CN206109943U - Perpendicular directional vibration wheel system - Google Patents
Perpendicular directional vibration wheel system Download PDFInfo
- Publication number
- CN206109943U CN206109943U CN201621049092.3U CN201621049092U CN206109943U CN 206109943 U CN206109943 U CN 206109943U CN 201621049092 U CN201621049092 U CN 201621049092U CN 206109943 U CN206109943 U CN 206109943U
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- eccentric block
- gripper shoe
- block group
- oil
- axis
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- Withdrawn - After Issue
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Abstract
The utility model belongs to road roller equipment field, concretely relates to perpendicular directional vibration wheel system. The utility model discloses at least, including a vibration exciter section of thick bamboo, the eccentric block group of corotation and the eccentric block group that reverses have been arranged in the tube -shape lumen of a vibration exciter section of thick bamboo, the eccentric block group of corotation is two sets of, and the eccentric block group of every group corotation all includes a corotation axis of rotation, and corotation eccentric block, the axis and the coaxial setting of vibration exciter section of thick bamboo axis of corotation axis of rotation are established to the cover in the corotation axis of rotation, the eccentric block group that reverses is for a set of, and on the axial direction of a vibration exciter section of thick bamboo, the eccentric block group clamp that reverses is located and is located between the eccentric block group of two sets of corotations, the eccentric block group that reverses includes two reversal axis of rotation, and corotation axis of rotation axis is followed and axle symmetrical arrangement to the axis of two reversal axis of rotation, and the reversal eccentric block is established to the cover in the reversal axis of rotation, above -mentioned every figure, geomery, eccentric distance, weight and rotational speed that rotates epaxial corresponding eccentric block is all unanimous each other. The utility model discloses the structure is more compact equitable, and production technology and cost all can effectively be reduced.
Description
Technical field
This utility model belongs to road roller apparatus field, and in particular to shake for a kind of vertical orientation in vibrated roller
Driving wheel system.
Background technology
Vibrated roller is the machinery of the gravity using its own and the various buildings of vibrating compacting and road-making material;In highway
In construction, vibrated roller is compacted various non-sticky soil, rubble, macadam-aggregate mix and various bituminous concretes because of optimum
And be widely used.The agent structure of current directional vibration road roller, swashing generally by steel wheel and in steel wheel barrel chamber
The device cylinder that shakes is constituted;Vibrating shaft is set again in vibrator cylinder barrel chamber, and is sequentially arranged along the axial direction of vibrating shaft and multiple independently possessed drive
The eccentric block group of moving axis and bearing, the orientation that vibrator cylinder is realized eventually through the rotation forward and reverse each other of each eccentric block group swashs
Shake effect.With the progress of social science and technology, the essential structure of vibrated roller has reached its maturity, manufactured by producer
The core competitive power point of product also more comes also few.How before the effectiveness, service life and the reliability that ensure product work
Put, develop more simple manufacturing process, lower manufacturing cost or even functional reliability and service life is higher
Novel vibrating wheel system, become the current universal problem demanding prompt solution of vibrated roller manufacturer.
The content of the invention
The purpose of this utility model is to provide a kind of vertical orientation vibrating wheel system, its structure more compact and reasonable, production
Technique and cost are obtained effectively reduction, and the service life and functional reliability of system are also obtained synchronous guarantee.
For achieving the above object, this utility model employs technical scheme below:
A kind of vertical orientation vibrating wheel system, at least including vibrator cylinder, the tube-shaped tube intracavity of vibrator cylinder is along its axial direction
It is disposed with and rotates forward eccentric block group and the reversion eccentric block group contrary with eccentric block group steering is rotated forward, with transmission between each eccentric block group
Gear is engaged with each other with break-in and transmission power;It is characterized in that:It is two groups to rotate forward eccentric block group, and per group of rotating forward eccentric block group
Include a rotating forward rotary shaft, rotate forward and rotating forward eccentric block is arranged in rotary shaft, rotate forward the axis and vibrator cylinder axle of rotary shaft
Line is coaxially disposed;Reversion eccentric block group is one group, and on the axial direction of vibrator cylinder, reversion eccentric block group is being located in two groups just
Turn to locate between eccentric block group;Reversion eccentric block group includes two axis reversion rotary shaft parallel to each other, and two reversions are rotated
The axis of axle along rotating forward rotary shaft axis, arrange by axial symmetry, and in reversion rotary shaft reversion eccentric block is arranged;It is above-mentioned to rotate per root
The number of the corresponding eccentric block on axle, geomery, eccentric distance, weight and rotating speed are consistent with each other.
