat supports 2-7, and the inside of main casing 2-2, middle baffle plate 2-8 and main casing is arranged in middle baffle plate 2-8
The connection type of 2-2 is welding, and rotor through hole 2-9 is opened in the middle position of middle baffle plate 2-8, and bottom plate 2-11 is located at main casing
The lower section of 2-2, the connection type of bottom plate 2-11 and main casing 2-2 are to be bolted, convenient for removing bottom plate 2-11 then to inside
It repairs, motor through hole 2-10 is opened on bottom plate 2-11, and main casing supporting leg 2-12 is located at the lower section of main casing 2-2, main casing
The connection type of body supporting leg 2-12 and main casing 2-2 is welding, and connection is reliable;
Gyratory crusher structure 3 includes driving motor mechanism 3-1, belt 3-2, rotor mechanism 3-3, striker plate 3-4, crusher
Structure 3-5, driving motor mechanism 3-1 are connected with belt 3-2, and driving motor mechanism 3-1 is to contact to match with the fit system of belt 3-2
It closes, convenient for transmitting torque, belt 3-2 is located at the lower end of rotor mechanism 3-3, and belt 3-2 and the fit system of rotor mechanism 3-3 are
It is engaged, convenient for transmitting torque, rotor mechanism 3-3 is located at the lower section of crushing mechanism 3-5, rotor mechanism 3-3 and crushing mechanism
The connection type of 3-5 is to be bolted, and is convenient for later detachable maintaining crushing mechanism 3-5, striker plate 3-4 and crushing mechanism 3-5 phase
Even, the connection type of striker plate 3-4 and crushing mechanism 3-5 is welding;
Driving motor mechanism 3-1 includes motor supporting base 3-1-1, motor supporting leg 3-1-2, motor body 3-1-3, motor turn
Axis 3-1-4, motor pulley 3-1-5, belt grooves 3-1-6, motor supporting base 3-1-1 are located at the lower section of motor supporting leg 3-1-2, electricity
The connection type of machine support base 3-1-1 and motor supporting leg 3-1-2 is to be bolted, convenient for later detachable maintaining, motor supporting leg
3-1-2 is located at the lower section of motor body 3-1-3, and the connection type of motor supporting leg 3-1-2 and motor body 3-1-3 is welding, electricity
Machine belt pulley 3-1-5 is located at the top of machine shaft 3-1-4, the connection type of motor pulley 3-1-5 and machine shaft 3-1-4
For expansion set connection, expansion set the more can turn the more tight during rotation, prevent motor pulley 3-1-5 from falling off and device is caused to stall,
Belt grooves 3-1-6 is opened on motor pulley 3-1-5;
Rotor mechanism 3-3 includes rotor belt pulley 3-3-1, rotor pulley belt slot 3-3-2, bearing 3-3-3, rotor sheet
Body 3-3-4, rotor pulley belt slot 3-3-2 are opened on rotor belt pulley 3-3-1, and rotor belt pulley 3-3-1 is located at rotor sheet
The connection type of the lower section of body 3-3-4, rotor belt pulley 3-3-1 and rotor body 3-3-4 are the process that expansion set is connected to rotation
Middle expansion set the more can turn the more tight, prevent rotor belt pulley 3-3-1 from falling off and device is caused to stall, bearing 3-3-3 and rotor body 3-3-4
The fit system of connection, bearing 3-3-3 and rotor body 3-3-4 are interference fit;
Crushing mechanism 3-5 includes cracking hammer head 3-5-1, cracking hammer head support rod 3-5-2, hinge bar 3-5-3, blanking opening
