CN205361466U - Inertia cone crusher - Google Patents

Abstract

The utility model discloses an inertia cone crusher, inertia cone crusher includes: chassis, isolator, supporting ring, holding ring, be equipped with the chassis on the isolator, install motor and supporting ring on the chassis, the holding ring is installed on the upper portion of supporting ring, be equipped with the support in the supporting ring, be equipped with the main shaft on the support, the main shaft inserts in the straight bush, straight bush externally mounted has the vibration exciter, the bottom of straight bush is equipped with the fluid coupling ware, the epaxial gear of installing of fluid coupling ware, main shaft upper portion is equipped with spherical bearing, the last mantle that is equipped with of spherical bearing. The utility model discloses a technique aim at provide a transmission efficiency higher, better protect the motor, can adjust the inertia cone crusher of centrifugal moment, removable mantle awl lid, this kind of inertia cone crusher can reduce manufacturing cost, can change the broken power of breaker fast.

Description

A kind of unit for inertial conic crusher

Technical field

This utility model relates to field of cracking machine, particularly a kind of unit for inertial conic crusher.

Background technology

Gyratory crusher is widely used in the industrial circles such as mine, has the raw material of very many new exploitations place to need to be processed processing with disintegrating machine so that the raw material after processed reaches the granularity of next step job requirements.

In disintegrating machine, it is big and adjustable, broken than big that unit for inertial conic crusher has energy-efficient swing crushing working method, crushing force, product granularity is carefully and uniformly, unit power consumption is low, the advantage that can crush the brittle material of any hardness, it is a kind of desirable energy-conservation super fine crushing equipment, has been widely used at the broken manufacture field of material, create huge Social benefit and economic benefit for each field and manufacturing enterprise.

And there is crushing force and regulate inconvenience, the shortcomings such as drive disk assembly transmission efficiency is relatively low, and production cost is higher in traditional unit for inertial conic crusher.

Utility model content

For the deficiency that above-mentioned unit for inertial conic crusher exists; technical purpose of the present utility model is in that to provide that a kind of transmission efficiency is higher, better protect motor, can adjust the unit for inertial conic crusher of centrifugal moment, replaceable mantle cone lid; this unit for inertial conic crusher can reduce production cost, can quickly change the crushing force of disintegrating machine.

This utility model is achieved through the following technical solutions:

A kind of unit for inertial conic crusher, described unit for inertial conic crusher includes: underframe, vibration isolator, support ring, adjustment ring, described vibration isolator is provided with underframe, described underframe is provided with motor and support ring, the top of described support ring is provided with adjustment ring, it is provided with support in described support ring, described support is provided with main shaft, described main shaft is inserted in straight lining, described straight bushing outer is provided with vibrator, the bottom of described straight lining is provided with fluid coupling, the axle of described fluid coupling is provided with gear, described main shaft top is provided with spherical bearing, described spherical bearing is provided with mantle.

In technique scheme, by being provided with vibration isolator on underframe, make unit for inertial conic crusher when operation, the vibration of disintegrating machine and motor can be reduced, unit for inertial conic crusher is that the vibrator by rotating produces centrifugal force, mantle is made to do gapless rolling along cone inner surface surely, at the fluid coupling that the bottom of straight lining is provided with, conveniently the rotating speed of straight lining can be adjusted, the gear installed on fluid coupling passes through chain drive with the gear on motor shaft, transmission efficiency and Mechanical Reliability can be increased, Chain conveyer has and will not skid, in hgher efficiency, gear ratio is more accurate, the advantage such as high temperature resistant, between main shaft top and mantle, it is provided with spherical bearing enable to mantle and can do gapless rolling along determining cone inner surface.

A kind of unit for inertial conic crusher, described vibration isolator is spiral type steel spring vibration isolator or butterfly steel spring vibration isolator.

In technique scheme, vibration isolator is set to steel spring vibration isolator and can better offset vibration, and the weight range that steel spring vibration isolator bears is big, is not substantially affected by the impact of variations in temperature, spiral type steel spring vibration isolator selected by usual vibration isolator, it is possible to select butterfly steel spring vibration isolator.

