A kind of vibration device for blender
Technical field
The utility model belongs to blender technical field more particularly to a kind of vibration device for blender.
Background technique
Blender is that a variety of raw material can be stirred mixing by one kind, makes a kind of machine of specific mixture
Device.Forced mixer and self-falling mixer two major classes can be divided into according to agitating mode, wherein forced mixer is because of its tool
Have the characteristics that mixing quality is good, stirring efficiency is high and favors by client, is the mixing plant of domestic and international mainstream at present.With with
The material that the continuous improvement and new material that family requires mixing quality are especially more difficult stirring continues to bring out, to traditional mixing plant
Technical performance and reliability more stringent requirements are proposed.By taking cement concrete mixer as an example: traditional forced mixer
Belong to " static(al) stirring ", high in the prevalence of the energy and raw materials consumption, the fine sight stirring of concrete is uneven, adaptability for materials
The problems such as poor.If the cement slurry in concrete macroscopically homogeneous after stirring is placed on microscopically observation, it is microcosmic on still deposit
In 10% ~ 20% cement granules " conglomeration " phenomenon, the mixing quality of concrete and the durability of concrete component are influenced.
Vibratory Mixing technology is generally recognised as improving mixing quality and most economical one of the method for efficiency both at home and abroad.From previous generation
The thirties record so far, domestic and foreign scholars' result of study shows: Vibratory Mixing can be such that the particle velocity in mixture increases,
Increase effective collision number, effectively reduces cement granules " conglomeration " phenomenon, significantly increase the interfacial adhesion between aggregate and Behavior of Hardened Cement Paste
Intensity improves link the weakest in concrete, improves concrete strength, improves the micro- microscopical structure of concrete, extends coagulation
The durability of native component.Vibration device is the core of Vibratory Mixing equipment, but since the development of Vibratory Mixing technical industryization is later,
With mixture type increase and raising to mixing quality requirement, vibration device on existing oscillating mixer structure,
Effect of vibration effect and reliability etc. still have the space further promoted.
Summary of the invention
Utility model aims to solve the vibration devices of existing oscillating mixer to make in the prevalence of structure, vibration
The problem of being needed to be further improved with effect and reliability etc., and provide that a kind of structure is simpler, effect of vibration effect is more preferable, can
By the higher vibration device of property.
The technical scheme adopted by the utility model is
A kind of vibration device for blender, including vibrating driver, transmission shaft, bearing I, bearing block I, bearing
II, bearing block II, agitating shaft, the transmission shaft are arranged through the bearing block I and are supported on by least two bearings I
In the bearing block I, one end of the transmission shaft is connected with the vibrating driver, the other end of the transmission shaft with it is described
Bearing block II is connected, and the bearing block II is connected by the bearing II with the spindle nose of the one end of the mixing shaft, the transmission shaft
Centre of gyration line and the outer rollaway nest axis offset of the bearing II be arranged, the outer rollaway nest axis of the bearing II refers to bearing
II outer rollaway nest along the transmission shafts to center line.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, the seam allowance inner surface or outer surface
Can be non-disc, and preferably the end part of driving shaft is male half coupling, II end of bearing block is concave mouth, after assembly, institute
The outer rollaway nest axis offset of the centre of gyration line and the bearing II of stating transmission shaft is arranged;The end part of driving shaft can also be used
For concave mouth, II end of bearing block is male half coupling.