Eccentric block group is rotated forward with one group of rotating forward eccentric block group positioned at the vibrating motor place side of vibrator cylinder as first, with
Another group of eccentric block group is the second rotating forward eccentric block group;Slave drive gear is arranged at the same end of two reversion rotary shafts, the
One rotate forward the rotating forward eccentric shaft in eccentric block group with reversion rotary shaft abutting end end arrangement active travelling gear, active driving cog
Constitute gear drive between wheel and two groups of slave drive gears to coordinate;At least one of reversion rotary shaft relatively close second just
The axial end for turning eccentric block group is coaxially disposed the second travelling gear, so as to rotate with the rotating forward rotated forward positioned at second in eccentric block group
Constitute gear drive between the 3rd travelling gear of the corresponding axial end of axle to coordinate.
Along the axis direction of vibrator cylinder, sequentially and parallel to each other six pieces are disposed with the tube-shaped tube intracavity of vibrator cylinder
Discoideus gripper shoe, between the outer edge surface of gripper shoe and the tube-shaped tube Cavity surface of vibrator cylinder constitute face against affixed cooperation close
System;Per being separated each other with the spacer ring of loop overlapping shape between adjacent two panels gripper shoe, the both ends of the surface of spacer ring respectively with corresponding support
Face abutting relation is constituted between plate plate face;From the vibrating motor place end on vibrator cylinder along vibrator cylinder axis direction to vibrator
The cylinder other end is named successively, the gripper shoe include the first gripper shoe, the second gripper shoe, the 3rd gripper shoe, the 4th gripper shoe, the
Five gripper shoes and the 6th gripper shoe;First gripper shoe and the second gripper shoe and corresponding spacer ring institute enclosed space are constituted and are accommodating first just
Turn the accommodating chamber of eccentric block group;3rd gripper shoe and the 4th gripper shoe and corresponding spacer ring institute enclosed space are constituted and accommodate reversion bias
The accommodating chamber of block group;5th gripper shoe and the 6th gripper shoe and corresponding spacer ring institute enclosed space are constituted and accommodate the second rotating forward eccentric block
The accommodating chamber of group;Each rotary shaft constitutes bearing fit between corresponding gripper shoe respectively;Second gripper shoe and the 3rd is supported
Plate and corresponding spacer ring institute enclosed space constitute the gear cavity for accommodating active travelling gear and slave drive gear;Described 4th supports
Plate and the 5th gripper shoe and corresponding spacer ring institute enclosed space constitute the gear cavity for accommodating the second travelling gear and the 3rd travelling gear.
The system also includes oil groove ring flat-plate of the coaxial sleeve outside vibrator cylinder, the footpath between oil groove ring flat-plate and vibrator cylinder
The lubricant reservoir for accommodating lubricating oil is constituted to gap;Oil-feed tank is disposed with the outer wall of the vibrator cylinder through tube wall
Mouthful, oil-feed notch is to be arranged in the multiple tracks and the parallel vibrator cylinder axis direction of its arranged direction at vibrator cylinder upper half stack shell;
Oil-feed notch runs through corresponding spacer ring and is communicated at corresponding bearing and travelling gear place along the radial direction of vibrator cylinder respectively;
The spill port for outflow of lubrication oil in barrel chamber to lubricant reservoir is accordingly arranged at vibrator cylinder lower half stack shell.
