CN109173396A - A kind of centrifuge that waste mineral oil preprocessing process uses - Google Patents

Abstract

A kind of centrifuge that waste mineral oil preprocessing process uses, it is related to the technical field of waste mineral oil pre-processing device, it specifically includes rack, driving mechanism, protective shell, elevating mechanism, switching mechanism, connection frame, mobile mechanism A, mobile mechanism B, contact mechanism A, contact mechanism B, centrifugal mechanism, feeding mechanism and control mechanism, the mobile mechanism A is connected with contact mechanism A, the mobile mechanism B is connected with contact mechanism B, the control mechanism is connected to driving mechanism by conducting wire, elevating mechanism, switching mechanism, contact mechanism A, contact mechanism B, centrifugal mechanism and feeding mechanism；The centrifuge that the waste mineral oil preprocessing process uses can be switched fast feed mode or discharging mode, and then quickly discharging material can be carried out to the solid of the waste mineral oil in filter screen, it does not need staff and carries out excessive manual operation step, and the degree of automation is higher, suitable in today's needs superfast loading and the pretreatment processing method of discharging.

Description

A kind of centrifuge that waste mineral oil preprocessing process uses

Technical field

The present invention relates to the technical field of waste mineral oil pre-processing device, especially a kind of waste mineral oil preprocessing process makes Centrifuge.

Background technique

Waste mineral oil mostlys come from the greasy filth and oil foot that oil exploitation and refining generate, and produces in mineral oils storage process Raw hypostasis, the equipment such as machinery, power, transport more change oil and the dregs of fat in regenerative process and filter medium etc.." National Hazard Waste register " waste mineral oil is incorporated into as hazardous waste, the Multiple components in waste mineral oil such as have the toxic effect of human body 3, the 4- BaP, Polychlorinated biphenyls (PCB) etc. of carcinogenesis strongly will destroy biology and inhabit once largely entering external environment Ground endangers the safety of animals and plants and human body, causes serious environmental pollution.Therefore, to the processing of waste mineral oil disposition seem to It closes important.And waste mineral oil needs to be separated by solid-liquid separation it when pre-processing it, at this moment with regard to need use accordingly from Scheming.

Centrifuge now can be in waste mineral oil after isolating solid and liquid, and need to looser a bolt its corresponding mistake Strainer, the solid that could be located in filter screen take out, and the process taken out is more troublesome, and takeing a long time could mineral waste Solid take out, be unsuitable in today's needs superfast loading and the pretreatment processing method of discharging.

Summary of the invention

Technical problem to be solved by the invention is to provide a kind of centrifuge that waste mineral oil preprocessing process uses, Can be switched fast feed mode or discharging mode, and then can the solid to the waste mineral oil in filter screen quickly unloaded Material does not need staff and carries out excessive manual operation step, discharging is convenient, and the degree of automation is higher, suitable for now It needs in superfast loading and the pretreatment processing method of discharging.

In order to solve the above technical problems, the technical scheme adopted by the invention is that: a kind of waste mineral oil preprocessing process makes Centrifuge, including rack, driving mechanism, protective shell, elevating mechanism, switching mechanism, connection frame, mobile mechanism A, moving machine Structure B, contact mechanism A, contact mechanism B, centrifugal mechanism, feeding mechanism and control mechanism are connected with driving machine in the rack Structure, driving mechanism pass through protective shell be connected to centrifugal mechanism and feeding mechanism, be equipped in the protective shell elevating mechanism with And switching mechanism, protective shell outside are symmetrically connected with mobile mechanism A and mobile mechanism B, the mobile mechanism A by connection frame It is connected with contact mechanism A, the mobile mechanism B is connected with contact mechanism B, and the control mechanism is connected to drive by conducting wire Motivation structure, elevating mechanism, switching mechanism, contact mechanism A, contact mechanism B, centrifugal mechanism and feeding mechanism.

The driving mechanism includes motor A, driving wheel, driven wheel and mobile jib, the motor axis connection of the motor A In driving wheel, driving wheel is connected to driven wheel by transmission belt, and driven wheel is connected to one end of mobile jib, the other end connection of mobile jib In rack.

The elevating mechanism includes motor B, pulley, sliding rail and mounting rack, and the motor shaft of the motor B is connected to Pulley, pulley are slidably connected on sliding rail, and sliding rail is mounted in protective shell, and the pulley is connected to switching mechanism by strut.