Further, it is welded after seam allowance cooperation between the transmission shaft and the bearing block II, the preferably described transmission crown of roll
The centre of gyration line eccentric setting of the relatively described transmission shaft of seam allowance outer circle center line;As previously mentioned, the transmission shaft and the axis
Holding seam allowance cooperation between seat II can mutually negate, and details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, preferably described II concave mouth of bearing block
Relatively described II excircle eccentricity of the bearing block setting of inner hole, after assembly, the centre of gyration line of the transmission shaft and the bearing II
The setting of outer rollaway nest axis offset;As previously mentioned, seam allowance cooperation can be negated mutually between the transmission shaft and the bearing block II,
Details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, outside the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and the relatively described axis of II concave mouth inner hole of the bearing block
Hold the setting of II excircle eccentricity of seat, after assembly, the outer rollaway nest axis offset of the centre of gyration line of the transmission shaft and the bearing II
Setting;As previously mentioned, seam allowance cooperation can be negated mutually between the transmission shaft and the bearing block II, details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, outside the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and the bearing block II is for installing the bearing II
The centre of gyration line eccentric setting of the relatively described transmission shaft of inner hole centreline;As previously mentioned, the transmission shaft and the bearing block
Seam allowance cooperation can be negated mutually between II, and details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, preferably described II concave mouth of bearing block
Relatively described II excircle eccentricity of the bearing block setting of inner hole, and the bearing block II is used to install the inner hole centreline of the bearing II
The centre of gyration line eccentric setting of the relatively described transmission shaft;As previously mentioned, seam allowance between the transmission shaft and the bearing block II
Cooperation can be negated mutually, and details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, the bearing block II and the bearing
Be provided with eccentric bushing between II outer ring, the eccentric bushing be can be multiaxis section sleeve part, the preferably described transmission crown of roll stops
The centre of gyration line eccentric setting of the mouth relatively described transmission shaft of outer circle center line, and preferred uniaxial section eccentric bushing is described for installing
The centre of gyration line eccentric setting of the relatively described transmission shaft of the inner hole centreline of bearing II, and the bearing block II is for installing institute
State the centre of gyration line eccentric setting of the relatively described transmission shaft of inner hole centreline of bearing II;As previously mentioned, the transmission shaft with
Seam allowance cooperation can be negated mutually between the bearing block II, and details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, the bearing block II and the bearing
Eccentric bushing is provided between II outer ring, the eccentric bushing can be multiaxis section sleeve part, and the preferably described bearing block II is recessed only
Mouth inner hole is arranged with respect to II excircle eccentricity of bearing block, and preferred uniaxial section eccentric bushing is used to install the inner hole center of the bearing II
The centre of gyration line eccentric setting of the relatively described transmission shaft of line;As previously mentioned, between the transmission shaft and the bearing block II only
Mouth cooperation can be negated mutually, and details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, outside the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and the bearing II is outer ring capacity eccentric bearing, it is described outer
Circle capacity eccentric bearing refers to that the bearing of outer ring outer circle center line and outer rollaway nest eccentric axis, the outer rollaway nest axis refer to outer rollaway nest
Along the transmission shafts to center line;As previously mentioned, seam allowance cooperation can phase between the transmission shaft and the bearing block II
It mutually negates, details are not described herein.
Further, seam allowance cooperates between the transmission shaft and the bearing block II, preferably described II concave mouth of bearing block
Inner hole with respect to II excircle eccentricity of bearing block be arranged, and the bearing II be outer ring capacity eccentric bearing, as previously mentioned, the transmission shaft with
Seam allowance cooperation can be negated mutually between the bearing block II, and details are not described herein.
Further, be provided with flange between the transmission shaft and the bearing block II, the flange both ends respectively with institute
Transmission shaft and the cooperation of II seam allowance of the bearing block are stated, and the preferred flange is concave mouth close to the transmission shaft side, accordingly
End part of driving shaft be male half coupling, the flange and transmission shaft seam allowance cooperation after weld;It is preferred that the flange is close to the bearing
II side of seat is male half coupling, and corresponding II one end of bearing block is concave mouth, and the flange and II seam allowance of bearing block cooperate rear bolt
Connection;As previously mentioned, the seam allowance cooperation of flange two sides can be negated mutually, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line;As previously mentioned, flange and the cooperation of transmission shaft seam allowance can
Mutually to negate, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, in the preferably described flange concave mouth
Hole is arranged with respect to flange excircle eccentricity, after assembly, the outer rollaway nest axis of the centre of gyration line of the transmission shaft and the bearing II
Offset setting;As previously mentioned, flange can be negated mutually with the cooperation of transmission shaft seam allowance, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, outside the preferably described flange male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line;As previously mentioned, flange and the cooperation of II seam allowance of bearing block can
Mutually to negate, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described bearing block II is recessed only
Mouth inner hole is arranged with respect to II excircle eccentricity of bearing block, and after assembly, the centre of gyration line of the transmission shaft is outer with the bearing II