The oil-feed notch includes the gripper shoe of radial direction insertion first and connects to enter positioned at first of bearing at the first gripper shoe
Oil groove mouth, the gripper shoe of radial direction insertion second are simultaneously connected positioned at the second oil-feed notch of bearing, connection active biography at the second gripper shoe
3rd oil-feed notch of moving gear and slave drive gear place gear cavity, the gripper shoe of radial direction insertion the 3rd are simultaneously connected positioned at the 3rd
The 4th oil-feed notch of bearing, the gripper shoe of radial direction insertion the 4th and connection are positioned at the 5th of bearing at the 4th gripper shoe at gripper shoe
6th oil-feed notch, the radial direction insertion the 5th of oil-feed notch, the second travelling gear of connection and the 3rd travelling gear place gear cavity
Gripper shoe simultaneously connects the 7th oil-feed notch and the gripper shoe of radial direction insertion the 6th positioned at bearing at the 5th gripper shoe and connects position
The 8th oil-feed notch of bearing at the 6th gripper shoe.
The frid of the strip that cross section is " T " shape, the lowermost end of frid are disposed with the interior side ring surface of oil groove ring flat-plate
With the interior side ring surface solid welding each other of oil groove ring flat-plate;The parallel oil groove ring flat-plate axis direction of the frid plate length direction, frid is the six roots of sensation
And it is circumferentially-spaced uniform along oil groove ring flat-plate.
Major advantage of the present utility model is:
1), by such scheme, this utility model has abandoned traditional dynamic, needs what various splines or even set axle coordinated
Complicated vibrator barrel structure, using the gear engagement system that compact conformation and power transmission are stable, arranges in pairs or groups coaxially arranged by cleverly
Rotate forward the reversion eccentric block group that eccentric block group and axial symmetry are arranged, and limit quality, rotating speed and the eccentric distance of each eccentric block
Deng it is achieved thereby that the controllable vertical orientation vibration purpose of the vibrator cylinder under succinct structure.Four groups of sizes, quality, eccentric throws
From identical eccentric block construction is waited, this not only ensure that the structural integrity and interchangeability of each eccentric block, manufacture
Or even assembling safeguard it is all more simple, corresponding accessory pattern it is also more unified and be easy to purchase, the functional reliability of system and
Property easy to use is obtained favourable guarantee.
2), as the further preferred scheme of said structure, herein by one group of active travelling gear, two groups of slave drive teeth
Wheel, one group of second travelling gear and one group of the 3rd travelling gear are forming driving gear set.Wherein, one group of active travelling gear is straight
Two groups of slave drive gears of engagement are connect, to ensure rotary shaft to be rotated forward at the first rotating forward eccentric block group and is inverted two at eccentric block group
Reversion rotates the power transmission purpose of between centers.Being fitted to each other for one group of second travelling gear and one group of the 3rd travelling gear, then it is real
The gear showed between reversion eccentric block group and the second rotating forward eccentric block group engages purpose.Why adopt said structure, be due to
It is located at the first rotating forward eccentric block group as the vibrating motor of power source, therefore should coordinates double driven with single driving gear at this
The gear engagement formation of gear, to ensure the stability that power is transmitted.Certainly, during practical operation, it is also contemplated that by the second transmission
Gear is set to two groups, to guarantee to invert the power transmission stability between eccentric block group and the second rotating forward eccentric block group.
3), on the basis of said structure, this utility model embodies the construction of each eccentric block group.By with gripper shoe
Accommodating chamber or gear cavity are formed with spacer ring, so as to each other structure is independent by each eccentric block group, modularity is ultimately formed
Eccentric block set constructor.Above-mentioned modular eccentric block set constructor, not only in attended operation only need to along vibrator cylinder axially according to
Secondary taking-up can carry out after corresponding module site inspection and change, or even directly whole by changing in extreme circumstances
Module is reaching efficient site examining and repairing demand.Simultaneously, each intermodule each other functional independence and only rely on travelling gear protecting
Mutual power transmission effectiveness is demonstrate,proved, and gear-driven reliability is unnecessary to mention, therefore the reliable operation degree of system can be obtained
To effectively lifting.
