CN108745879A - A kind of direction vibration driving method for filtering - Google Patents

Abstract

A kind of direction vibration driving method for filtering,Direction vibration filtering is implemented using direction vibration output filtering device,Direction vibration output filtering device includes the left vibration filtering mechanism for being symmetrically mounted on driving mechanism both sides and right vibration filtering mechanism,Driving mechanism uses the mixed drive of hydraulic-driven and Mechanical Driven,Left vibration filtering mechanism is driven to carry out vibration filtering with right vibration filtering mechanism,Driving mechanism uses the mixed drive of hydraulic-driven and Mechanical Driven,Left vibration filtering mechanism is driven to carry out vibration filtering with right vibration filtering mechanism,When double vibration filtering output driving devices, which are in, accelerates driving,It is driven using hydraulic stepless speed change,Output driving rotating speed is gradually increased from low-speed big,When reaching constant duty rotating speed,It uses Mechanical Driven instead and maintains rotating speed,The needs for meeting special operation condition simultaneously,The requirement to mechanical transmission performance can be reduced again；And by direction vibration, under the premise of realizing energy conservation object, operating efficiency is improved.

Description

A kind of direction vibration driving method for filtering

Technical field

The present invention relates to screening plant technical field more particularly to a kind of direction vibration driving methods for filtering.

Background technology

Stirring currently used for mud, drift sand, mortar etc. and vibrative filter, roller build are huge along with prepackage The processed material of load causes the inertia of entire roller very big, is rotated to the rotating speed of job state from stationary state driving, need to be short It completes to need greatly driving torsional moment and power in time, and in the process, greatly load is to mechanically operated performance It is required that it is high, while frequent startup and positive and negative rotation, it certainly will will aggravate mechanical wear；It is special to meet to design a set of transmission system The needs of operating mode, and the requirement to mechanical transmission performance can be reduced, have become technical problem urgently to be resolved hurrily.

Invention content

Technical problem solved by the invention is to provide a kind of direction vibration driving method for filtering, in solution State the disadvantage in background technology.

Technical problem solved by the invention is realized using following technical scheme：

A kind of direction vibration driving method for filtering implements direction vibration mistake using direction vibration output filtering device Filter, when the driving mechanism of direction vibration output filtering device is accelerated using hydraulic-driven, peripheral operation is also turned on driving the The 5th gear of one spline housing and driving first gear, the second spline housing of driving and driving, driving wheel for inputting is by driving first axle Driving the first spline housing driving driving first gear rotation, driving first gear and driving second gear engaged transmission are driven, is moved Power exports after the machine liquid of energy transfer mechanism, the secondary exchange of liquid machine, and by driving the 6th gear to be engaged with the 5th gear of driving Transmission output, the 5th gear of driving are final to drive driving defeated by driving the second spline housing to drive driving third axis rotary drive Go out the rotation of wheel drive roller, mechanical driving part is in idle state in the process；When roller is accelerated to constant speed, The second spline housing uplink of the first spline housing of driving and driving is manipulated simultaneously, until the first spline housing of driving is engaged with driving sun gear Transmission, the second spline housing of driving and driving the 4th gear engaged transmission, driving wheel for inputting is by driving first axle to drive driving the The driving driving sun gear rotation of one spline housing, driving sun gear and driving planetary gear engaged transmission, power is through driving planet stent It is exported after drive driving the second axis driving driving third gear, and by driving third gear and drives the 4th gear engaged transmission, Drive the 4th gear by driving the second spline housing to drive driving third axis rotary drive, it is final to drive driving output wheel drive rolling Cylinder rotation, in the process hydraulic drive are partially in idle state；

At the same time, the driving bevel gear being mounted in driving first axle bores tooth with right vibration bevel gear, left vibration simultaneously Wheel engagement；

Left vibration bevel gear drives left vibration second driving shaft rotation, left vibration second driving shaft to drive left vibration sun gear Rotation, left vibration sun gear drive left vibration planetary carrier to rotate by left vibration planetary gear, and left vibration planetary carrier is logical It crosses left vibration third transmission shaft while the second sprocket wheel of left vibration and the eccentric disc spins of left vibration, left vibration eccentric disc being driven to pass through a left side Vibrating the second eccentric pin shaft drives the left vertical groove body of vibration of the left vertical ball drive of vibration to swing, to drive left vibrating screen Body does reciprocally swinging, and the second sprocket wheel of left vibration is rotated by left vibration chain-driving the first sprocket wheel of left vibration, the first chain of left vibration Wheel drives left vibration eccentric rod rotation, left vibration eccentric rod to drive a left side to shake by left vibration rod by the first transmission shaft of left vibration Shake bar and do reciprocating swing, left vibration rocking bar drives the lateral groove body of left vibration by left vibration transverse bar and the lateral cylinder of left vibration It is shaken up and down with left vibration sieve nest；Sand substance was completed after being shaken above and below the lateral groove body of left vibration and left vibration sieve nest Filter output；

Right vibration bevel gear drives right vibration second driving shaft rotation, right vibration second driving shaft to drive right vibration sun gear Rotation, right vibration sun gear drive right vibration planetary carrier to rotate by right vibration planetary gear, and right vibration planetary carrier is logical It crosses right vibration third transmission shaft while the second sprocket wheel of right vibration and the eccentric disc spins of right vibration, right vibration eccentric disc being driven to pass through the right side Vibrating the second eccentric pin shaft drives the right vertical groove body of vibration of the right vertical ball drive of vibration to swing, to drive right vibrating screen Body does reciprocally swinging, and the second sprocket wheel of right vibration is rotated by right vibration chain-driving the first sprocket wheel of right vibration, the first chain of right vibration Wheel drives right vibration eccentric rod rotation, right vibration eccentric rod to drive the right side to shake by right vibration rod by the first transmission shaft of right vibration Shake bar and do reciprocating swing, right vibration rocking bar drives the lateral groove body of right vibration by right vibration transverse bar and the lateral cylinder of right vibration It is shaken up and down with right vibration sieve nest；Sand substance was completed after being shaken above and below the lateral groove body of right vibration and right vibration sieve nest Filter output；

The direction vibration output filtering device include be symmetrically mounted on the left vibration filtering mechanisms of driving mechanism both sides with Right vibration filtering mechanism, driving mechanism use hydraulic-driven and Mechanical Driven mixed drive, drive left vibration filtering mechanism with Right vibration filtering mechanism carries out vibration filtering, when double vibration filtering output driving devices, which are in, accelerates driving, using hydraulic pressure without Grade variable speed drives, output driving rotating speed is gradually increased from low-speed big, when reaching constant duty rotating speed, uses Mechanical Driven instead Rotating speed is maintained, to improve transmission efficiency, concrete structure is as follows：

In driving mechanism, driving first axle one end is mounted in driving first support, and the driving first axle other end is mounted on Drive in second support, driving bevel gear and the setting of driving wheel for inputting in driving first axle one end, the driving first axle other end from Sliding sleeve drives and is set on the first spline housing equipped with driving sun gear, the first spline housing of driving, driving first gear top to bottm successively It is equipped in the level-one of the level-one internal spline being driven with driving first axle external splines cooperation and driving sun gear external splines engaged transmission Internal spline is made with internal spline, the first spline housing of driving under the level-one of driving first gear external splines engaged transmission in external control It can slide axially along driving first axle under, position gradually glides process in driving the first spline housing to be detached from by external control In, spline and driving first gear external splines engaged transmission under the level-one of the first spline housing are driven, drives first axle to pass through at this time It drives the first spline housing that driving first gear is driven to rotate in a circumferential direction transmission, and the opposite driving sun gear of first axle is driven to be in circumferentially Idling conditions；During position is gradually above slided in driving the first spline housing to be detached from by external control, the first spline housing of driving Level-one upper spline and driving sun gear external splines engaged transmission, drive first axle by driving the first spline housing to drive driving at this time Sun gear rotates in a circumferential direction transmission, and the opposite driving first gear of first axle is driven to be in circumferential idling conditions；