The setting of raceway axis offset;As previously mentioned, flange can be negated mutually with the cooperation of II seam allowance of bearing block, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and the flange concave mouth inner hole is with respect to flange excircle
Eccentric setting;As previously mentioned, flange can be negated with the cooperation of transmission shaft seam allowance, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and the flange male half coupling outer circle center line is with respect to institute
State the centre of gyration line eccentric setting of transmission shaft;As previously mentioned, seam allowance cooperation in flange both ends can negate, it is no longer superfluous herein
It states.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and II concave mouth inner hole of the bearing block is with respect to bearing
Seat II excircle eccentricity setting;As previously mentioned, seam allowance cooperation in flange both ends can negate, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and the bearing block II is for installing the bearing II
The relatively described transmission shaft of inner hole centreline centre of gyration line eccentric setting;As previously mentioned, flange and transmission shaft seam allowance cooperate
It can negate, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described bearing block II and institute
It states and is provided with eccentric bushing between II outer ring of bearing, the eccentric bushing can be multiaxis section sleeve part, the preferably described transmission shaft
The centre of gyration line eccentric setting of the relatively described transmission shaft of male half coupling outer circle center line, and preferred uniaxial section eccentric bushing is for installing
The centre of gyration line eccentric setting of the relatively described transmission shaft of the inner hole centreline of the bearing II;As previously mentioned, flange and transmission
The cooperation of axis seam allowance can negate, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described transmission shaft male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and the bearing II is outer ring capacity eccentric bearing;As before
Described, flange can be negated with the cooperation of transmission shaft seam allowance, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, in the preferably described flange concave mouth
Hole is arranged with respect to flange excircle eccentricity, and the centre of gyration line of the relatively described transmission shaft of flange male half coupling outer circle center line is inclined
Heart setting;As previously mentioned, seam allowance cooperation in flange two sides can negate, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, in the preferably described flange concave mouth
Hole is arranged with respect to flange excircle eccentricity, and II concave mouth inner hole of bearing block is arranged with respect to II excircle eccentricity of bearing block;As previously mentioned,
Seam allowance cooperation in flange two sides can negate, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, in the preferably described flange concave mouth
Hole is arranged with respect to flange excircle eccentricity, and bearing block II is used to install the relatively described transmission shaft of inner hole centreline of the bearing II
Centre of gyration line eccentric setting;As previously mentioned, flange can be negated with the cooperation of transmission shaft seam allowance, details are not described herein.
Further, flange, the bearing block II and the axis are provided between the transmission shaft and the bearing block II
It holds and is provided with eccentric bushing between II outer ring, the eccentric bushing can be multiaxis section sleeve part, the preferably described flange concave mouth
Inner hole is arranged with respect to flange excircle eccentricity, and the inner hole centreline that preferred uniaxial section eccentric bushing is used to install the bearing II is opposite
The centre of gyration line eccentric setting of the transmission shaft;As previously mentioned, flange can be negated with the cooperation of transmission shaft seam allowance, herein no longer
It repeats.
Further, flange is provided between the transmission shaft and the bearing block II, in the preferably described flange concave mouth
Hole is arranged with respect to flange excircle eccentricity, and the bearing II is outer ring capacity eccentric bearing;As previously mentioned, flange is matched with transmission shaft seam allowance
Conjunction can negate, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, outside the preferably described flange male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and II concave mouth inner hole of the bearing block is with respect to bearing block
The setting of II excircle eccentricity;As previously mentioned, flange can be negated with the cooperation of II seam allowance of bearing block, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, outside the preferably described flange male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and the bearing block II is for installing the bearing II
The centre of gyration line eccentric setting of the relatively described transmission shaft of inner hole centreline;As previously mentioned, flange and II seam allowance of bearing block cooperate
It can negate, details are not described herein.
Further, flange, the bearing block II and the axis are provided between the transmission shaft and the bearing block II
It holds and is provided with eccentric bushing between II outer ring, the eccentric bushing can be multiaxis section sleeve part, the preferably described flange male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of outer circle center line, and preferred uniaxial section eccentric bushing is for installing the axis
Hold the centre of gyration line eccentric setting of the II relatively described transmission shaft of inner hole centreline;As previously mentioned, flange stops with bearing block II
Mouth cooperation can negate, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, outside the preferably described flange male half coupling
The centre of gyration line eccentric setting of the relatively described transmission shaft of circle center line, and the bearing II is outer ring capacity eccentric bearing;Such as preceding institute
It states, flange can be negated with the cooperation of II seam allowance of bearing block, and details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described bearing block II is recessed only
Mouth inner hole is arranged with respect to II excircle eccentricity of bearing block, and the bearing block II is used to install the inner hole centreline phase of the bearing II
To the centre of gyration line eccentric setting of the transmission shaft;As previously mentioned, flange can be negated with the cooperation of II seam allowance of bearing block, herein
It repeats no more.