3-5-4, centrifugation box body 3-5-5, material opening 3-5-6 is got rid of, cracking hammer head 3-5-1 is connected with cracking hammer head support rod 3-5-2, is crushed
The connection type of tup 3-5-1 and cracking hammer head support rod 3-5-2 is to be bolted, convenient for replacing the cracking hammer head of abrasion later
3-5-1, cracking hammer head support rod 3-5-2 are connected with hinge bar 3-5-3, cracking hammer head support rod 3-5-2 and hinge bar 3-5-3's
Connection type be it is hinged, hinge bar 3-5-3 with centrifugation box body 3-5-5 connection type be spiral connect, convenient for later dismantle more
It changes, blanking opening 3-5-4 is opened in the middle position of centrifugation box body 3-5-5, facilitates falling into for building stones, gets rid of material opening 3-5-6 and is opened in
It is centrifuged the side of box body 3-5-5, building stones is facilitated to be thrown out of;
Feeding mechanism 4 includes charging nozzle 4-1, feed chute 4-2, intermediate feed pipe 4-3, combined feed mouth 4-4, feed pipe
Mouth 4-1 is connected with feed chute 4-2, and the connection type of charging nozzle 4-1 and feed chute 4-2 are welding, intermediate feed pipe 4-3
It is connected with feed chute 4-2, the connection type of intermediate feed pipe 4-3 and feed chute 4-2 are welding, and combined feed mouth 4-4 is located at
The connection type of the top of feed chute 4-2, combined feed mouth 4-4 and feed chute 4-2 are welding;
Chassis mechanism 1 is located at the lower section of casing mechanism 2, and the connection type of chassis mechanism 1 and casing mechanism 2 is that bolt connects
It connects, convenient for later detachable maintaining, the inside of casing mechanism 2, gyratory crusher structure 3 and casing is arranged in gyratory crusher structure 3
The connection type of mechanism 2 is welding, can provide reliable support for gyratory crusher structure 3, feeding mechanism 4 is located at casing mechanism
The connection type of 2 top, feeding mechanism 4 and casing mechanism 2 is welding, provides reliable support for feeding mechanism 4.
Specific embodiment 2:
Illustrate present embodiment, this implementation below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10
Mode is described further embodiment one, the chassis ontology 1-2, main casing 2-2 material be Q235.
Specific embodiment 3:
Illustrate present embodiment, this implementation below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10
Mode is described further embodiment one, and the material of the damping spring 1-1-5 is high-carbon steel.
Specific embodiment 4:
Illustrate present embodiment, this implementation below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10
Mode is described further embodiment one, and the number of the damping 1-1 in wheel mechanism is four.
Specific embodiment 5:
Illustrate present embodiment, this implementation below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10
Mode is described further embodiment one, the discharging shell 2-1, replaceable impact block 2-3, striker plate 3-4, is crushed
The material of tup 3-5-1, centrifugation box body 3-5-5, charging nozzle 4-1, feed chute 4-2, intermediate feed pipe 4-3, combined feed mouth 4-4
Material is potassium steel.
Specific embodiment 6:
Illustrate present embodiment, this implementation below with reference to Fig. 1, Fig. 2, Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10
Mode is described further embodiment one, and the bearing 3-3-3 can bear axial compressive force.