A kind of unit for inertial conic crusher, the rotation axle of motor is provided with gear, described gear coordinates and is provided with chain, and described chain coordinates installation with the gear on the axle of fluid-flywheel clutch.

In technique scheme, motor is connected with fluid coupling with the mode of chain by gear so that the transmission efficiency between motor and bonder is higher, gear ratio is more accurate, more resistant to high temperature.

A kind of unit for inertial conic crusher, vibrator is inertia vibration generator, described inertia vibration generator includes eccentric block, excitor, described excitor is fixedly mounted on straight lining, described excitor is by sleeve and box body, two gears it are provided with in the box body of described excitor, described gear is provided with driving chain, the rotating shaft of gear is provided with shaft coupling, described shaft coupling is connected with the shaft coupling on motor a, motor b is installed in described box body, the axle of described motor b is provided with gear, groove is had in the middle part of described box body, it is provided with retainer ring in described groove, in described retainer ring, stud is installed, the gear that screw thread on described stud is provided with motor b axle coordinates installation, the top of described stud is not provided with screw thread.

nullIn technique scheme，Excitor is provided with eccentric block，Excitor is fixedly mounted on straight lining，Eccentric block can move on excitor，Enable the bushing to drive vibrator to rotate，Vibrator is when rotated，Eccentric block moves to different positions can produce different centrifugal force，Make it possible to the convenient crushing force regulating unit for inertial conic crusher，The sleeve of vibrator is fixedly mounted on straight lining with coming，Box body is used for setting-up eccentricity block，The gear being provided with in box body and chain can adjust the position of eccentric block，Described shaft coupling is connected with the shaft coupling on motor a，Motor can be rotated by driven gear，The motor b being provided with can rotate by driven gear，Stud is installed in retainer ring，Stud can be moved up and down along retainer ring，It is not provided with screw thread at the top of stud，Make stud moves past in journey，Can extend in driving chain，By driving chain card column，Eccentric block will not be flown out when rotating.

A kind of unit for inertial conic crusher, described fluid coupling is provided with overload protection and overvoltage protection, and the fluid in described fluid coupling is turbine oil.

In technique scheme, by being provided with overload protection and overvoltage protection can better protect fluid coupling at fluid coupling, also better protecting motor, turbine oil has high-flash, low viscous characteristic simultaneously.

A kind of unit for inertial conic crusher, described mantle includes cone lid and cone, described cone lid is the cone of inner pumping, the inner cone wall of described cone lid is provided with inverted steps, and the outer cone wall of described cone is provided with positive ladder, and the inverted steps that the inner cone wall that the positive ladder that described outer cone wall is provided with covers with cone is provided with agrees with mutually, the bottom of described cone is provided with bulge loop, described bulge loop is provided with screw, and the cone bottom surface of described cone lid is provided with screwed hole, and described bulge loop is bolted with cone lid.

In technique scheme, by mantle being provided with cone lid and cone two parts so that cone lid is replaceable, more save cost, it is provided with the ladder of cooperation between cone with cone lid and is connected by bulge loop so that cone will not be stuck with cone lid, also making cone lid be connected with consolidating between cone.