Driving second gear, driving second gear and the first tooth of driving are provided on the power input shaft of energy transfer mechanism Wheel engaged transmission, is provided with the 6th gear of driving on the power output shaft of energy transfer mechanism, the 6th gear of driving and driving the Five gears engaged transmission, energy transfer mechanism convert after hydraulic energy mechanical energy to and again export hydraulic energy transfer for mechanical energy, It can be exported with lower rotating speed and high torsional moment in this conversion process, and be exported for variable speed；Drive planetary gear edge Drive sun gear circumferentially uniformly distributed, driving planetary gear periphery is provided with driving ring gear, driving planetary gear simultaneously with driving sun gear, Ring gear is driven to engage deceleration transmission, driving planetary gear is rotatably provided on driving planet stent, and driving planetary gear passes through drive Dynamic planet stent circumferentially limits, and drives planetary gear in driving sun gear and drive and drive driving row under the collective effect of ring gear Prong frame rotary drive；Drive the setting of the second axis on driving third holder, the second axis lower end of driving is returned with driving planet stent Turn center key drive connection, the second axis upper end of driving is provided with driving third gear, driving third gear and the 4th gear of driving Engaged transmission；

Third axis one end is driven to be mounted on the 4th holder of driving, the driving third axis other end is mounted on the 5th holder of driving On, drive the 4th holder and drive on the driving third axis between the 5th holder from top to bottom successively sliding sleeve equipped with driving the Four gears, the second spline housing of driving, the 5th gear of driving, driving third axis upper end are provided with driving output wheel, drive third axis Drive driving output wheel rotary drive；It drives the 5th gears slip to be sleeved on driving third axis, drives and set on the second spline housing It is equipped with the two level with the two level internal spline of driving third axis external splines cooperation transmission, with the 4th gear external splines engaged transmission of driving Upper internal spline passes through with internal spline, the second spline housing of driving under the two level of the 5th gear external splines engaged transmission of driving in two level Spline is driven with the external splines cooperation on driving third axis, and the second spline housing of driving can be along driving third under external control action Axis slides axially；During position gradually glides in driving the second spline housing to be detached from by external control, the second spline housing is driven Two level under spline and the 5th gear external splines engaged transmission of driving, drive the 5th gear to pass through at this time and drive the second spline housing band Dynamic driving third axis rotates in a circumferential direction transmission, and third axis the 4th gear of opposite driving is driven to be in circumferential direction idling conditions；Work as driving During position is gradually above slided during second spline housing is detached from by external control, two level upper spline and the driving of the second spline housing are driven 4th gear external splines engaged transmission, drives the 4th gear by driving the second spline housing that driving third axis is driven circumferentially to revolve at this time Turn transmission, and third axis the 5th gear of opposite driving is driven to be in circumferential idling conditions；

In left vibration filtering mechanism, first transmission shaft one end of left vibration is arranged on left vibration third support base, left vibration The first transmission shaft other end is arranged on the second support base of left vibration, and the first sprocket wheel of left vibration is arranged in the first transmission shaft of left vibration One end, the first transmission shaft other end of left vibration are provided with left vibration eccentric rod；Left vibration second driving shaft one end is provided with a left side and shakes Dynamic bevel gear, the left vibration second driving shaft other end are provided with left vibration sun gear, are mounted in the middle part of left vibration second driving shaft In the 5th support base of left vibration, left vibration bevel gear and driving bevel gear engaged transmission, left vibration planetary gear is along the left vibration sun Wheel is circumferential uniformly distributed, and left vibration planetary gear is rotatably provided on left vibration planetary carrier, passes through left vibration planetary carrier Mutual alignment is limited, left vibration planetary gear periphery is provided with left vibration gear ring, encloses and is provided with and left vibration in left vibration gear ring The left straight-tooth circle of planetary gear engagement, left vibration gear ring periphery are provided with the left worm gear engaged with left vibration worm screw control mechanism worm screw Gear ring；Left vibration third transmission shaft one end is arranged on left vibration four-supporting, left vibration third transmission shaft other end setting On the 6th support base of left vibration, the second sprocket wheel of left vibration is arranged in the middle part of left vibration third transmission shaft, left vibration third transmission Axis one end is connect with left vibration planetary carrier, and the left vibration third transmission shaft other end is provided with left vibration eccentric disc, left vibration Eccentric setting has the second eccentric pin shaft of left vibration, second eccentric pin shaft one end of left vibration to be provided with the left vertical ball of vibration on eccentric disc Body, the left vertical sphere of vibration is connected with the left vertical groove body of vibration, between the second sprocket wheel of the first sprocket wheel of left vibration and left vibration It is connected and is driven by left vibration chain；Left vibration sieve pore is evenly equipped on left vibration sieve nest, left vibration sieve nest discharge end is provided with a left side Sieve nest deflector is used to support on the holder of left vibration filtering mechanism and is provided with left vibration globe hinge support seat, and in left vibrating screen Body corresponding position is provided with left vibrating screen ball hinge, passes through left vibration between left vibrating screen ball hinge and left vibration globe hinge support seat The connection support of flexural pivot connecting rod is sieved, the lateral groove body of left vibration, left vibration rocking bar middle part are provided with below left vibration sieve nest discharge end It is rotatably mounted on the first support base of left vibration, left vibration rocking bar one end passes through the second axis pin of left vibration and left vibration rod one End flexible connection, the left vibration rod other end are flexibly connected by left first eccentric pin shaft with left vibration eccentric rod, and left vibration is shaken The bar other end is connect with left vibration transverse bar one end flexural pivot, and the left vibration transverse bar other end is fixed with the lateral cylinder of left vibration to be connected It connects, the lateral cylinder of left vibration is connected with the lateral groove body of left vibration；