Device can be crushed to building stones defined specification, and device is capable of providing two kinds of breaking patterns, and use scope is wide, lead to
It crosses motor rotation and drives belt 3-2 movement, belt 3-2 movement drives rotor belt pulley 3-3-1 rotation, rotor belt pulley 3-3-1
Rotation drives rotor body 3-3-4 rotation, and rotor body 3-3-4 rotation will drive centrifugation box body 3-5-5 rotation, at this time from top
The material that combined feed mouth 4-4 enters can be entered by intermediate feed pipe 4-3 in centrifugation box body 3-5-5, by being centrifuged box body 3-5-5
The centrifugal force formed is rotated, building stones can be thrown out, be struck on replaceable impact block 2-3, be just fractured into defined specification,
This is operating mode one, and second of operating mode is that building stones are fallen by feed chute 4-2 from charging nozzle 4-1, is centrifuged box body
3-5-5 rotation will drive cracking hammer head 3-5-1 rotation, and the building stones fallen can be hit established practice by the cracking hammer head 3-5-1 of rotation
This is operating mode two to fixed specification, the third operating mode be by be centrifuged stone that box body 3-5-5 is thrown away with from feed pipe
It is broken that the stone that mouth 4-1 is fallen carries out stone-crash-stone;Device can have the service life of long period because discharging shell 2-1, can
Replace impact block 2-3, striker plate 3-4, cracking hammer head 3-5-1, centrifugation box body 3-5-5, charging nozzle 4-1, feed chute 4-2,
The components easy to wear such as intermediate feed pipe 4-3, combined feed mouth 4-4 all use potassium steel, potassium steel is wear-resisting can guarantee it is longer
Use the time;The replacement of device vulnerable part is easy, and replaceable impact block 2-3 uses spiral tightening arrangement, is conveniently replaceable;Device energy
Enough to move and reduce in the process of moving the vibration to device, being equipped with wheel 1-1-1 below device may be implemented locomotive function,
Damping spring 1-1-5 is housed on damping 1-1 in wheel mechanism simultaneously, can effectively absorb the vibration in moving process;Device energy
Enough parkings, tightening wheel tight locking button 1-1-2 will limit the movement of wheel 1-1-1, to realize parking function.
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 within the essential scope of the present invention also belong to guarantor of the invention
Protect range.
Claims (6)
1. a kind of multi-functional building stones crushing device of hydraulic engineering, including chassis mechanism (1), casing mechanism (2), gyratory crusher
Structure (3), feeding mechanism (4), it is characterised in that: chassis mechanism (1) includes that wheel mechanism (1-1), chassis ontology (1- are stayed in damping
2), the lower section that wheel mechanism (1-1) is located at chassis ontology (1-2) is stayed in damping, and wheel mechanism (1-1) and chassis ontology are stayed in damping
The connection type of (1-2) is to be bolted;
It includes wheel (1-1-1), wheel tight locking button (1-1-2), wheel connecting rod (1-1-3), wheel that wheel mechanism (1-1) is stayed in damping
Sub- support rod (1-1-4), damping spring (1-1-5), damping spring seat (1-1-6), intermediate attachment base (1-1-7) and chassis connect
Joint chair (1-1-8), wheel (1-1-1) are connected with wheel connecting rod (1-1-3), wheel (1-1-1) and wheel connecting rod (1-1-3)
Connection type be bearing connection, wheel connecting rod (1-1-3) is connected with wheel support bar (1-1-4), wheel connecting rod (1-1-
It 3) is interference fit, wheel tight locking button (1-1-2) and wheel connecting rod (1-1- with the fit system of wheel support bar (1-1-4)
3) it is connected, wheel tight locking button (1-1-2) is that spiral is connect with the connection type of wheel connecting rod (1-1-3), damping spring (1-1-
5) it is located at the top of wheel support bar (1-1-4), damping spring (1-1-5) and the connection type of wheel support bar (1-1-4) are
Welding, damping spring seat (1-1-6) are located at the top of damping spring (1-1-5), damping spring seat (1-1-6) and damping spring