4) eccentric and the transition, with regard to the vibrating wheel system of current technology maturation itself, due to constituting eccentric block group
The presence of train, under the high speed rotation of vibrating shaft, the gear at eccentric block and transition train acutely rotates, produced exciting for it
Power is extremely huge, and fast heating is unavoidably started at each bearing.Only by traditional heat-dissipatings such as the low lubricant greases of radiating efficiency
Lubricating system, amount of heat produces and is collected in vibrator cylinder and cannot be released, and so as to easily cause equipment fault, makes
Extreme influence is also subject to the life-span.In view of this, by using the collocation vibrator cylinder of the lubricant reservoir with " T " word frid institute shape
Into flooding system lubrication structure, then coordinate many places specified location at vibrator cylinder upper half stack shell bus of the present utility model
Oil-feed notch, so as to realize the point-to-point Multipoint synchronous lubrication purpose for specifying bearing and gear in vibrator cylinder.It is logical
Cross said structure, this utility model can cause each bearing and gear inside vibrator cylinder to be obtained sufficient lubrication, and synchronously
The radiating purpose quickly and efficiently for realizing heat produced by each part in vibrator cylinder, its lubrication and radiating efficiency it is high,
The course of work is also extremely reliable stable.
Description of the drawings
Fig. 1 is structure cross-sectional schematic of the present utility model;
Fig. 2 is the A-A of Fig. 1 to sectional view;
Fig. 3 is the B-B direction sectional view of Fig. 1;
Fig. 4 is the position top view of each oil-feed notch at vibrator cylinder upper half stack shell;
Fig. 5 is arrangement states sectional view of each oil-feed notch with respect to vibrator cylinder.
Each label is as follows with each part corresponding relation of this utility model in figure:
A- steel wheel b- vibrating wheels drive assembly c- ring-type formers
D- left support bearing e- right support bearing f- vibrating motors
10- vibrator cylinder 11- oil-feed notches
The oil-feed notches of 11a- the first oil-feed notch 11b- the second oil-feed notches 11c- the 3rd
The oil-feed notches of the 4th the 5th oil-feed notch 11f- of oil-feed notch 11e- of 11d- the 6th
The oil-feed notches of the 7th oil-feed notch 11h- of 11g- the 8th
20- rotates forward eccentric block group 21- and rotates forward rotary shaft 22- rotating forward eccentric block
30- reversion eccentric block group 31- reversion rotary shaft 32- reversion eccentric blocks
41- slave drive gear 42- active travelling gears
The travelling gears of the second travelling gears of 43- 44- the 3rd
The gripper shoe of the second gripper shoe 53- of the first gripper shoes 52- of 51- the 3rd
The gripper shoe of the 4th the 5th gripper shoes 56- of gripper shoe 55- of 54- the 6th
60- spacer ring 70- oil groove ring flat-plate 71- frids
Specific embodiment
For ease of understanding, following description is made to concrete structure of the present utility model and workflow here in connection with accompanying drawing 1-5:
Concrete structure of the present utility model, can refer to shown in Fig. 1-3, including the steel wheel a as outermost framework, steel wheel
Coaxially it is arranged in a in oil groove ring flat-plate 70, oil groove ring flat-plate 70 and is coaxially arranged vibrator cylinder 10.Wherein, vibrating wheels drive assembly b is with outstanding
The mode of extension is arranged in the end of steel wheel a, and the radial arrangement twice parallel ring-type former c of plate face each other in steel wheel a barrel chambers,
Connected each other with oil groove ring flat-plate 70 between ring-type former c.The outer ring surface of ring-type former c is fixed in steel wheel a barrel chambers, and at inner ring surface
Be connected with left support bearing d and right support bearing e, two ends of vibrator cylinder 10 respectively with left support bearing d and right support axle
Hold the affixed cooperation that interference is constituted between e.