In right vibration filtering mechanism, first transmission shaft one end of right vibration is arranged on right vibration third support base, right vibration First transmission shaft one end is arranged on the second support base of right vibration, and the first sprocket wheel of right vibration is arranged in the first transmission shaft one of right vibration End, the first transmission shaft other end of right vibration are provided with right vibration eccentric rod；Right vibration second driving shaft one end is provided with right vibration Bevel gear, the right vibration second driving shaft other end are provided with right vibration sun gear, the right side are mounted in the middle part of right vibration second driving shaft It vibrates in the 5th support base, right vibration bevel gear and driving bevel gear engaged transmission, right vibration planetary gear is along right vibration sun gear It is circumferential uniformly distributed, and right vibration planetary gear is rotatably provided on right vibration planetary carrier, is limited by right vibration planetary carrier Determine mutual alignment, right vibration planetary gear periphery is provided with right vibration gear ring, encloses to be provided in right vibration gear ring and go with right vibration The right straight-tooth circle of star-wheel engagement, right vibration gear ring periphery are provided with the right worm-gear toothing engaged with right vibration worm screw control mechanism worm screw Circle, right vibration third transmission shaft one end are arranged on right vibration four-supporting, and right vibration third transmission shaft other end setting exists On the 6th support base of right vibration, the second sprocket wheel of right vibration is arranged in the middle part of right vibration third transmission shaft, right vibration third transmission shaft One end is connect with right vibration planetary carrier, and the right vibration third transmission shaft other end is provided with right vibration eccentric disc, and right vibration is inclined Eccentric setting has the second eccentric pin shaft of right vibration on cartridge, and second eccentric pin shaft one end of right vibration is provided with the right vertical ball of vibration Body, the right vertical sphere of vibration is connected with the right vertical groove body of vibration, between the second sprocket wheel of the first sprocket wheel of right vibration and right vibration It is connected and is driven by right vibration chain；Right vibration sieve pore is evenly equipped on right vibration sieve nest, right vibration sieve nest discharge end is provided with the right side Sieve nest deflector is used to support on the holder of right vibration filtering mechanism and is provided with right vibration globe hinge support seat, and in right vibrating screen Body corresponding position is provided with right vibrating screen ball hinge, passes through right vibration between right vibrating screen ball hinge and right vibration globe hinge support seat The connection support of flexural pivot connecting rod is sieved, the lateral groove body of right vibration, right vibration rocking bar middle part are provided with below right vibration sieve nest discharge end It is rotatably mounted on the first support base of right vibration, right vibration rocking bar one end passes through the second axis pin of right vibration and right vibration rod one End flexible connection, the right vibration rod other end are flexibly connected by right first eccentric pin shaft with right vibration eccentric rod, and right vibration is shaken The bar other end is connect with right vibration transverse bar one end flexural pivot, and the right vibration transverse bar other end is fixed with the lateral cylinder of right vibration to be connected It connects, the lateral cylinder of right vibration is connected with the lateral groove body of right vibration.

In the present invention, driving first gear is located at driving second support side.

In the present invention, driving bevel gear is located between driving first support and driving second support.

In the present invention, driving wheel for inputting is located at driving first support side.

In the present invention, the first spline housing of driving is located between driving first gear and driving sun gear.

In the present invention, the second spline housing of driving is located between the 5th gear of the 4th gear of driving and driving.

In the present invention, driving third holder is located between driving planet stent and driving third gear.

In the present invention, driving output wheel is arranged on the driving third axis on the upside of the 4th holder of driving.

In the present invention, the second sprocket wheel of left vibration is between the 6th support base of left vibration four-supporting and left vibration.

In the present invention, the left vertical groove body of vibration is arranged in the middle part of left vibration sieve nest one end.

In the present invention, the second sprocket wheel of right vibration is between the 6th support base of right vibration four-supporting and right vibration.

In the present invention, the right vertical groove body of vibration is arranged in the middle part of right vibration sieve nest one end.

Advantageous effect：The present invention implements direction vibration filtering, direction vibration output using direction vibration output filtering device The driving mechanism of filter device uses the mixed drive of hydraulic-driven and Mechanical Driven, drives left vibration filtering mechanism and right vibration Filter mechanism carries out vibration filtering, when double vibration filtering output driving devices, which are in, accelerates driving, using hydraulic stepless speed change Driving, output driving rotating speed is gradually increased from low-speed big, when reaching constant duty rotating speed, is used Mechanical Driven instead and is maintained to turn Speed, the needs for meeting special operation condition simultaneously, and the requirement to mechanical transmission performance can be reduced；And by direction vibration, Under the premise of realizing energy conservation object, operating efficiency is improved.

Description of the drawings

Fig. 1 is the structural schematic diagram of presently preferred embodiments of the present invention.

Fig. 2 is the driving mechanism structure schematic diagram in presently preferred embodiments of the present invention.

Fig. 3 is the left vibration filtering mechanism right view in presently preferred embodiments of the present invention.

Fig. 4 is the right vibration filtering mechanism left view in presently preferred embodiments of the present invention.

Specific implementation mode

In order to make the technical means, the creative features, the aims and the efficiencies achieved by the present invention be easy to understand, tie below Conjunction is specifically illustrating, and the present invention is further explained.

Referring to a kind of direction vibration driving method for filtering of Fig. 1~Fig. 4, using direction vibration output filtering device Implement direction vibration filtering, direction vibration output filtering device includes the left vibration filtering for being symmetrically mounted on 1 both sides of driving mechanism Mechanism 3 and right vibration filtering mechanism 2, driving mechanism 1 are driven left vibrated using the mixed drive of hydraulic-driven and Mechanical Driven Filter structure 3 carries out vibration filtering with right vibration filtering mechanism 2, when double vibration filtering output driving devices, which are in, accelerates driving, It is driven using hydraulic stepless speed change, output driving rotating speed is gradually increased from low-speed big, when reaching constant duty rotating speed, changed Rotating speed is maintained with Mechanical Driven, to improve transmission efficiency, concrete structure is as follows：

Driving mechanism 1 includes driving wheel for inputting 1-1, driving first support 1-2, driving bevel gear 1-3, driving second support 1-4, driving first axle 1-5, driving first gear 1-6, driving second gear 1-7, energy transfer mechanism 1-8, the first flower of driving Key covers 1-9, driving sun gear 1-10, driving planetary gear 1-11, driving ring gear 1-12, driving planet stent 1-13, driving the Three holder 1-14, it driving third gear 1-15, the second axis 1-16 of driving, the 4th gear 1-17 of driving, driving output wheel 1-18, drives Dynamic third axis 1-19, the 4th holder 1-20 of driving, the second spline housing 1-21 of driving, the 5th gear 1-22 of driving, the 6th tooth of driving Take turns 1-23, driving the 5th holder 1-24, driving first axle 1-5 are respectively arranged in driving first support 1-2 and driving by bearing On second support 1-4, drives and be provided with driving bevel gear 1-3 on first axle 1-5, and driving bevel gear 1-3 is located at driving first Between holder 1-2 and driving second support 1-4, driving bevel gear 1-3 simultaneously with right vibration bevel gear 2-31, left vibration bevel gear 3-31 engaged transmissions, the lower ends driving first axle 1-5 are provided with driving wheel for inputting 1-1, and wheel for inputting 1-1 is driven to be located at driving first The sides holder 1-2, driving wheel for inputting 1-1 can be all kinds of drive pulleys, sprocket wheel；Drive first axle 1-5 upper ends from top to bottom according to It is secondary to be provided with driving sun gear 1-10, the first spline housing 1-9 of driving, driving first gear 1-6, and drive first gear 1-6 In the sides driving second support 1-4；Drive first gear 1-6 sliding sleeves loaded on driving first axle 1-5, when driving the first spline When set 1-9 is in middle position state without peripheral operation, driving first axle 1-5 circumferentially dallies relative to driving first gear 1-6, driving It is provided with external splines on first gear 1-6；Drive sun gear 1-10 sliding sleeves loaded on driving on first axle 1-5, when driving first When spline housing 1-9 is in middle position state without peripheral operation, driving first axle 1-5 circumferentially dallies relative to driving sun gear 1-10, It is provided with external splines on driving sun gear 1-10；The first spline housing 1-9 is driven to be located at driving first gear 1-6 and driving sun gear Between 1-10, drives and be provided with level-one internal spline on the first spline housing 1-9, internal spline under internal spline, level-one in level-one, driving the One spline housing 1-9, which is coordinated by level-one internal spline with the external splines on driving first axle 1-5, to be driven, and drives the first spline housing 1- 9 can slide axially under external control action along driving first axle 1-5；It is taken off by external control when driving the first spline housing 1-9 During gradually gliding from middle position, the external splines of spline and driving first gear 1-6 under the level-one of the first spline housing 1-9 is driven to nibble Transmission is closed, first axle 1-5 is driven to drive driving first gear 1-6 to rotate in a circumferential direction transmission by the first spline housing 1-9 of driving at this time, And the opposite driving sun gear 1-10 of first axle 1-5 is driven to be in circumferential idling conditions；When the first spline housing 1-9 of driving is by outside Manipulate in being detached from position it is gradually upper sliding during, drive that the level-one upper spline of the first spline housing 1-9 and driving sun gear 1-10's is outer Spline engagement is driven, and first axle 1-5 is driven to drive driving sun gear 1-10 to rotate in a circumferential direction by the first spline housing of driving 1-9 at this time Transmission, and the opposite driving first gear 1-6 of first axle 1-5 is driven to be in circumferential idling conditions；The power of energy transfer mechanism 1-8 Driving second gear 1-7, driving second gear 1-7 and driving first gear 1-6 engaged transmissions are provided on input shaft, energy turns Driving the 6th gear 1-23, the 6th gear 1-23 of driving and the 5th gear of driving are provided on the power output shaft of converting mechanism 1-8 1-22 engaged transmissions, energy transfer mechanism 1-8 convert after hydraulic energy mechanical energy to and again export hydraulic energy transfer for mechanical energy, It can be exported with lower rotating speed and high torsional moment in this conversion process, and be exported for variable speed；Drive planetary gear 1- 11 is circumferentially uniformly distributed along driving sun gear 1-10, and the peripheries driving planetary gear 1-11 are provided with driving ring gear 1-12, drive planet Wheel 1-11 engages deceleration transmission with driving sun gear 1-10, driving ring gear 1-12 simultaneously, and driving planetary gear 1-11 is rotatably set It is placed on driving planet stent 1-13, driving planetary gear 1-11 drives planet by driving planet stent 1-13 circumferentially to limit Take turns 1-11 drives the 1-13 rotations of driving planet stent to pass under the collective effect of driving sun gear 1-10 and driving ring gear 1-12 It is dynamic；The second axis 1-16 is driven to be set on driving third holder 1-14 by bearing, the second lower ends axis 1-16 of driving are gone with driving Prong frame 1-13 centre of gyration keys are sequentially connected, and the second upper ends axis 1-16 of driving are provided with driving third gear 1-15, driving the Three gear 1-15 are located at driving planet stent 1-13 and drive with the 4th gear 1-17 engaged transmissions of driving, driving third holder 1-14 Between dynamic third gear 1-15；