The connection type of (1-1-5) is welding, and intermediate attachment base (1-1-7) is located at the top of damping spring seat (1-1-6), centre connection
The connection type of seat (1-1-7) and damping spring seat (1-1-6) are welding, are located at centre with chassis attachment base (1-1-8) and connect
The top of seat (1-1-7), the connection type with chassis attachment base (1-1-8) and intermediate attachment base (1-1-7) are welding;
Chassis ontology (1-2) includes trailer ring (1-2-1), chassis plate (1-2-2), trailer ring (1-2-1) and chassis plate (1-2-2)
It is connected, the connection type of trailer ring (1-2-1) and chassis plate (1-2-2) are welding;
Casing mechanism (2) includes discharging shell (2-1), main casing (2-2), replaceable impact block (2-3), upper end cover (2-4), two
Side feed openings (2-5), intermediate feed opening (2-6), bearing seat supports (2-7), middle baffle plate (2-8), rotor through hole (2-
9), motor through hole (2-10), bottom plate (2-11), main casing supporting leg (2-12), discharging shell (2-1) are located at main casing (2-2)
Two sides symmetric position, the connection type of discharging shell (2-1) and main casing (2-2) are welding, and replaceable impact block (2-3) sets
It sets on main casing (2-2) inner wall, replaceable impact block (2-3) is that spiral is connect with the connection type of main casing (2-2), upper end
Lid (2-4) is located at the top of main casing (2-2), and the connection type of upper end cover (2-4) and main casing (2-2) is is bolted, and two
Side feed openings (2-5) are opened in the bilateral symmetry position of upper end cover (2-4), and intermediate feed opening (2-6) is opened in upper end cover (2-4)
Middle position, bearing seat supports (2-7) setting is internal in main casing (2-2), bearing seat supports (2-7) and main casing (2-2)
Connection type be welding, middle baffle plate (2-8) is located at the lower section of bearing seat supports (2-7), and middle baffle plate (2-8) setting is in master
The inside of shell (2-2), middle baffle plate (2-8) and the connection type of main casing (2-2) are welding, and rotor through hole (2-9) is opened
In the middle position of middle baffle plate (2-8), bottom plate (2-11) is located at the lower section of main casing (2-2), bottom plate (2-11) and main casing
The connection type of (2-2) is to be bolted, and motor through hole (2-10) is opened on bottom plate (2-11), the position main casing supporting leg (2-12)
In the lower section of main casing (2-2), the connection type of main casing supporting leg (2-12) and main casing (2-2) are welding;
Gyratory crusher structure (3) include driving motor mechanism (3-1), belt (3-2), rotor mechanism (3-3), striker plate (3-4),
Crushing mechanism (3-5), driving motor mechanism (3-1) are connected with belt (3-2), driving motor mechanism (3-1) and belt (3-2)
Fit system is to be engaged, and belt (3-2) is located at the lower end of rotor mechanism (3-3), belt (3-2) and rotor mechanism (3-3)
Fit system be to be engaged, rotor mechanism (3-3) is located at the lower section of crushing mechanism (3-5), rotor mechanism (3-3) be crushed
The connection type of mechanism (3-5) be bolted, striker plate (3-4) is connected with crushing mechanism (3-5), striker plate (3-4) with break
The connection type of broken mechanism (3-5) is welding;
Driving motor mechanism (3-1) includes motor supporting base (3-1-1), motor supporting leg (3-1-2), motor body (3-1-3), electricity
Machine shaft (3-1-4), motor pulley (3-1-5), belt grooves (3-1-6), motor supporting base (3-1-1) are located at motor supporting leg
The connection type of the lower section of (3-1-2), motor supporting base (3-1-1) and motor supporting leg (3-1-2) is to be bolted, motor supporting leg
(3-1-2) is located at the lower section of motor body (3-1-3), and motor supporting leg (3-1-2) and the connection type of motor body (3-1-3) are
Welding, motor pulley (3-1-5) are located at the top of machine shaft (3-1-4), motor pulley (3-1-5) and machine shaft
The connection type of (3-1-4) is expansion set connection, and belt grooves (3-1-6) are opened on motor pulley (3-1-5);
Rotor mechanism (3-3) includes rotor belt pulley (3-3-1), rotor pulley belt slot (3-3-2), bearing (3-3-3), turns
Sub- ontology (3-3-4), rotor pulley belt slot (3-3-2) are opened on rotor belt pulley (3-3-1), rotor belt pulley (3-3-