The switching mechanism includes releasing component, changeover module A, changeover module B and runner assembly, the release component Front is equipped with runner assembly, is symmetrically connected with changeover module A and changeover module B on runner assembly；

The release component includes cylinder A and push plate, and the cylinder A is connected to pulley by strut, and the piston rod of cylinder A connects It is connected to push plate；

The changeover module A includes that movable plate, telescopic rod, spring, worm screw and tapered teeth A, the movable plate are connected to flexible One end of bar, the other end of telescopic rod pass through spring and are connected to worm screw, and tapered teeth A, the front of tapered teeth A are connected on worm screw Equipped with mobile mechanism A；

The changeover module B includes that movable plate, telescopic rod, spring, worm screw and tapered teeth A, the movable plate are connected to flexible One end of bar, the other end of telescopic rod pass through spring and are connected to worm screw, and tapered teeth A, the front of tapered teeth A are connected on worm screw Equipped with mobile mechanism B；

The runner assembly includes turbine, motor C and connecting plate, and the turbine engagement is connected to worm screw, connects on turbine There is the motor shaft of motor C, motor C is connected to one end of connecting plate, and the other end of connecting plate is connected to by ball bearing On telescopic rod.

The mobile mechanism A includes tapered teeth B, screw rod and sliding block, is connected with screw rod on the tapered teeth B, on screw rod Sliding block is slidably connected, contact mechanism A is connected on sliding block, contact mechanism A includes terminal A and contact A, the terminal A peace On sliding block, the front of terminal A is equipped with contact A, and contact A is connected to control mechanism by conducting wire.

The mobile mechanism B includes tapered teeth B, screw rod and sliding block, is connected with screw rod on the tapered teeth B, on screw rod Sliding block is slidably connected, contact mechanism B is connected on sliding block, contact mechanism B includes terminal B and contact B, the terminal B peace On sliding block, the front of terminal B is equipped with contact B, and contact B is connected to control mechanism by conducting wire.

The centrifugal mechanism includes shell, sieve sap cavity, cylinder B, filter screen, stir chamber, circular knife, observation window and liquid out Mouthful, the shell is mounted on mobile jib, and sieve sap cavity is equipped in the middle part of shell, and it sieves and is set in sap cavity there are four cylinder B, four B pairs of cylinder Title is mounted on the inner wall of shell, and the piston rod of two of them cylinder B is connected to one of filter screen, other two cylinder B Piston rod be connected to another filter screen, two filter screens are in symmetrical connection relationship, be equipped with stir chamber between two filter screens, Circular knife is equipped in stir chamber, circular knife is mounted on mobile jib, and the cover top portion is equipped with observation window, and outer casing bottom is equipped with liquid Mouthful.

The material extrusion mechanism includes circulation passage and charger, and one end of the circulation passage is connected to across mobile jib to be stirred Chamber is mixed, the other end of circulation passage is connected to charger.

The control mechanism includes receiver, signal adapter, reservoir, data comparison device and controller, described to connect It receives device and signal adapter is connected to by conducting wire, signal adapter is connected to reservoir by conducting wire, and reservoir is connected by conducting wire It is connected to data comparison device, data comparison device is connected to controller by conducting wire.

The receiver is connected to contact A and contact B by conducting wire, and the controller is connected to motor by conducting wire A, motor B, motor C, cylinder A, cylinder B and charger.

The present invention provides a kind of centrifuges that waste mineral oil preprocessing process uses, and can be switched fast feed mode Or discharging mode, and then quickly discharging material can be carried out to the solid of the waste mineral oil in filter screen, do not need staff's progress Excessive manual operation step, discharging are convenient, and the degree of automation is higher, suitable for the pre- of today's needs superfast loading and discharging In processing mode.

Detailed description of the invention

Fig. 1 is the structural schematic diagram for the centrifuge that waste mineral oil preprocessing process of the present invention uses；

Fig. 2 is that the structure that the elevating mechanism for the centrifuge that waste mineral oil preprocessing process of the present invention uses is connect with switching mechanism is shown It is intended to；

Fig. 3 is the partial enlarged view at the A of Fig. 1；

Fig. 4 is the partial enlarged view at the B of Fig. 1.