Driving third axis 1-19 is respectively arranged in the 4th holder 1-20 of driving and is driven on the 5th holder 1-24 by bearing, It is disposed with from top to bottom on the driving third axis 1-19 between the 5th holder 1-24 driving the 4th holder 1-20 and driving The 4th gear 1-17, the second spline housing 1-21 of driving, the 5th gear 1-22 of driving are driven, the third upper ends axis 1-19 is driven and is located at It drives and is provided with driving output wheel 1-18 on the upside of the 4th holder 1-20, driving output wheel 1-18 can be all kinds of drive pulleys, chain Wheel, driving third axis 1-19 drive driving output wheel 1-18 rotary drives；Drive the 5th gear 1-22 sliding sleeves loaded on driving the On three axis 1-19, when driving the second spline housing 1-21 to be in middle position state without peripheral operation, the 5th gear 1-22 of driving is opposite It circumferentially dallies in driving third axis 1-19, drives and be provided with external splines on the 5th gear 1-22；Drive the 4th gear 1-17 slidings It is set on driving third axis 1-19, when driving the second spline housing 1-21 to be in middle position state without peripheral operation, driving the 4th Gear 1-17 circumferentially dallies relative to driving third axis 1-19, drives and is provided with external splines on the 4th gear 1-17；Driving second Spline housing 1-21 is located between the 5th gear 1-22 of the 4th gear 1-17 of driving and driving, drives and is arranged on the second spline housing 1-21 There is two level internal spline, internal spline, the second spline housing 1-21 of driving pass through two level internal spline and driving under internal spline, two level in two level External splines cooperation transmission on third axis 1-19, and drive the second spline housing 1-21 can be along driving third under external control action Axis 1-19 slides axially；During position gradually glides in driving the second spline housing 1-21 to be detached from by external control, the is driven The external splines engaged transmission of spline and the 5th gear 1-22 of driving, drives the 5th gear 1- at this time under the two level of two spline housing 1-21 22 drive driving third axis 1-19 to rotate in a circumferential direction transmission by the second spline housing 1-21 of driving, and drive the opposite drives of third axis 1-19 Dynamic 4th gear 1-17 is in circumferential idling conditions；When drive the second spline housing 1-21 be detached from by external control in position gradually on During cunning, drive the two level upper spline of the second spline housing 1-21 with the external splines engaged transmission of the 4th gear 1-17 of driving, this When the 4th gear 1-17 of driving drive driving third axis 1-19 to rotate in a circumferential direction transmission by the second spline housing 1-21 of driving, and drive The 5th gear 1-22 of the opposite drivings of third axis 1-19 is in circumferential idling conditions；