1) it is located at the lower section of rotor body (3-3-4), the connection type of rotor belt pulley (3-3-1) and rotor body (3-3-4) is swollen
Set connection, bearing (3-3-3) are connect with rotor body (3-3-4), the cooperation side of bearing (3-3-3) and rotor body (3-3-4)
Formula is interference fit;
Crushing mechanism (3-5) includes cracking hammer head (3-5-1), cracking hammer head support rod (3-5-2), hinge bar (3-5-3), blanking
Opening (3-5-4), gets rid of material opening (3-5-6), cracking hammer head (3-5-1) and cracking hammer head support rod at centrifugation box body (3-5-5)
(3-5-2) is connected, and the connection type of cracking hammer head (3-5-1) and cracking hammer head support rod (3-5-2) is to be bolted, quartering hammer
Head support rod (3-5-2) is connected with hinge bar (3-5-3), the connection of cracking hammer head support rod (3-5-2) and hinge bar (3-5-3)
Mode be it is hinged, hinge bar (3-5-3) with centrifugation box body (3-5-5) connection type be spiral connect, blanking opening (3-5-4)
It is opened in the middle position of centrifugation box body (3-5-5), gets rid of the side that material opening (3-5-6) is opened in centrifugation box body (3-5-5);
Feeding mechanism (4) includes charging nozzle (4-1), feed chute (4-2), intermediate feed pipe (4-3), combined feed mouth (4-4),
Charging nozzle (4-1) is connected with feed chute (4-2), and the connection type of charging nozzle (4-1) and feed chute (4-2) are weldering
It connects, intermediate feed pipe (4-3) is connected with feed chute (4-2), the connection side of intermediate feed pipe (4-3) and feed chute (4-2)
Formula is welding, and combined feed mouth (4-4) is located at the top of feed chute (4-2), combined feed mouth (4-4) and feed chute (4-2's)
Connection type is welding;
Chassis mechanism (1) is located at the lower section of casing mechanism (2), and the connection type of chassis mechanism (1) and casing mechanism (2) is bolt
Connection, gyratory crusher structure (3) are arranged in the inside of casing mechanism (2), the company of gyratory crusher structure (3) and casing mechanism (2)
Mode is connect as welding, feeding mechanism (4) is located at the top of casing mechanism (2), the connection of feeding mechanism (4) and casing mechanism (2)
Mode is welding.
2. a kind of multi-functional building stones crushing device of hydraulic engineering according to claim 1, it is characterised in that: the bottom
Frame ontology (1-2), main casing (2-2) material be Q235.
3. a kind of multi-functional building stones crushing device of hydraulic engineering according to claim 1, it is characterised in that: described subtracts
The material for shaking spring (1-1-5) is high-carbon steel.
4. a kind of multi-functional building stones crushing device of hydraulic engineering according to claim 1, it is characterised in that: described subtracts
Shake is four in the number of wheel mechanism (1-1).
5. a kind of multi-functional building stones crushing device of hydraulic engineering according to claim 1, it is characterised in that: described goes out
Material shell body (2-1), replaceable impact block (2-3), striker plate (3-4), cracking hammer head (3-5-1), centrifugation box body (3-5-5), into
Expects pipe mouth (4-1), feed chute (4-2), intermediate feed pipe (4-3), combined feed mouth (4-4) material be potassium steel.
6. a kind of multi-functional building stones crushing device of hydraulic engineering according to claim 1, it is characterised in that: the axis
Axial compressive force can be born by holding (3-3-3).
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CN109821640A (en) * | 2019-03-08 | 2019-05-31 | 付耀文 | A kind of multi-functional coal cinder processing unit |
CN110433902A (en) * | 2019-08-19 | 2019-11-12 | 王晖 | A kind of chemical industry coal processing equipment |
CN112138783A (en) * | 2020-08-27 | 2020-12-29 | 枣庄鑫金山智能装备有限公司 | Vertical shaft hammer type sand making machine |
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CN112138783A (en) * | 2020-08-27 | 2020-12-29 | 枣庄鑫金山智能装备有限公司 | Vertical shaft hammer type sand making machine |
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Application publication date: 20181228 |