Further, flange, the bearing block II and the axis are provided between the transmission shaft and the bearing block II
It holds and is provided with eccentric bushing between II outer ring, the eccentric bushing can be multiaxis section sleeve part, and the preferably described bearing block II is recessed
Seam allowance inner hole is arranged with respect to II excircle eccentricity of bearing block, and preferred uniaxial section eccentric bushing is used to install in the inner hole of the bearing II
The centre of gyration line eccentric setting of the relatively described transmission shaft of heart line;As previously mentioned, flange can take with the cooperation of II seam allowance of bearing block
Instead, details are not described herein.
Further, flange is provided between the transmission shaft and the bearing block II, the preferably described bearing block II is recessed only
Mouth inner hole is arranged with respect to II excircle eccentricity of bearing block, and the bearing II is outer ring capacity eccentric bearing;As previously mentioned, flange and bearing
Seat II seam allowance cooperation can negate, and details are not described herein.
Further, the bearing block II is used to install the centre of gyration of the relatively described transmission shaft of inner hole of the bearing II
Line eccentric setting.
Further, it is provided with eccentric bushing between II outer ring of the bearing block II and the bearing, the eccentric bushing can be with
For multiaxis section sleeve part, preferably uniaxial section eccentric bushing is used to install the relatively described transmission of inner hole centreline of the bearing II
The centre of gyration line eccentric setting of axis.
Further, the bearing II is outer ring capacity eccentric bearing.
Further, it is provided with eccentric bushing between II outer ring of the bearing block II and the bearing, the eccentric bushing can be with
For multiaxis section sleeve part, the bearing block II is used to install the relatively described transmission shaft of inner hole centreline of the eccentric bushing
Centre of gyration line eccentric setting, and preferred uniaxial section eccentric bushing is used to install the relatively described biography of inner hole centreline of the bearing II
The centre of gyration line eccentric setting of moving axis.
Further, the bearing block II is used to install returning for the relatively described transmission shaft of inner hole centreline of the bearing II
Turn center line eccentric setting, and the bearing II is outer ring capacity eccentric bearing.
Further, it is provided with eccentric bushing between II outer ring of the bearing block II and the bearing, the eccentric bushing can be with
For multiaxis section sleeve part, preferably uniaxial section eccentric bushing is used to install the relatively described transmission of inner hole centreline of the bearing II
The centre of gyration line eccentric setting of axis, and the bearing II is outer ring capacity eccentric bearing.
Further, the transmission shaft side that is connected with the agitating shaft is provided with balance weight, and the balance weight is with transmission
Axis rotates synchronously, and for carrying out single-side dynamic balance to transmission shaft, specific location and size are determines according to actual conditions.
Further, the transmission shaft is connected side and the transmission shaft and the vibrating driver with the agitating shaft
Connected side is provided with balance weight, and for carrying out dual-threshold detection to transmission shaft, the balance weight turns with transmission shaft is synchronous
Dynamic, specific location and size are determines according to actual conditions.
The utility model has the beneficial effects that:
1. the utility model provides a kind of vibration device for blender, structure is simple, stable and reliable in work;
2. specific eccentric design and vibrating driver design can be used, obtain agitating device according to specific material
The amplitude and frequency that must be given, to the adaptable of different materials;
3. in the course of work, amplitude and frequency be not by load effect, and vibration performance is stablized, the mixture consistency after mix
It is good;
4. being cooperated between transmission shaft and bearing block II using seam allowance, structure is simple, is located by connecting conveniently, manufacturing cost is low;
5. flange is arranged between transmission shaft and bearing block II and is cooperated using seam allowance, it is located by connecting conveniently, eccentric scheme is real
More flexible multiplicity is applied, is dismounted easy to maintain;
6. take dynamic balancing to design, vibration device the operation is stable, equipment dependability height.
Detailed description of the invention
Fig. 1-Figure 49 is respectively the vibration device structural schematic diagram of 1-embodiment of the utility model embodiment 49.
In figure: 1, vibrating driver;101, motor;102, driving pulley;103, belt;104, driven pulley;2, axis
Hold retaining ring;3, abutment sleeve;4, bearing (ball) cover;5, transmission shaft;6, bearing block I;7, bearing I;8, oil leab;9, sealing ring;
10, bearing block II;11, bearing II;12, dustproof cover;13, agitating shaft;14, balance weight;15, flange;16, eccentric bushing.
Specific embodiment
The present invention will be further explained below with reference to the attached drawings and specific examples.