Left vibration filtering mechanism 3 includes left vibration sieve nest 3-1, left sieve nest deflector 3-2, the lateral groove body 3-3 of left vibration, a left side The lateral cylinder 3-4 of vibration, left vibration transverse bar 3-5, the first axis pin 3-6 of left vibration, left vibration rocking bar 3-7, left vibration first Support seat 3-8, the second axis pin 3-9 of left vibration, left vibration rod 3-10, the second support base 3-11 of left vibration, the first bias of left vibration Axis pin 3-12, left vibration eccentric rod 3-13, left vibration sieve pore 3-14, left vibrating screen ball hinge 3-15, left vibrating screen flexural pivot connecting rod 3-16, left vibration globe hinge support seat 3-17, left vibration third support base 3-18, the first transmission shaft 3-19 of left vibration, left vibration the One sprocket wheel 3-20, left vibration chain 3-21, left vibration worm screw control mechanism 3-22, the vertical groove body 3-23 of left vibration, left vibration are inclined Cartridge 3-24, left vibration four-supporting 3-25, left vibration planetary gear 3-26, left vibration second driving shaft 3-27, left vibration the Five support base 3-28, left vibration sun gear 3-29, left vibration gear ring 3-30, left vibration bevel gear 3-31, the second sprocket wheel of left vibration 3-32, the 6th support base 3-33 of left vibration, left vibration planetary carrier 3-34, the second eccentric pin shaft 3-35 of left vibration, left vibration Vertical sphere 3-36 and left vibration third transmission shaft 3-37, wherein the first transmission shaft 3-19 of left vibration is respectively set by bearing In on left vibration third support base 3-18 and the second support base 3-11 of left vibration, first one end transmission shaft 3-19 of left vibration is provided with The first sprocket wheel 3-20 of left vibration, the first transmission shaft 3-19 other ends of left vibration are provided with left vibration eccentric rod 3-13, left vibration the Two one end transmission shaft 3-27 are provided with left vibration bevel gear 3-31, and the left vibration second driving shaft 3-27 other ends are provided with left vibration It is mounted in the 5th support base 3-28 of left vibration in the middle part of sun gear 3-29, left vibration second driving shaft 3-27, left vibration bevel gear 3-31 and driving bevel gear 1-3 engaged transmissions, left vibration planetary gear 3-26 is circumferentially uniformly distributed along left vibration sun gear 3-29 and passes through Left vibration planetary carrier 3-34 limits mutual alignment, and the peripheries left vibration planetary gear 3-26 are provided with left vibration gear ring 3-30, The left straight-tooth circle for being provided with and being engaged with left vibration planetary gear 3-26 is enclosed in left vibration gear ring 3-30, the peripheries left vibration gear ring 3-30 are set It is equipped with the left worm gear gear ring engaged with left vibration worm screw control mechanism 3-22 worm screws, left vibration third transmission shaft 3-37 passes through bearing It is respectively arranged on left vibration four-supporting 3-25 and the 6th support base 3-33 of left vibration, left the second sprocket wheel of vibration 3-32 settings In the middle part of left vibration third transmission shaft 3-37, and the second sprocket wheel 3-32 of left vibration is located at left vibration four-supporting 3-25 and shakes with a left side Between dynamic 6th support base 3-33, left vibration third one end transmission shaft 3-37 is connect with left vibration planetary carrier 3-34, Zuo Zhen The dynamic third transmission shaft 3-37 other ends are provided with left vibration eccentric disc 3-24, and eccentric setting has a left side to shake on left vibration eccentric disc 3-24 Dynamic second eccentric pin shaft 3-35, and second one end eccentric pin shaft 3-35 of left vibration is provided with left vibration vertical sphere 3-36, Zuo Zhen It moves vertical groove body 3-23 to be set in the middle part of the one end left vibration sieve nest 3-1, the left vertical sphere 3-36 of vibration and the left vertical groove body of vibration 3-23 is connected, and passes through left vibration chain 3-21 connections between the second sprocket wheel 3-32 of the first sprocket wheel 3-20 of left vibration and left vibration Transmission；Left vibration sieve pore 3-14 is evenly equipped on left vibration sieve nest 3-1, left vibration sieve nest 3-1 discharge ends are provided with left sieve nest water conservancy diversion Plate 3-2 is used to support on the holder of left vibration filtering mechanism and is provided with left vibration globe hinge support seat 3-17, and in left vibration sieve nest 3-1 corresponding positions are provided with left vibrating screen ball hinge 3-15, left vibrating screen ball hinge 3-15 and left vibration globe hinge support seat 3-17 Between supported by left vibrating screen flexural pivot connecting rod 3-16 connections, left vibration cross is provided with below the left vibration sieve nest 3-1 discharge ends To groove body 3-3, the left middle parts vibration rocking bar 3-7 and the first rotatable assembly of support base 3-8 of left vibration, the one end left vibration rocking bar 3-7 It is flexibly connected with the one end left vibration rod 3-10 by the second axis pin 3-9 of left vibration, the left vibration rod 3-10 other ends pass through a left side First eccentric pin shaft 3-12 is flexibly connected with left vibration eccentric rod 3-13, the left vibration rocking bar 3-7 other ends and left vibration transverse bar The flexural pivot connection of the one end 3-5, the left vibration transverse bar 3-5 other ends are fixedly connected with left vibration transverse direction cylinder 3-4, left vibration transverse post Body 3-4 is connected with the lateral groove body 3-3 of left vibration；

Right vibration filtering mechanism 2 includes right vibration sieve nest 2-1, right sieve nest deflector 2-2, the lateral groove body 2-3 of right vibration, the right side The lateral cylinder 2-4 of vibration, right vibration transverse bar 2-5, the first axis pin 2-6 of right vibration, right vibration rocking bar 2-7, right vibration first Support seat 2-8, the second axis pin 2-9 of right vibration, right vibration rod 2-10, the second support base 2-11 of right vibration, the first bias of right vibration Axis pin 2-12, right vibration eccentric rod 2-13, right vibration sieve pore 2-14, right vibrating screen ball hinge 2-15, right vibrating screen flexural pivot connecting rod 2-16, right vibration globe hinge support seat 2-17, right vibration third support base 2-18, the first transmission shaft 2-19 of right vibration, right vibration the One sprocket wheel 2-20, right vibration chain 2-21, right vibration worm screw control mechanism 2-22, the vertical groove body 2-23 of right vibration, right vibration are inclined Cartridge 2-24, right vibration four-supporting 2-25, right vibration planetary gear 2-26, right vibration second driving shaft 2-27, right vibration the Five support base 2-28, right vibration sun gear 2-29, right vibration gear ring 2-30, right vibration bevel gear 2-31, the second sprocket wheel of right vibration 2-32, the 6th support base 2-33 of right vibration, right vibration planetary carrier 2-34, the second eccentric pin shaft 2-35 of right vibration, right vibration Vertical sphere 2-36 and right vibration third transmission shaft 2-37, wherein the first transmission shaft 2-19 of right vibration is respectively set by bearing In on right vibration third support base 2-18 and the second support base 2-11 of right vibration, first one end transmission shaft 2-19 of right vibration is provided with The first sprocket wheel 2-20 of right vibration, the first transmission shaft 2-19 other ends of right vibration are provided with right vibration eccentric rod 2-13, right vibration the Two one end transmission shaft 2-27 are provided with right vibration bevel gear 2-31, and the right vibration second driving shaft 2-27 other ends are provided with right vibration It is mounted in the 5th support base 2-28 of right vibration in the middle part of sun gear 2-29, right vibration second driving shaft 2-27, right vibration bevel gear 2-31 and driving bevel gear 1-3 engaged transmissions, right vibration planetary gear 2-26 is circumferentially uniformly distributed along right vibration sun gear 2-29 and passes through Right vibration planetary carrier 2-34 limits mutual alignment, and the peripheries right vibration planetary gear 2-26 are provided with right vibration gear ring 2-30, The right straight-tooth circle for being provided with and being engaged with right vibration planetary gear 2-26 is enclosed in right vibration gear ring 2-30, the peripheries right vibration gear ring 2-30 are set It is equipped with the right worm gear gear ring engaged with right vibration worm screw control mechanism 2-22 worm screws, right vibration third transmission shaft 2-37 passes through bearing It is respectively arranged on right vibration four-supporting 2-25 and the 6th support base 2-33 of right vibration, right the second sprocket wheel of vibration 2-32 settings In the middle part of right vibration third transmission shaft 2-37, and the second sprocket wheel 2-32 of right vibration is located at right vibration four-supporting 2-25 and shakes with the right side Between dynamic 6th support base 2-33, right vibration third one end transmission shaft 2-37 is connect with right vibration planetary carrier 2-34, and the right side shakes The dynamic third transmission shaft 2-37 other ends are provided with right vibration eccentric disc 2-24, and eccentric setting has the right side to shake on right vibration eccentric disc 2-24 Dynamic second eccentric pin shaft 2-35, and second one end eccentric pin shaft 2-35 of right vibration is provided with the right vertical sphere 2-36 of vibration, the right side shakes It moves vertical groove body 2-23 to be set in the middle part of the one end right vibration sieve nest 2-1, the right vertical sphere 2-36 of vibration and the right vertical groove body of vibration 2-23 is connected, and passes through right vibration chain 2-21 connections between the second sprocket wheel 2-32 of the first sprocket wheel 2-20 of right vibration and right vibration Transmission；Right vibration sieve pore 2-14 is evenly equipped on right vibration sieve nest 2-1, right vibration sieve nest 2-1 discharge ends are provided with right sieve nest water conservancy diversion Plate 2-2 is used to support on the holder of right vibration filtering mechanism and is provided with right vibration globe hinge support seat 2-17, and in right vibration sieve nest 2-1 corresponding positions are provided with right vibrating screen ball hinge 2-15, right vibrating screen ball hinge 2-15 and right vibration globe hinge support seat 2-17 Between supported by right vibrating screen flexural pivot connecting rod 2-16 connections, right vibration cross is provided with below the right vibration sieve nest 2-1 discharge ends To groove body 2-3, the right middle parts vibration rocking bar 2-7 and the first rotatable assembly of support base 2-8 of right vibration, the one end right vibration rocking bar 2-7 It is flexibly connected with the one end right vibration rod 2-10 by the second axis pin 2-9 of right vibration, the right vibration rod 2-10 other ends pass through the right side First eccentric pin shaft 2-12 is flexibly connected with right vibration eccentric rod 2-13, the right vibration rocking bar 2-7 other ends and right vibration transverse bar The flexural pivot connection of the one end 2-5, the right vibration transverse bar 2-5 other ends are fixedly connected with right vibration transverse direction cylinder 2-4, right vibration transverse post Body 2-4 is connected with the lateral groove body 2-3 of right vibration.