A kind of unit for inertial conic crusher, described motor a and motor b is connected with controller a and controller b respectively, described controller a is connected with MCU respectively with controller b, described MCU is connected with light-emitting diode display, described MCU is connected with data-interface, and described straight lining is provided with speed probe, and described motor is provided with controller c, described controller is connected with MCU, and described eccentric block is provided with displacement transducer；The displacement number of delivering a letter of the eccentric block that the tach signal of straight lining (10) that described speed probe records, displacement transducer record passes through formula after receiving tach signal and displacement signal to MCU, described MCUnullCalculate the centripetal force that vibrator produces，Thus controlling the crushing force of disintegrating machine，When the crushing force deficiency of disintegrating machine，Described MCU sends the signal command closed to the controller c of motor，The controller c of described motor closes motor after receiving the signal command closing motor，After described straight lining stops operating，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves down，Make gear 3 that driving chain can be driven to move，Described MCU sends the signal command closing electro-motor b to controller b，Described controller b closes electro-motor b after receiving the order closing electro-motor，After motor b closes，Described MCU sends the signal command opening electro-motor a to controller a，Described controller a opens electro-motor a after receiving the order opening electro-motor，Under the drive of electro-motor a，Gear 3 is made to drive driving chain to move，Described driving chain drives eccentric block 1 to move，After eccentric block 1 is adjusted correct position by described driving chain，The distance that described eccentric block moves passes through displacement sensor，The distance that described eccentric block moves is passed throughnullCalculate，Described MCU sends the signal command closing electro-motor a to controller a，Described controller a closes electro-motor a after receiving the order closing electro-motor，After described electro-motor a closes，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves up，Make bolt 4 through the hole of driving chain, driving chain is locked，Thus eccentric block is fixed，If stud 4 is when the hole of traverse driving chain，It is transmitted chain to block，MCU controls motor a and the position of driving chain is finely tuned，Driving chain is fixed by bolt 4 through the hole of driving chain，So that eccentric block is fixed，Described MCU sends the signal command opened to the controller c of motor，The controller c of described motor opens motor after receiving the signal command opening motor，Thus controlling the crushing force of inertia crusher.

The beneficial effects of the utility model are:

1, by being provided with chain by the gear on the axle of the gear on motor and fluid-flywheel clutch so that the transmission efficiency between motor and fluid coupling improves, and the reliability of transmission improves, it is possible to the moment of transmission is bigger, more resistant to high temperature；

2, by traditional shaft coupling is set to fluid coupling; make can better protect motor when moment of torsion becomes big suddenly; the startup ability of motor can be improved; strong adaptability to environment; can at cold, humidity, dust, need to work under explosion-proof environment, also there is the function of stepless time adjustment；

3, by mantle being set to cone lid and cone two parts so that when cone lid destroys, it is possible to change cone lid so that use cost is lower；

4, by the eccentric block on vibrator can be moved so that thus changing the centrifugal force of polariser so that the crushing force of unit for inertial conic crusher changes；

5, by the MCU, speed probe, the displacement transducer that are provided with and be provided with motor in excitor, make it possible to be come the position of eccentric adjustment block by external control, make MCU can automatically adjust the crushing force of unit for inertial conic crusher, so make more rapid convenient adaptation of disintegrating machine process needs.

Accompanying drawing explanation

Fig. 1 is the structural representation of utility model.

Labelling in figure: 1 be underframe, 2 be fluid coupling, 3 be vibration isolator, 4 be vibrator, 5 be support ring, 6 be spherical bearing, 7 be fixed cone, 8 be adjustment ring, 9 be mantle, 9-1 be cone lid, 9-2 is cone, 10 is straight lining, 11 is motor, 12 is chain.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in detail.