As shown in Figures 1 and 3, in vibrator cylinder 10 along its axis direction be installed on successively the first rotating forward eccentric block group,
Reversion eccentric block group 30 and second rotates forward eccentric block group.In the axial direction successively plate face is arranged in parallel in the barrel chamber of vibrator cylinder 10
First gripper shoe 51, the second gripper shoe 52, the 3rd gripper shoe 53, the 4th gripper shoe 54, the 5th gripper shoe 55 and the 6th gripper shoe
56.Wherein, the first rotating forward eccentric block group constitutes accommodating chamber by the first gripper shoe 51, the second gripper shoe 52, spacer ring 60, and with one
The root rotating forward rotary shaft 21 coaxial with vibrator cylinder 10 constitutes drive shaft, then relies on a piece be set in rotating forward rotary shaft 21 just
Turn eccentric block 22 to reach its eccentric rotary purpose.Second rotating forward eccentric block group is similar with the first rotating forward eccentric block group structure, its
Accommodating chamber is made up of the 5th gripper shoe 55, the 6th gripper shoe 56, spacer ring 60, and it is coaxial to rotate forward eccentric block group with first with one
Rotating forward rotary shaft 21 constitute drive shaft, then rotate forward eccentric block 22 reaching it by a piece rotated forward in rotary shaft 21 is set in
Eccentric rotary purpose.Reversion eccentric block group 30 then includes the 3rd gripper shoe 53, the 4th gripper shoe 54 and spacer ring 60 to constitute receiving
Chamber, and rotary shaft is constituted with two reversion rotary shafts 31, then by a piece be respectively sleeved in a reversion rotary shaft 31
Invert eccentric block 32 to ensure the eccentric purpose of its reversion.Reversion rotary shaft 31 can be regarded as along the axis of vibrator cylinder 10 and axle pair
Claim to be distributed, and diameter parallel each other between two reversion rotary shafts 31.Above-mentioned two pieces rotate forward eccentric block 22 and two pieces of reversion eccentric blocks
32 to each other geomery, quality, eccentric distance etc. it is consistent, to realize the vertical orientation exciting purpose of the system.Second
Gap constitutes gear between gap and the 4th gripper shoe 54 and the 5th gripper shoe 55 between the gripper shoe 53 of fagging 52 and the 3rd
Chamber, to accommodate corresponding travelling gear, so as to realize that it is eccentric that the first rotating forward eccentric block group, reversion eccentric block group 30 and second are rotated forward
Power transmission effect between block group.The positioned opposite of the first rotating forward eccentric block group is then arranged in as the vibrating motor f of power source
The opposite side axial end of active travelling gear 42.
To ensure the high efficiency and heat radiation and lubrication purpose of the system, as shown in Fig. 2 and Fig. 4-5, in the upper half of vibrator cylinder 10
At stack shell, namely oil-feed notch 11 is disposed with its upper half cylinder.Due to the setting of above-mentioned oil groove ring flat-plate 70 so that oil groove ring
The annulus formed between plate 70 and vibrator cylinder 10 constitutes lubricant reservoir.By by oil-feed notch 11 along vibrator cylinder 10
Radially run through and be communicated at each movable part of inside, so as to realize by the lubricant reservoir outside vibrator cylinder 10 to vibrator cylinder
The lubrication and radiating purpose of corresponding bearing and gear in 10.Oil-feed notch 11 can be as shown in Figure 4 paired appearance, to lift it
Lubricating efficiency.Certainly, accordingly, the lower half stack shell relative set oil return opening of vibrator cylinder 10, to ensure the cyclicity of lubricating oil.
Oily ability is scooped for lifting oil groove ring flat-plate 70, as shown in Figure 1, it is contemplated that arrange many " T " along the inner ring surface of oil groove ring flat-plate 70
The frid 71 of word long strip-board shape, so as to coordinate oil groove ring flat-plate inner ring surface to scoop oil groove to be formed using the bending structure of frid 71, most
Reach eventually and efficient scoop oil and the fluid of relative oil-feed notch 11 pours pouring effect.The length of frid 71 should be with oil groove ring flat-plate 70
Length is consistent, and two ends are welded in respectively at corresponding ring-type former c plate faces, further to ensure as oil groove ring flat-plate 70
The working strength of steel wheel a, the integraty of ring-type former c or even oil groove ring flat-plate 70 and entirety.