In the present embodiment, when driving mechanism 1 is accelerated using hydraulic-driven, peripheral operation is also turned on the first flower of driving Key covers 1-9 and driving first gear 1-6, the second spline housing 1-21 of driving and the 5th gear 1-22 of driving, and driving wheel for inputting 1-1 is logical First axle of overdriving 1-5 drives driving the first spline housing 1-9 driving driving first gear 1-6 rotations, driving first gear 1-6 and Second gear 1-7 engaged transmissions, power is driven to be exported after the machine liquid of energy transfer mechanism 1-8, the secondary exchange of liquid machine, and by driving Dynamic 6th gear 1-23 is exported with the 5th gear 1-22 engaged transmissions of driving, and the 5th gear 1-22 is by driving the second spline for driving It covers 1-21 and drives driving third axis 1-19 rotary drives, it is final to drive driving output wheel 1-18 driving drums rotation, in this process Middle mechanical driving part is in idle state；When roller is accelerated to constant speed, while manipulating the first spline housing 1-9 of driving With the second spline housing 1-21 uplinks of driving, until the first spline housing 1-9 of driving and driving sun gear 1-10 engaged transmissions, driving the Two spline housing 1-21 and the 4th gear 1-17 engaged transmissions of driving, driving wheel for inputting 1-1 is by driving first axle 1-5 to drive driving First spline housing 1-9 driving driving sun gear 1-10 rotations, driving sun gear 1-10 and driving planetary gear 1-11 engaged transmissions, are moved Power exports after driving planet stent 1-13 drives driving the second axis 1-16 driving driving third gears 1-15, and by driving third Gear 1-15 is driven with the 4th gear 1-17 engaged transmissions of driving, the 4th gear 1-17 of driving by the second spline housing of driving 1-21 Third axis 1-19 rotary drives are driven, it is final to drive driving output wheel 1-18 driving drums rotation, in the process hydraulic drive It is partially in idle state；

At the same time, be mounted on driving bevel gear 1-3 on driving first axle 1-5 simultaneously with right vibration bevel gear 2-31, Left vibration bevel gear 3-31 engagements；

Left vibration bevel gear 3-31 drives left vibration second driving shaft 3-27 rotations, left vibration second driving shaft 3-27 to drive Left vibration sun gear 3-29 rotations, left vibration sun gear 3-29 drive left vibration planetary carrier by left vibration planetary gear 3-26 3-34 rotates, and left vibration planetary carrier 3-34 drives the second sprocket wheel 3- of left vibration simultaneously by left vibration third transmission shaft 3-37 32 rotate with left vibration eccentric disc 3-24, and left vibration eccentric disc 3-24 drives left vibration by left the second eccentric pin shaft of vibration 3-35 The vertical left vertical groove body 3-23 of vibration of sphere 3-36 drivings swings, left to drive left vibration sieve nest 3-1 to do reciprocally swinging It vibrates the second sprocket wheel 3-32 and left the first sprocket wheel of vibration 3-20 rotations, the first sprocket wheel 3- of left vibration is driven by left vibration chain 3-21 20 drive left vibration eccentric rod 3-13 to rotate by left the first transmission shaft of vibration 3-19, and left vibration eccentric rod 3-13 passes through left vibration Connecting rod 3-10 drives left vibration rocking bar 3-7 to do reciprocating swing, and left vibration rocking bar 3-7 passes through left vibration transverse bar 3-5 and left vibration Lateral cylinder 3-4 drives left vibration transverse direction groove body 3-3 and left vibration sieve nest 3-1 or more shakes；Sand substance is passing through left vibration Filtering output is completed after lateral groove body 3-3 and left vibration sieve nest 3-1 or more shakes；

Right vibration bevel gear 2-31 drives right vibration second driving shaft 2-27 rotations, right vibration second driving shaft 2-27 to drive Right vibration sun gear 2-29 rotations, right vibration sun gear 2-29 drive right vibration planetary carrier by right vibration planetary gear 2-26 2-34 rotates, and right vibration planetary carrier 2-34 drives the second sprocket wheel 2- of right vibration simultaneously by right vibration third transmission shaft 2-37 32 rotate with right vibration eccentric disc 2-24, and right vibration eccentric disc 2-24 drives right vibration by right the second eccentric pin shaft of vibration 2-35 The vertical right vertical groove body 2-23 of vibration of sphere 2-36 drivings swings, right to drive right vibration sieve nest 2-1 to do reciprocally swinging It vibrates the second sprocket wheel 2-32 and right the first sprocket wheel of vibration 2-20 rotations, the first sprocket wheel 2- of right vibration is driven by right vibration chain 2-21 20 drive right vibration eccentric rod 2-13 to rotate by right the first transmission shaft of vibration 2-19, and right vibration eccentric rod 2-13 passes through right vibration Connecting rod 2-10 drives right vibration rocking bar 2-7 to do reciprocating swing, and right vibration rocking bar 2-7 passes through right vibration transverse bar 2-5 and right vibration Lateral cylinder 2-4 drives right vibration transverse direction groove body 2-3 and right vibration sieve nest 2-1 or more shakes；Sand substance is passing through right vibration Filtering output is completed after lateral groove body 2-3 and right vibration sieve nest 2-1 or more shakes；

By direction vibration, under the premise of realizing energy conservation object, operating efficiency is improved；

Simultaneously can be as needed, the rotating speed of left vibration gear ring 3-30 is controlled by left vibration worm screw control mechanism 3-22 and is turned To change the output rotating speed of left vibration third transmission shaft 3-37, to control the rate of filtration；

Rotating speed and the steering that right vibration gear ring 2-30 is controlled by right vibration worm screw control mechanism 2-22, shake to change the right side The output rotating speed of dynamic third transmission shaft 2-37, to control the rate of filtration.

The above shows and describes the basic principles and main features of the present invention and the advantages of the present invention.The technology of the industry Personnel are it should be appreciated that the present invention is not limited to the above embodiments, and the above embodiments and description only describe this The principle of invention, without departing from the spirit and scope of the present invention, various changes and improvements may be made to the invention, these changes Change and improvement all fall within the protetion scope of the claimed invention.The claimed scope of the invention by appended claims and its Equivalent thereof.