nullA kind of unit for inertial conic crusher as shown in Figure 1，Underframe 1、Fluid coupling 2、Vibration isolator 3、Vibrator 4、Support ring 5、Spherical bearing 6、Surely 7 are bored、Adjustment ring 8、Mantle 9、Cone lid 9-1、Cone 9-2、Straight lining 10、Motor 11、Chain 12，Described unit for inertial conic crusher includes: underframe 1、Vibration isolator 3、Support ring 5、Adjustment ring 8，Described vibration isolator 3 is provided with underframe 1，Described underframe 1 is provided with motor 11 and support ring 5，The top of described support ring 5 is provided with adjustment ring 8，It is provided with support in described support ring 5，Described support is provided with main shaft，Described main shaft is inserted in straight lining 10，Described straight lining 10 is outside is provided with vibrator 4，The bottom of described straight lining 10 is provided with fluid coupling 2，The axle of described fluid coupling 2 is provided with gear，Described main shaft top is provided with spherical bearing 6，Described spherical bearing 6 is provided with mantle 9；Described vibration isolator 3 is spiral type steel spring vibration isolator；The rotation axle of described motor 11 is provided with gear, described gear coordinates and is provided with chain 12, and described chain 12 coordinates installation with the gear on the axle of fluid-flywheel clutch；Described vibrator 4 is inertia vibration generator, described inertia vibration generator includes eccentric block, excitor, described excitor is fixedly mounted on straight lining, described excitor is by sleeve and box body, two gears it are provided with in the box body of described excitor, described gear is provided with driving chain 12, the rotating shaft of gear is provided with shaft coupling, described shaft coupling is connected with the shaft coupling on motor a, motor b is installed in described box body, the axle of described motor b is provided with gear, groove is had in the middle part of described box body, it is provided with retainer ring in described groove, in described retainer ring, stud is installed, the gear that screw thread on described stud is provided with motor b axle coordinates installation, the top of described stud is not provided with screw thread；Described fluid coupling 2 is provided with overload protection and overvoltage protection, and the fluid in described fluid coupling 2 is turbine oil；Described mantle 9 includes cone lid 9-1 and cone 9-2, described cone lid 9-1 is the cone of inner pumping, the inner cone wall of described cone lid 9-1 is provided with inverted steps, the outer cone wall of described cone 9-2 is provided with positive ladder, the inverted steps that is provided with of inner cone wall of the positive ladder that described outer cone wall is provided with and cone lid 9-1 agrees with mutually, and the bottom of described cone 9-2 is provided with bulge loop, and described bulge loop is provided with screw, the cone bottom surface of described cone lid 9-1 is provided with screwed hole, and described bulge loop is bolted with cone lid 9-1；

Described motor a and motor b is connected with controller a and controller b respectively, described controller a is connected with MCU respectively with controller b, described MCU is connected with light-emitting diode display, described MCU is connected with data-interface, described straight lining 10 is provided with speed probe, described motor 11 is provided with controller c, and described controller is connected with MCU, and described eccentric block is provided with displacement transducer；The displacement number of delivering a letter of the eccentric block that the tach signal of straight lining 10 that described speed probe records, displacement transducer record passes through formula after receiving tach signal and displacement signal to MCU, described MCUnullCalculate the centripetal force that vibrator 4 produces，Thus controlling the crushing force of disintegrating machine，When the crushing force of disintegrating machine is not default crushing force，Described MCU sends the signal command closed to the controller c of motor 11，The controller c of described motor 11 closes motor 11 after receiving the signal command closing motor 11，After described straight lining 10 stops operating，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves down，Make gear 3 that driving chain 12 can be driven to move，Described MCU sends the signal command closing electro-motor b to controller b，Described controller b closes electro-motor b after receiving the order closing electro-motor，After motor b closes，Described MCU sends the signal command opening electro-motor a to controller a，Described controller a opens electro-motor a after receiving the order opening electro-motor，Under the drive of electro-motor a，Gear 3 is made to drive driving chain 12 to move，Described driving chain 12 drives eccentric block 1 to move，After eccentric block 1 is adjusted correct position by described driving chain 12，The distance that described eccentric block moves passes through displacement sensor，The distance that described eccentric block moves is passed throughnullCalculate，Described MCU sends the signal command closing electro-motor a to controller a，Described controller a closes electro-motor a after receiving the order closing electro-motor，After described electro-motor a closes，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves up，Make bolt 4 through the hole of driving chain 12 by locked for driving chain 12，Thus eccentric block is fixed，If stud 4 is when the hole of traverse driving chain 12，It is transmitted chain 12 to block，MCU controls motor a and the position of driving chain 12 is finely tuned，Driving chain 12 is fixed by bolt 4 through the hole of driving chain 12，So that eccentric block is fixed，Described MCU sends the signal command opened to the controller c of motor 11，The controller c of described motor 11 opens motor 11 after receiving the signal command opening motor 11，Thus controlling the crushing force of inertia crusher.