Claims (6)
1. a kind of vertical orientation vibrating wheel system, at least including vibrator cylinder (10), the tube-shaped tube intracavity edge of vibrator cylinder (10)
Its is axial arranged to have and rotates forward eccentric block group (20) and reversion eccentric block group (30) contrary with eccentric block group (20) steering is rotated forward,
It is engaged with each other with break-in and transmission power with travelling gear between each eccentric block group;It is characterized in that:Rotating forward eccentric block group (20) is
Two groups, and per group of rotating forward eccentric block group (20) includes that one rotates forward rotary shaft (21), and in rotating forward rotary shaft (21) rotating forward is arranged
Eccentric block (22), the axis and vibrator cylinder (10) axis coaxle for rotating forward rotary shaft (21) is arranged;Inverting eccentric block group (30) is
One group, on the axial direction of vibrator cylinder (10), reversion eccentric block group (30) be located in two groups of rotating forwards eccentric block group (20) it
Between locate;Reversion eccentric block group (30) includes two axis reversion rotary shaft (31) parallel to each other, and two reversion rotary shafts
(31) axis along rotating forward rotary shaft (21) axis, arrange by axial symmetry, and in reversion rotary shaft (31) reversion eccentric block is arranged
(32);The number of the corresponding eccentric block in above-mentioned every rotary shaft, geomery, eccentric distance, weight and rotating speed each other one
Cause.
2. a kind of vertical orientation vibrating wheel system according to claim 1, it is characterised in that:With positioned at vibrator cylinder (10)
One group of rotating forward eccentric block group (20) of vibrating motor place side be first to rotate forward eccentric block group, with another group of eccentric block group as the
Two rotate forward eccentric block group;Slave drive gear (41) is arranged at the same end of two reversions rotary shaft (31), first rotates forward bias
In block group rotating forward eccentric shaft with reversion rotary shaft (31) abutting end end arrangement active travelling gear (42), active travelling gear
(42) gear drive is constituted and between two groups of slave drive gears (41) to coordinate;At least one of reversion rotary shaft (31) is relative
Axial end near the second rotating forward eccentric block group is coaxially disposed the second travelling gear (43), so as to rotate forward eccentric block with positioned at second
Gear drive is constituted between the 3rd travelling gear (44) of the corresponding axial end of rotating forward rotary shaft (21) in group to coordinate.
3. a kind of vertical orientation vibrating wheel system according to claim 2, it is characterised in that:Along the axle of vibrator cylinder (10)
Line direction, vibrator cylinder (10) tube-shaped tube intracavity sequentially and it is parallel to each other be disposed with six pieces of discoideus gripper shoes,
Between the outer edge surface of fagging and the tube-shaped tube Cavity surface of vibrator cylinder (10) constitute face against affixed matching relationship;Per adjacent two
Spacer ring (60) between piece gripper shoe with loop overlapping shape separates each other, and the both ends of the surface of spacer ring (60) are respectively between corresponding gripper shoe plate face
Composition face abutting relation;From the vibrating motor place end on vibrator cylinder (10) along vibrator cylinder (10) axis direction to vibrator
Cylinder (10) other end is named successively, and the gripper shoe includes the first gripper shoe (51), the second gripper shoe (52), the 3rd gripper shoe
(53), the 4th gripper shoe (54), the 5th gripper shoe (55) and the 6th gripper shoe (56);First gripper shoe (51) and the second gripper shoe
(52) and accordingly spacer ring (60) institute enclosed space constitutes the accommodating chamber for accommodating the first rotating forward eccentric block group;3rd gripper shoe (53)
The accommodating chamber for accommodating reversion eccentric block group (30) is constituted with the 4th gripper shoe (54) and corresponding spacer ring (60) institute enclosed space;The
Five gripper shoes (55) and the 6th gripper shoe (56) and corresponding spacer ring (60) institute enclosed space are constituted and accommodate the second rotating forward eccentric block
The accommodating chamber of group;Each rotary shaft constitutes bearing fit between corresponding gripper shoe respectively;Second gripper shoe (52) and the 3rd
Gripper shoe (53) and corresponding spacer ring (60) institute enclosed space are constituted and accommodate active travelling gear (42) and slave drive gear
(41) gear cavity;4th gripper shoe (54) and the 5th gripper shoe (55) and corresponding spacer ring (60) institute enclosed space are constituted
Accommodate the gear cavity of the second travelling gear (43) and the 3rd travelling gear (44).