Claims (10)

1. a kind of direction vibration driving method for filtering, which is characterized in that implemented using direction vibration output filtering device Direction vibration filters, and when the driving mechanism of direction vibration output filtering device is accelerated using hydraulic-driven, peripheral operation is simultaneously The 5th gear of the first spline housing of driving and driving first gear, the second spline housing of driving and driving is connected, driving wheel for inputting passes through Drive first axle that driving the first spline housing driving driving first gear rotation, driving first gear is driven to be nibbled with driving second gear Transmission is closed, power exports after the machine liquid of energy transfer mechanism, the secondary exchange of liquid machine, and by driving the 6th gear and driving the 5th Gear engaged transmission output, the 5th gear of driving is by driving the second spline housing to drive driving third axis rotary drive, final band Dynamic driving output wheel driving drum rotation, mechanical driving part is in idle state in the process；When roller is accelerated to perseverance When constant speed is spent, while the second spline housing uplink of the first spline housing of driving and driving is manipulated, until the first spline housing of driving and driving Sun gear engaged transmission, the second spline housing of driving and driving the 4th gear engaged transmission, driving wheel for inputting is by driving first axle Driving the first spline housing driving driving sun gear rotation, driving sun gear and driving planetary gear engaged transmission are driven, power is through driving Dynamic planet stent exports after driving driving the second axis driving driving third gear, and by driving third gear and the 4th gear of driving Engaged transmission, the 4th gear of driving are final to drive driving defeated by driving the second spline housing to drive driving third axis rotary drive Go out the rotation of wheel drive roller, hydraulic drive in the process is partially in idle state；

At the same time, the driving bevel gear in driving first axle is nibbled with right vibration bevel gear, left vibration bevel gear simultaneously It closes；

Left vibration bevel gear drives left vibration second driving shaft rotation, left vibration second driving shaft to drive left vibration sun gear rotation Turn, left vibration sun gear drives left vibration planetary carrier to rotate by left vibration planetary gear, and left vibration planetary carrier passes through Left vibration third transmission shaft drives the second sprocket wheel of left vibration and the eccentric disc spins of left vibration, left vibration eccentric disc to shake by a left side simultaneously Dynamic second eccentric pin shaft drives the left vertical groove body of vibration of the left vertical ball drive of vibration to swing, to drive left vibration sieve nest Reciprocally swinging is done, the second sprocket wheel of left vibration is rotated by left vibration chain-driving the first sprocket wheel of left vibration, the first sprocket wheel of left vibration Left vibration eccentric rod rotation, left vibration eccentric rod is driven to drive left vibration by left vibration rod by the first transmission shaft of left vibration Rocking bar does reciprocating swing, left vibration rocking bar by left vibration transverse bar and the lateral cylinder of left vibration drive left vibration transverse direction groove body and Left vibration sieve nest is shaken up and down；Sand substance completes filtering after being shaken above and below the lateral groove body of left vibration and left vibration sieve nest Output；

Right vibration bevel gear drives right vibration second driving shaft rotation, right vibration second driving shaft to drive right vibration sun gear rotation Turn, right vibration sun gear drives right vibration planetary carrier to rotate by right vibration planetary gear, and right vibration planetary carrier passes through Right vibration third transmission shaft drives the second sprocket wheel of right vibration and the eccentric disc spins of right vibration, right vibration eccentric disc to shake by the right side simultaneously Dynamic second eccentric pin shaft drives the right vertical groove body of vibration of the right vertical ball drive of vibration to swing, to drive right vibration sieve nest Reciprocally swinging is done, the second sprocket wheel of right vibration is rotated by right vibration chain-driving the first sprocket wheel of right vibration, the first sprocket wheel of right vibration Right vibration eccentric rod rotation, right vibration eccentric rod is driven to drive right vibration by right vibration rod by the first transmission shaft of right vibration Rocking bar does reciprocating swing, right vibration rocking bar by right vibration transverse bar and the lateral cylinder of right vibration drive right vibration transverse direction groove body and Right vibration sieve nest is shaken up and down；Sand substance completes filtering after being shaken above and below the lateral groove body of right vibration and right vibration sieve nest Output；

The direction vibration output filtering device includes being symmetrically mounted on the left vibration filtering mechanisms of driving mechanism both sides to shake with the right side Dynamic filter mechanism, driving mechanism use the mixed drive of hydraulic-driven and Mechanical Driven, left vibration filtering mechanism are driven to shake with the right side Dynamic filter mechanism carries out vibration filtering, and concrete structure is as follows：

In driving mechanism, driving first axle one end is mounted in driving first support, and the driving first axle other end is mounted on driving In second support, driving bevel gear with the setting of driving wheel for inputting in driving first axle one end, the driving first axle other end on to Under successively sliding sleeve equipped with driving sun gear, driving the first spline housing, driving first gear, drive the first spline housing on be provided with With interior flower on the level-one internal spline of driving first axle external splines cooperation transmission and the level-one of driving sun gear external splines engaged transmission Internal spline under the level-one of key and driving first gear external splines engaged transmission, the first spline housing of driving is under external control action It slides axially along driving first axle, during position gradually glides in driving the first spline housing to be detached from by external control, driving Spline and driving first gear external splines engaged transmission, drive first axle to pass through driving first at this time under the level-one of first spline housing Spline housing drives driving first gear to rotate in a circumferential direction transmission, and the opposite driving sun gear of first axle is driven to be in the circumferential shape that dallies State；During position is gradually above slided in driving the first spline housing to be detached from by external control, in the level-one of the first spline housing of driving Spline and driving sun gear external splines engaged transmission, drive first axle by driving the first spline housing to drive driving sun gear at this time Rotate in a circumferential direction transmission, and the opposite driving first gear of first axle is driven to be in circumferential idling conditions；

Driving second gear is provided on the power input shaft of energy transfer mechanism, driving second gear is nibbled with driving first gear Transmission is closed, the 6th gear of driving, the 6th gear of driving and the 5th tooth of driving are provided on the power output shaft of energy transfer mechanism Wheel engaged transmission, energy transfer mechanism convert after hydraulic energy mechanical energy to and again export hydraulic energy transfer for mechanical energy, herein It is exported with lower rotating speed and high torsional moment in conversion process, and is exported for variable speed；Drive the driving of planetary gear edge too Sun wheel is circumferential uniformly distributed, and driving planetary gear periphery is provided with driving ring gear, driving planetary gear simultaneously in driving sun gear, driving Gear ring engages deceleration transmission, and driving planetary gear is rotatably provided on driving planet stent, and driving planetary gear is by driving planet Holder circumferentially limits, and drives planetary gear in driving sun gear and drive and drive driving planet stent under the collective effect of ring gear Rotary drive；Drive the setting of the second axis on driving third holder, the second axis lower end of driving and the driving planet stent centre of gyration Key is sequentially connected, and the second axis upper end of driving is provided with driving third gear, and driving third gear engages biography with the 4th gear of driving It is dynamic；