Specific embodiment

As shown in Figs 1-4, a kind of centrifuge that waste mineral oil preprocessing process uses, including rack 1, driving mechanism, guarantor Protective case 301, elevating mechanism, switching mechanism, connection frame 11, mobile mechanism A, mobile mechanism B, contact mechanism A, contact mechanism B, from Concentric mechanism, 902 structure of charger and control mechanism, driving mechanism is connected in the rack 1, and driving mechanism passes through protective shell 301 are connected to 902 structure of centrifugal mechanism and charger, are equipped with elevating mechanism and switching mechanism in the protective shell 301, protect Mobile mechanism A and mobile mechanism B is symmetrically connected with by connection frame 11 outside protective case 301, the mobile mechanism A, which is connected with, to be connect Have a sudden inspiration structure A, and the mobile mechanism B is connected with contact mechanism B, the control mechanism by conducting wire be connected to driving mechanism, Elevating mechanism, switching mechanism, contact mechanism A, 902 structure of contact mechanism B, centrifugal mechanism and charger.

The driving mechanism includes motor A201, driving wheel 202, driven wheel 203 and mobile jib 204, the motor The motor shaft of A201 is connected to driving wheel 202, and driving wheel 202 is connected to driven wheel 203 by transmission belt, and driven wheel 203 connects In one end of mobile jib 204, the other end of mobile jib 204 is connected to rack 1.

The elevating mechanism includes motor B302, pulley 303, sliding rail 304 and mounting rack 305, the motor The motor shaft of B302 is connected to pulley 303, and pulley 303 is slidably connected on sliding rail 304, and sliding rail 304 is mounted on protective shell 301 Interior, the pulley 303 is connected to switching mechanism by strut.

The switching mechanism includes releasing component, changeover module A, changeover module B and runner assembly, the release component Front is equipped with runner assembly, is symmetrically connected with changeover module A and changeover module B on runner assembly；

The release component includes cylinder A401 and push plate 402, and the cylinder A401 is connected to pulley 303, gas by strut The piston rod of cylinder A401 is connected to push plate 402；

The changeover module A includes movable plate 403, telescopic rod 404, spring 405, worm screw 406 and tapered teeth A407, the shifting Movable plate 403 is connected to one end of telescopic rod 404, and the other end of telescopic rod 404 passes through spring 405 and is connected to worm screw 406, worm screw Tapered teeth A407 is connected on 406, the front of tapered teeth A407 is equipped with mobile mechanism A；

The changeover module B includes movable plate 403, telescopic rod 404, spring 405, worm screw 406 and tapered teeth A407, the shifting Movable plate 403 is connected to one end of telescopic rod 404, and the other end of telescopic rod 404 passes through spring 405 and is connected to worm screw 406, worm screw Tapered teeth A407 is connected on 406, the front of tapered teeth A407 is equipped with mobile mechanism B；

The runner assembly includes turbine 408, motor C409 and connecting plate 410, and the engagement of turbine 408 is connected to worm screw 406, the motor shaft of motor C409 is connected on turbine 408, motor C409 is connected to one end of connecting plate 410, connecting plate 410 other end is connected on telescopic rod 404 by ball bearing.

The mobile mechanism A includes tapered teeth B501, screw rod 502 and sliding block 503, is connected on the tapered teeth B501 Screw rod 502 slidably connects sliding block 503 on screw rod 502, contact mechanism A is connected on sliding block 503, contact mechanism A includes terminal A601 and contact A 602, the terminal A601 are mounted on sliding block 503, and the front of terminal A601 is equipped with contact A 602, touching Point A602 is connected to control mechanism by conducting wire.

The mobile mechanism B includes tapered teeth B501, screw rod 502 and sliding block 503, is connected on the tapered teeth B501 Screw rod 502 slidably connects sliding block 503 on screw rod 502, contact mechanism B is connected on sliding block 503, contact mechanism B includes terminal B701 and contact B702, the terminal B701 are mounted on sliding block 503, and the front of terminal B701 is equipped with contact B702, touching Point B702 is connected to control mechanism by conducting wire.

The centrifugal mechanism includes shell 801, sieve sap cavity 802, cylinder B803, filter screen 804, stir chamber 805, circular knife 806, observation window 807 and liquid outlet 808, the shell 801 are mounted on mobile jib 204, and sieve sap cavity is equipped in the middle part of shell 801 802, cylinder B803 there are four setting in sap cavity 802 is sieved, four cylinder B803 are symmetrically mounted on the inner wall of shell 801, wherein two The piston rod of a cylinder B803 is connected to one of filter screen 804, in addition the piston rod of other two cylinder B803 is connected to One filter screen 804, two filter screens 804 are in symmetrical connection relationship, are equipped with stir chamber 805, stir chamber between two filter screens 804 Circular knife 806 is equipped in 805, circular knife 806 is mounted on mobile jib 204, and observation window 807, shell are equipped at the top of the shell 801 801 bottoms are equipped with liquid outlet 808.