Unit for inertial conic crusher operating principle of the present utility model is:

1, the data in MCU can be preset by the data-interface of MCU, after starting unit for inertial conic crusher, motor 11 drives, with coordinating of chain, the pinion rotation being arranged on fluid-flywheel clutch 2 by gear, thus driving the turbine rotation in fluid-flywheel clutch 2, fluid coupling 2 is made to deliver torque to straight lining 10, straight lining 10 rotates thus driving vibrator 4 to rotate, vibrator 4 rotates and produces centrifugal force, make mantle 9 make gapless along the inner surface determining cone being arranged in adjustment ring 8 to roll, thus producing crushing force.

2, the MCU data to being provided with and sensor record and the data that calculate pass through formulanullContrast，The data of contrast allow the deviation of 5%，When the data of contrast are inconsistent in deviation range，The data of contrast are shown on light-emitting diode display by MCU，Namely when the crushing force of disintegrating machine is not default crushing force，MCU sends the signal command closed to the controller c of motor 11，The controller c of motor 11 closes motor 11 after receiving the signal command closing motor 11，After straight lining 10 stops operating，MCU sends the signal command opening electro-motor b to controller b，Controller b opens electro-motor b after receiving the order opening electro-motor，Under the driving of electro-motor b，Stud 4 is moved down，Make gear that driving chain 12 can be driven to move，Described MCU sends the signal command closing electro-motor b to controller b，Described controller b closes electro-motor b after receiving the order closing electro-motor，After motor b closes，Described MCU sends the signal command opening electro-motor a to controller a，Described controller a opens electro-motor a after receiving the order opening electro-motor，Under the drive of electro-motor a，Gear 3 is made to drive driving chain 12 to move，Described driving chain 12 drives eccentric block 1 to move，After eccentric block 1 is adjusted correct position by described driving chain 12，The distance that described eccentric block moves passes through displacement sensor，The distance that described eccentric block moves is passed throughnullCalculate，Described MCU sends the signal command closing electro-motor a to controller a，Described controller a closes electro-motor a after receiving the order closing electro-motor，After described electro-motor a closes，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，Electro-motor b drives stud 4 to move up，Make bolt 4 through the hole of driving chain 12 by locked for driving chain 12，Thus eccentric block is fixed，If stud 4 is when the hole of traverse driving chain 12，It is transmitted chain 12 to block，MCU controls motor a and the position of driving chain 12 is finely tuned，Driving chain 12 is fixed by bolt 4 through the hole of driving chain 12，So that eccentric block is fixed，Described MCU sends the signal command opened to the controller c of motor 11，The controller c of described motor 11 opens motor 11 after receiving the signal command opening motor 11，Thus controlling the crushing force of inertia crusher.

Claims (8)