Third axis one end is driven to be mounted on the 4th holder of driving, the driving third axis other end is mounted on the 5th holder of driving, Sliding sleeve is equipped with driving the 4th successively from top to bottom on the driving third axis between driving the 5th holder of the 4th holder and driving Gear, the second spline housing of driving, the 5th gear of driving, driving third axis upper end are provided with driving output wheel, drive third axis band Dynamic driving output wheel rotary drive；It drives the 5th gears slip to be sleeved on driving third axis, drives and be arranged on the second spline housing Have in the two level with the two level internal spline of driving third axis external splines cooperation transmission, with the 4th gear external splines engaged transmission of driving Internal spline is made with internal spline, the second spline housing of driving under the two level of the 5th gear external splines engaged transmission of driving in external control It can slide axially along driving third axis under；Position gradually glides process in driving the second spline housing to be detached from by external control In, spline and the 5th gear external splines engaged transmission of driving under the two level of the second spline housing are driven, drives the 5th gear logical at this time Second spline housing of overdriving drives driving third axis to rotate in a circumferential direction transmission, and third axis the 4th gear of opposite driving is driven to be in all To idling conditions；During position is gradually above slided in driving the second spline housing to be detached from by external control, the second spline housing is driven Two level upper spline and the 4th gear external splines engaged transmission of driving, drive the 4th gear to pass through at this time and drive the second spline housing band Dynamic driving third axis rotates in a circumferential direction transmission, and third axis the 5th gear of opposite driving is driven to be in circumferential direction idling conditions；

In left vibration filtering mechanism, first transmission shaft one end of left vibration is arranged on left vibration third support base, left vibration first The transmission shaft other end is arranged on the second support base of left vibration, and the first sprocket wheel of left vibration is arranged in the first transmission shaft one of left vibration End, the first transmission shaft other end of left vibration are provided with left vibration eccentric rod；Left vibration second driving shaft one end is provided with left vibration Bevel gear, the left vibration second driving shaft other end are provided with left vibration sun gear, a left side are mounted in the middle part of left vibration second driving shaft It vibrates in the 5th support base, left vibration bevel gear and driving bevel gear engaged transmission, left vibration planetary gear is along left vibration sun gear It is circumferential uniformly distributed, and left vibration planetary gear is rotatably provided on left vibration planetary carrier, is limited by left vibration planetary carrier Determine mutual alignment, left vibration planetary gear periphery is provided with left vibration gear ring, encloses to be provided in left vibration gear ring and go with left vibration The left straight-tooth circle of star-wheel engagement, left vibration gear ring periphery are provided with the left worm-gear toothing engaged with left vibration worm screw control mechanism worm screw Circle；Left vibration third transmission shaft one end is arranged on left vibration four-supporting, and left vibration third transmission shaft other end setting exists On the 6th support base of left vibration, the second sprocket wheel of left vibration is arranged in the middle part of left vibration third transmission shaft, left vibration third transmission shaft One end is connect with left vibration planetary carrier, and the left vibration third transmission shaft other end is provided with left vibration eccentric disc, and left vibration is inclined Eccentric setting has the second eccentric pin shaft of left vibration, second eccentric pin shaft one end of left vibration to be provided with the left vertical ball of vibration on cartridge Body, the left vertical sphere of vibration is connected with the left vertical groove body of vibration, between the second sprocket wheel of the first sprocket wheel of left vibration and left vibration It is connected and is driven by left vibration chain；Left vibration sieve pore is evenly equipped on left vibration sieve nest, left vibration sieve nest discharge end is provided with a left side Sieve nest deflector is used to support on the holder of left vibration filtering mechanism and is provided with left vibration globe hinge support seat, and in left vibrating screen Body corresponding position is provided with left vibrating screen ball hinge, passes through left vibration between left vibrating screen ball hinge and left vibration globe hinge support seat The connection support of flexural pivot connecting rod is sieved, the lateral groove body of left vibration, left vibration rocking bar middle part are provided with below left vibration sieve nest discharge end It is rotatably mounted on the first support base of left vibration, left vibration rocking bar one end passes through the second axis pin of left vibration and left vibration rod one End flexible connection, the left vibration rod other end are flexibly connected by left first eccentric pin shaft with left vibration eccentric rod, and left vibration is shaken The bar other end is connect with left vibration transverse bar one end flexural pivot, and the left vibration transverse bar other end is fixed with the lateral cylinder of left vibration to be connected It connects, the lateral cylinder of left vibration is connected with the lateral groove body of left vibration；

In right vibration filtering mechanism, first transmission shaft one end of right vibration is arranged on right vibration third support base, right vibration first Transmission shaft one end is arranged on the second support base of right vibration, and the first sprocket wheel of right vibration is arranged in first transmission shaft one end of right vibration, The first transmission shaft other end of right vibration is provided with right vibration eccentric rod；Right vibration second driving shaft one end is provided with right vibration cone tooth Wheel, the right vibration second driving shaft other end are provided with right vibration sun gear, right vibration are mounted in the middle part of right vibration second driving shaft In 5th support base, right vibration bevel gear and driving bevel gear engaged transmission, right vibration planetary gear is along right vibration sun gear circumferential direction It is uniformly distributed, and right vibration planetary gear is rotatably provided on right vibration planetary carrier, and phase is limited by right vibration planetary carrier Mutual position is provided with right vibration gear ring in right vibration planetary gear periphery, encloses and be provided with and right vibration planetary gear in right vibration gear ring The right straight-tooth circle of engagement, right vibration gear ring periphery are provided with the right worm gear gear ring engaged with right vibration worm screw control mechanism worm screw, Right vibration third transmission shaft one end is arranged on right vibration four-supporting, and right vibration third transmission shaft other end setting is shaken on the right side On dynamic 6th support base, the second sprocket wheel of right vibration is arranged in the middle part of right vibration third transmission shaft, right vibration third transmission shaft one end It is connect with right vibration planetary carrier, the right vibration third transmission shaft other end is provided with right vibration eccentric disc, right vibration eccentric disc Upper eccentric setting has the second eccentric pin shaft of right vibration, and second eccentric pin shaft one end of right vibration is provided with the right vertical sphere of vibration, The right vertical sphere of vibration is connected with the right vertical groove body of vibration, passes through between the second sprocket wheel of the first sprocket wheel of right vibration and right vibration Right vibration chain connection transmission；Right vibration sieve pore is evenly equipped on right vibration sieve nest, right vibration sieve nest discharge end is provided with right sieve nest Deflector is used to support on the holder of right vibration filtering mechanism and is provided with right vibration globe hinge support seat, and in right vibration sieve nest pair It answers position to be provided with right vibrating screen ball hinge, passes through right vibrating screen ball between right vibrating screen ball hinge and right vibration globe hinge support seat The connection support of hinge bar is provided with the lateral groove body of right vibration below right vibration sieve nest discharge end, can be revolved in the middle part of right vibration rocking bar Turn to be mounted on the first support base of right vibration, right vibration rocking bar one end is lived by the second axis pin of right vibration and right vibration rod one end Dynamic connection, the right vibration rod other end are flexibly connected by right first eccentric pin shaft with right vibration eccentric rod, and right vibration rocking bar is another One end is connect with right vibration transverse bar one end flexural pivot, and the right vibration transverse bar other end is fixedly connected with the lateral cylinder of right vibration, right The lateral cylinder of vibration is connected with the lateral groove body of right vibration.

2. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that the first tooth of driving Wheel is located at driving second support side.

3. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that driving bevel gear Between driving first support and driving second support.

4. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that driving wheel for inputting Positioned at driving first support side.

5. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that the first flower of driving Key set is located between driving first gear and driving sun gear.

6. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that driving third branch Frame is located between driving planet stent and driving third gear.

7. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that driving output wheel It is arranged on the driving third axis on the upside of the 4th holder of driving.

8. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that the second flower of driving Key set is located between the 5th gear of the 4th gear of driving and driving.

9. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that left vibration second Sprocket wheel is between the 6th support base of left vibration four-supporting and left vibration.

10. a kind of direction vibration driving method for filtering according to claim 1, which is characterized in that right vibration the Two sprocket wheels are between the 6th support base of right vibration four-supporting and right vibration.