4. a kind of vertical orientation vibrating wheel system according to claim 3, it is characterised in that:The system also includes coaxial sleeve
Located at vibrator cylinder (10) oil groove ring flat-plate (70) outward, the radial clearance between oil groove ring flat-plate (70) and vibrator cylinder (10) is constituted
For accommodating the lubricant reservoir of lubricating oil;Oil-feed notch (11) is disposed with through tube wall at the outer wall of the vibrator cylinder (10),
Oil-feed notch (11) is the multiple tracks that is arranged at vibrator cylinder (10) upper half stack shell and the parallel vibrator cylinder (10) of its arranged direction
Axis direction;Oil-feed notch (11) runs through corresponding spacer ring (60) and is communicated to corresponding along the radial direction of vibrator cylinder (10) respectively
Bearing and travelling gear place at;Accordingly arrange at vibrator cylinder (10) lower half stack shell for outflow of lubrication oil in barrel chamber to lubrication
The spill port of oil pocket.
5. a kind of vertical orientation vibrating wheel system according to claim 4, it is characterised in that:Oil-feed notch (11) bag
Include the gripper shoe of radial direction insertion first (51) and connect positioned at the first oil-feed notch (11a), the footpath of the first gripper shoe (51) place bearing
To the gripper shoe of insertion second (52) and connect positioned at the second gripper shoe (52) place bearing the second oil-feed notch (11b), connection master
3rd oil-feed notch (11c) of nutating gear (42) and slave drive gear (41) place gear cavity, radial direction insertion the 3rd
Fagging (53) simultaneously connects the 4th oil-feed notch (11d), the gripper shoe of radial direction insertion the 4th for being located at the 3rd gripper shoe (53) place bearing
(54) and connect positioned at the 4th gripper shoe (54) place bearing the 5th oil-feed notch (11e), connection the second travelling gear (43) and
6th oil-feed notch (11f) of the 3rd travelling gear (44) place gear cavity, the gripper shoe (55) of radial direction insertion the 5th simultaneously connect position
In the 5th gripper shoe (55) place bearing the 7th oil-feed notch (11g) and the gripper shoe (56) of radial direction insertion the 6th and connection be located at
8th oil-feed notch (11h) of the 6th gripper shoe (56) place bearing.
6. a kind of vertical orientation vibrating wheel system according to claim 4 or 5, it is characterised in that:Oil groove ring flat-plate (70)
The frid (71) of the strip that cross section is " T " shape, lowermost end and the oil groove ring flat-plate of frid (71) are disposed with interior side ring surface
(70) interior side ring surface solid welding each other;Parallel oil groove ring flat-plate (70) axis direction of frid (71) the plate length direction, frid (71)
For the six roots of sensation and circumferentially-spaced uniform along oil groove ring flat-plate (70).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621049092.3U CN206109943U (en) | 2016-09-09 | 2016-09-09 | Perpendicular directional vibration wheel system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621049092.3U CN206109943U (en) | 2016-09-09 | 2016-09-09 | Perpendicular directional vibration wheel system |
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Publication Number | Publication Date |
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CN206109943U true CN206109943U (en) | 2017-04-19 |
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ID=58519063
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CN201621049092.3U Withdrawn - After Issue CN206109943U (en) | 2016-09-09 | 2016-09-09 | Perpendicular directional vibration wheel system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106245500A (en) * | 2016-09-09 | 2016-12-21 | 合肥永安绿地工程机械有限公司 | A kind of vertical orientation vibrating wheel system |
-
2016
- 2016-09-09 CN CN201621049092.3U patent/CN206109943U/en not_active Withdrawn - After Issue
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106245500A (en) * | 2016-09-09 | 2016-12-21 | 合肥永安绿地工程机械有限公司 | A kind of vertical orientation vibrating wheel system |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20170419 Effective date of abandoning: 20180817 |
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AV01 | Patent right actively abandoned |