1. null1. a unit for inertial conic crusher，Described unit for inertial conic crusher includes: underframe (1)、Vibration isolator (3)、Support ring (5)、Adjustment ring (8)，It is characterized in that，Described vibration isolator (3) is provided with underframe (1)，Described underframe (1) is provided with motor (11) and support ring (5)，The top of described support ring (5) is provided with adjustment ring (8)，Described support ring is provided with support in (5)，Described support is provided with main shaft，Described main shaft is inserted in straight lining (10)，Described straight lining (10) is outside is provided with vibrator (4)，The bottom of described straight lining (10) is provided with fluid coupling (2)，The axle of described fluid coupling (2) is provided with gear，Described main shaft top is provided with spherical bearing (6)，Described spherical bearing (6) is provided with mantle (9).
2. 2. unit for inertial conic crusher according to claim 1, it is characterised in that described vibration isolator (3) is spiral type steel spring vibration isolator or butterfly steel spring vibration isolator.
3. 3. unit for inertial conic crusher according to claim 1, it is characterized in that, the rotation axle of described motor (11) is provided with gear, coordinating on described gear and be provided with chain (12), described chain (12) coordinates installation with the gear on the axle of fluid-flywheel clutch.
4. 4. unit for inertial conic crusher according to claim 1, it is characterized in that, described vibrator (4) is inertia vibration generator, described inertia vibration generator includes eccentric block, excitor, described excitor is fixedly mounted on straight lining, described excitor is by sleeve and box body, two gears it are provided with in the box body of described excitor, described gear is provided with driving chain (12), the rotating shaft of gear is provided with shaft coupling, described shaft coupling is connected with the shaft coupling on motor a, motor b is installed in described box body, the axle of described motor b is provided with gear, groove is had in the middle part of described box body, it is provided with retainer ring in described groove, in described retainer ring, stud is installed, the gear that screw thread on described stud is provided with motor b axle coordinates installation, the top of described stud is not provided with screw thread.
5. 5. the unit for inertial conic crusher according to claim 1 or 3, it is characterised in that described fluid coupling (2) is provided with overload protection and overvoltage protection, and the fluid in described fluid coupling (2) is turbine oil.
6. 6. unit for inertial conic crusher according to claim 1, it is characterized in that, described mantle (9) includes cone lid (9-1) and cone (9-2), the cone that described cone lid (9-1) is inner pumping, the inner cone wall of described cone lid (9-1) is provided with inverted steps, the outer cone wall of described cone (9-2) is provided with positive ladder, the inverted steps that is provided with of inner cone wall of the positive ladder that described outer cone wall is provided with and cone lid (9-1) agrees with mutually, the bottom of described cone (9-2) is provided with bulge loop, described bulge loop is provided with screw, the cone bottom surface of described cone lid (9-1) is provided with screwed hole, described bulge loop is bolted with cone lid (9-1).
7. 7. based on the unit for inertial conic crusher of claim 4, it is characterized in that, described motor a and motor b is connected with controller a and controller b respectively, described controller a is connected with MCU respectively with controller b, and described MCU is connected with light-emitting diode display, and described MCU is connected with data-interface, described straight lining (10) is provided with speed probe, described motor (11) is provided with controller c, and described controller is connected with MCU, and described eccentric block is provided with displacement transducer.
8. 8. unit for inertial conic crusher according to claim 7, it is characterized in that, the displacement number of delivering a letter of the eccentric block that the tach signal of straight lining (10) that described speed probe records, displacement transducer record gives MCU, after described MCU receives tach signal and displacement signal, by formula F=m ω²nullR calculates the centripetal force that vibrator (4) produces，Thus controlling the crushing force of disintegrating machine，When the crushing force of disintegrating machine is not default crushing force，Described MCU sends the signal command closed to the controller c of motor (11)，The controller c of described motor (11) closes motor (11) after receiving the signal command closing motor (11)，After described straight lining (10) stops operating，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves down，Make gear 3 that driving chain (12) can be driven mobile，Described MCU sends the signal command closing electro-motor b to controller b，Described controller b closes electro-motor b after receiving the order closing electro-motor，After motor b closes，Described MCU sends the signal command opening electro-motor a to controller a，Described controller a opens electro-motor a after receiving the order opening electro-motor，Under the drive of electro-motor a，Gear 3 is made to drive driving chain (12) mobile，Described driving chain (12) drives eccentric block 1 to move，After eccentric block 1 is adjusted correct position by described driving chain (12)，The distance that described eccentric block moves passes through displacement sensor，The distance that described eccentric block moves passes through F=m ω²nullR calculates，Described MCU sends the signal command closing electro-motor a to controller a，Described controller a closes electro-motor a after receiving the order closing electro-motor，After described electro-motor a closes，Described MCU sends the signal command opening electro-motor b to controller b，Described controller b opens electro-motor b after receiving the order opening electro-motor，The drive stud 4 of electro-motor b moves up，Make bolt 4 through the hole of driving chain (12) by locked for driving chain (12)，Thus eccentric block is fixed，If stud 4 is when the hole of traverse driving chain (12)，It is transmitted chain (12) to block，MCU controls motor a and the position of driving chain (12) is finely tuned，Driving chain (12) is fixed by bolt 4 through the hole of driving chain (12)，So that eccentric block is fixed，Described MCU sends the signal command opened to the controller c of motor (11)，The controller c of described motor (11) opens motor (11) after receiving the signal command opening motor (11)，Thus controlling the crushing force of inertia crusher.