The material extrusion mechanism includes circulation passage 901 and charger 902, and one end of the circulation passage 901 passes through master Bar 204 is connected to stir chamber 805, and the other end of circulation passage 901 is connected to charger 902.

The control mechanism include receiver 1001, signal adapter 1002, reservoir 1003, data comparison device 1004 with And controller 1005, the receiver 1001 are connected to signal adapter 1002 by conducting wire, signal adapter 1002 is by leading Line is connected to reservoir 1003, and reservoir 1003 is connected to data comparison device 1004 by conducting wire, and data comparison device 1004 passes through Conducting wire is connected to controller 1005.

The receiver 1001 is connected to contact A 602 and contact B702 by conducting wire, and the controller 1005 is by leading Line is connected to motor A201, motor B302, motor C409, cylinder A401, cylinder B803 and charger 902.

Specific embodiment is as follows: during use, when staff needs to carry out centrifugally operated to waste mineral oil When, the starting of motor B302 is controlled by controller 1005, passes through the rotation drive of the motor shaft of motor B302 and its The pulley 303 of connection is moved along the length direction of sliding rail 304, at this moment, is connect by the mobile drive of pulley 303 with by strut Cylinder A401 move up and down, the upper and lower of the push plate 402 connecting with its piston rod is driven by moving up and down for cylinder A401 Mobile, when push plate 402 is moved to the movable plate 403 of changeover module A in horizontal position, controller 1005 controls cylinder immediately The starting of A401 is displaced outwardly by the piston rod of cylinder A401 and drives being displaced outwardly for push plate 402 connected to it, by pushing away Plate 402 pushes the movable plate 403 being in contact with it mobile, passes through the mobile drive of movable plate 403 telescopic rod 404 connected to it It is mobile, by the movement of the mobile drive of telescopic rod 404 worm screw 406 connected to it, and by the mobile drive of worm screw 406 with The movement of its tapered teeth A407 connected, until tapered teeth A407 is engaged with the tapered teeth B501 of horizontal mobile mechanism A, this When, controller 1005 controls the starting of motor C409 immediately, is driven by the rotation of the motor shaft of motor C409 and is connected with it The rotation of the turbine 408 connect is driven the rotation of the worm screw 406 engaged by the rotation of turbine 408, passes through worm screw 406 Rotation drives the rotation of tapered teeth A407 connected to it, engages the tapered of connection by the rotation drive of tapered teeth A407 The rotation of tooth B501 drives the rotation of screw rod 502 connected to it by the rotation of tapered teeth B501, passes through turning for screw rod 502 It is dynamic that sliding block 503 connected to it is driven to move along the length direction of screw rod 502, until 503 upper terminal A601 of sliding block and its just before The contact A 602 of side contacts, and contact A 602 gives receiver 1,001 1 activation signal A immediately, and receiver 1001 can be by the contact Signal A is transferred in signal adapter 1002, by signal adapter 1002 by activation signal A be converted into electric signal and by its It is transferred in reservoir 1003, by reservoir 1003 by the electricity for being converted into activation signal A from signal adapter 1002 It signal and is previously stored in 1003 enabling signal A of reservoir and compares, when comparing consistent, controlled immediately by controller 1005 The starting of charger 902 processed, at this moment, waste mineral oil enters in circulation passage 901 from charger 902, passes through circulation passage 901 Directly it is circulated in stir chamber 805, meanwhile, the piston rod that controller 1005 also controls cylinder B803 is all displaced outwardly, and with The filter screen 804 of the piston rod connection of cylinder B803 fits closely immediately, while controller 1005 controls opening for motor A201 It is dynamic, the rotation of driving wheel 202 connected to it is driven by the rotation of the motor shaft of motor A201, passes through driving wheel 202 Rotation drives the rotation with it by the driven wheel 203 of transmission band connection, is connected thereto by the rotation drive of driven wheel 203 Mobile jib 204 rotation, driven with the circular knife 806 connecting by the rotation of mobile jib 204 to the waste mineral oil in stir chamber 805 Work is centrifuged, the liquid substance of waste mineral oil can be thrown away by filter screen 804 in sieve sap cavity 802, finally from out Liquid mouth 808 flows out, and at this moment, staff can be from the processing feelings inside the real-time observation period of observation window 807 at 801 top of shell Condition；

When staff thinks that the solid of waste mineral oil and liquid separation finish, the solid of waste mineral oil can have filter screen Between 804, at this moment, staff controls the starting of motor B302 again by controller 1005, passes through the electricity of motor B302 The rotation of arbor drives pulley 303 connected to it to move along the length direction of sliding rail 304, at this moment, passes through the movement of pulley 303 Moving up and down for the cylinder A401 connecting with by strut is driven, is connected by the drive that moves up and down of cylinder A401 with its piston rod The push plate 402 connect moves up and down, when push plate 402 is moved to the movable plate 403 of changeover module B in horizontal position, control Device 1005 controls the starting of cylinder A401 immediately, is displaced outwardly by the piston rod of cylinder A401 and drives push plate connected to it 402 be displaced outwardly, pushes the movable plate 403 being in contact with it mobile, passes through the mobile drive of movable plate 403 by push plate 402 The movement of telescopic rod 404 connected to it by the movement of the mobile drive of telescopic rod 404 worm screw 406 connected to it, and is led to The movement of the mobile drive tapered teeth A407 connected to it of worm screw 406 is crossed, until tapered teeth A407 and horizontal mobile mechanism B Tapered teeth B501 engagement, at this moment, controller 1005 controls the starting of motor C409 immediately, passes through the motor of motor C409 The rotation of axis drives the rotation of turbine 408 connected to it, drives the worm screw 406 engaged by the rotation of turbine 408 Rotation drives the rotation of tapered teeth A407 connected to it by the rotation of worm screw 406, is driven by the rotation of tapered teeth A407 The rotation for engaging the tapered teeth B501 of connection drives turning for screw rod 502 connected to it by the rotation of tapered teeth B501 It is dynamic, drive sliding block 503 connected to it to move along the length direction of screw rod 502 by the rotation of screw rod 502, until sliding block 503 Upper terminal B701 is contacted with the contact B702 immediately ahead of it, and contact B702 gives receiver 1,001 1 activation signal B immediately, is connect Receiving device 1001 can be transferred to activation signal B in signal adapter 1002, by signal adapter 1002 by activation signal B It is converted into electric signal and is transmitted in reservoir 1003, this is connect to this from signal adapter 1002 by reservoir 1003 It the electric signal that is converted into of touching signal B and is previously stored in 1003 enabling signal B of reservoir and compares, when comparing consistent, with Motor A201, motor B302, motor C409, cylinder A401 and charger 902 are controlled by controller 1005 It closes, while starting cylinder B803, moved by the piston rod of cylinder B803 into cylinder B803, at this moment between filter screen 804 The solid of waste mineral oil goes out from falling to liquid outlet 808 between filter screen 804 immediately, and then is discharged from liquid outlet 808, can be fast Fast feed switched mode or discharging mode, and then quickly discharging material can be carried out to the solid of the waste mineral oil in filter screen 804, no Staff is needed to carry out excessive manual operation step, discharging is convenient, and the degree of automation is higher, and it is fast to be suitable for today's needs In quick-mounting material and the pretreatment processing method of discharging.

The above embodiments are only the preferred technical solution of the present invention, and are not construed as limitation of the invention, this hair Bright protection scope should be with the technical solution of claim record, technical characteristic in the technical solution recorded including claim Equivalents are protection scope.Equivalent replacement i.e. within this range is improved, also within protection scope of the present invention.

Claims (10)

1. a kind of centrifuge that waste mineral oil preprocessing process uses, it is characterised in that: including rack, driving mechanism, protective shell, Elevating mechanism, switching mechanism, connection frame, mobile mechanism A, mobile mechanism B, contact mechanism A, contact mechanism B, centrifugal mechanism, into Expect mechanism and control mechanism, driving mechanism is connected in the rack, driving mechanism passes through protective shell and is connected to centrifugal mechanism And feeding mechanism, elevating mechanism and switching mechanism be installed in the protective shell, it is symmetrical by connection frame outside protective shell It is connected with mobile mechanism A and mobile mechanism B, the mobile mechanism A is connected with contact mechanism A, and the mobile mechanism B is connected with Contact mechanism B, the control mechanism by conducting wire be connected to driving mechanism, elevating mechanism, switching mechanism, contact mechanism A, Contact mechanism B, centrifugal mechanism and feeding mechanism.

2. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the driving machine Structure includes motor A, driving wheel, driven wheel and mobile jib, and the motor shaft of the motor A is connected to driving wheel, and driving wheel is logical It crosses transmission belt and is connected to driven wheel, driven wheel is connected to one end of mobile jib, and the other end of mobile jib is connected to rack.

3. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the elevator Structure includes motor B, pulley, sliding rail and mounting rack, and the motor shaft of the motor B is connected to pulley, and pulley is slidably connected In on sliding rail, sliding rail is mounted in protective shell, and the pulley is connected to switching mechanism by strut.

4. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the switching machine Structure includes releasing component, changeover module A, changeover module B and runner assembly, is equipped with rotating group immediately ahead of the release component Part is symmetrically connected with changeover module A and changeover module B on runner assembly；

The release component includes cylinder A and push plate, and the cylinder A is connected to pulley by strut, and the piston rod of cylinder A connects It is connected to push plate；

The changeover module A includes that movable plate, telescopic rod, spring, worm screw and tapered teeth A, the movable plate are connected to flexible One end of bar, the other end of telescopic rod pass through spring and are connected to worm screw, and tapered teeth A, the front of tapered teeth A are connected on worm screw Equipped with mobile mechanism A；

The changeover module B includes that movable plate, telescopic rod, spring, worm screw and tapered teeth A, the movable plate are connected to flexible One end of bar, the other end of telescopic rod pass through spring and are connected to worm screw, and tapered teeth A, the front of tapered teeth A are connected on worm screw Equipped with mobile mechanism B；

The runner assembly includes turbine, motor C and connecting plate, and the turbine engagement is connected to worm screw, connects on turbine There is the motor shaft of motor C, motor C is connected to one end of connecting plate, and the other end of connecting plate is connected to by ball bearing On telescopic rod.

5. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the moving machine Structure A includes tapered teeth B, screw rod and sliding block, and screw rod is connected on the tapered teeth B, sliding block, sliding block are slidably connected on screw rod On be connected with contact mechanism A, contact mechanism A includes terminal A and contact A, and the terminal A is mounted on sliding block, and terminal A is just Front is equipped with contact A, and contact A is connected to control mechanism by conducting wire.

6. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the moving machine Structure B includes tapered teeth B, screw rod and sliding block, and screw rod is connected on the tapered teeth B, sliding block, sliding block are slidably connected on screw rod On be connected with contact mechanism B, contact mechanism B includes terminal B and contact B, and the terminal B is mounted on sliding block, and terminal B is just Front is equipped with contact B, and contact B is connected to control mechanism by conducting wire.

7. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the centrifuge Structure includes that shell, sieve sap cavity, cylinder B, filter screen, stir chamber, circular knife, observation window and liquid outlet, the shell are mounted on It is equipped with sieve sap cavity on mobile jib, in the middle part of shell, sieves cylinder B there are four setting in sap cavity, four cylinder B are symmetrically mounted on the inner wall of shell On, the piston rod of two of them cylinder B is connected to one of filter screen, in addition the piston rod of other two cylinder B is connected to One filter screen, two filter screens are in symmetrical connection relationship, and stir chamber is equipped between two filter screens, is equipped with spiral in stir chamber Knife, circular knife are mounted on mobile jib, and the cover top portion is equipped with observation window, and outer casing bottom is equipped with liquid outlet.

8. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the material-extruding machine Structure includes circulation passage and charger, and one end of the circulation passage passes through mobile jib and is connected to stir chamber, circulation passage it is another One end is connected to charger.

9. the centrifuge that waste mineral oil preprocessing process according to claim 1 uses, it is characterised in that: the control machine Structure includes receiver, signal adapter, reservoir, data comparison device and controller, and the receiver is connected to by conducting wire Signal adapter, signal adapter are connected to reservoir by conducting wire, and reservoir is connected to data comparison device, data by conducting wire Contrast device is connected to controller by conducting wire.

10. the centrifuge that waste mineral oil preprocessing process according to claim 9 uses, it is characterised in that: the reception Device is connected to contact A and contact B by conducting wire, and the controller is connected to motor A, motor B, motor by conducting wire C, cylinder A, cylinder B and charger.