Embodiment 1
A kind of vibration device for blender, including vibrating driver 1, transmission shaft 5, bearing I 7, bearing block I 6, axis
Hold II 11, bearing block II 10, agitating shaft 13.The transmission shaft 5 is multi-diameter shaft and is arranged through the bearing block I 6, and passes through two
A support of bearing I 7 is mounted in the bearing block I 6, and I 6 both ends of bearing block are respectively arranged with bearing (ball) cover 4, set on bearing block I 6
Oil leab 8 there are two setting, oil duct of the oil leab 8 respectively with I 7 outer ring of bearing connects, for moistening to bearing I 7
It is sliding.The power source of the vibrating driver 1 is motor 101, is equipped with driving pulley 102, transmission shaft on 101 output shaft of motor
5 one end are equipped with driven pulley 104, and 104 end of driven pulley is provided with shaft end ring 2, between driven pulley 104 and bearing I 7
It is provided with abutment sleeve 3, is connected between driving pulley 102 and driven pulley 104 by the transmission of belt 103, and transmission shaft 5 works
Revolving speed is 1500rpm, and the other end of the transmission shaft 5 is structure as a whole with the bearing block II 10, and the bearing block II 10 is logical
It crosses the bearing II 11 and the spindle nose of described 13 one end of agitating shaft is rotatedly connected, be provided with the shaft shoulder on the spindle nose of 13 one end of agitating shaft
And shaft end ring 2, bearing II 11 realize axially position, bearing by the shaft shoulder and shaft end ring 2 being arranged on 13 spindle nose of agitating shaft
The inner hole connection corresponding with bearing block II 10 of II 11 outer ring outer circles, the spindle nose of bearing II 11 inner ring inner hole and 13 one end of agitating shaft
Corresponding outer circle is cooperatively connected, and realizes and independently rotates between transmission shaft 5 and agitating shaft 13.The other end of bearing block II 10 is provided with anti-
Dirt lid 12 is provided with sealing ring 9 on the bearing (ball) cover 4 and dustproof cover 12, on the one hand prevents bearing block I 6 and bearing block II
Lubricating oil leaks in 10, on the other hand prevents extraneous dust from entering.The bearing block II 10 is for installing the bearing II 11
Inner hole fabricates bias, and eccentric amount e=1mm with respect to the centre of gyration line of transmission shaft 5, therefore, the biography is realized after assembly
The outer rollaway nest axis offset of the centre of gyration line of moving axis 5 and the bearing II 11 is arranged, wherein the outer rollaway nest of the bearing II 11
Axis refers specifically to the outer rollaway nest of bearing II 11 along the axial center line of the transmission shaft 5.
When work, bearing I 7 and bearing II 11 are lubricated in advance by oil leab 8, the bearing block I 6 is fixed
On axle of stirrer frame, start motor 101, the biography for being equipped with driven pulley 104 is driven by driving pulley 102 and belt 103
5 high-speed rotation of moving axis, and then II 10 high-speed rotation of bearing block of inner eccentric holes setting is driven, then will be periodical by bearing II 11
Frequency low-amplitude vibrates the end for being transferred to 13 one end of agitating shaft, so that entire agitating device be driven to vibrate.At the same time, the axis
It holds on the end face of seat II 10 and is provided with balance weight 14 on 104 end face of driven pulley, effectively reduce and be transferred to rack
And the bad vibration of transmission system, the utilization rate of vibrational energy is improved, effective effect of vibration effect is strengthened.
Embodiment 2
Difference from example 1 is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, partially
Heart set 16 can be multiaxis section sleeve part, and preferred single shaft section eccentric bushing 16 is used to install the inner hole centreline of bearing II 11
The centre of gyration line eccentric setting of opposite transmission shaft 5, to realize the centre of gyration line and the bearing II 11 of the transmission shaft 5
Outer rollaway nest axis offset setting.
Embodiment 3
Difference from example 1 is that: the bearing II 11 is outer ring capacity eccentric bearing, and the outer ring capacity eccentric bearing refers to
Be outer ring outer circle center line and outer rollaway nest eccentric axis bearing, the outer rollaway nest axis refers to outer rollaway nest along the transmission shaft
5 axial center lines, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are set
It sets.
Embodiment 4
Difference from example 1 is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, and the bearing block II 10 is used to install centre of gyration line processing of the inner hole with respect to transmission shaft 5 of bearing II 11
Manufacture is eccentric, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 5
Difference from example 1 is that: the bearing II 11 is outer ring capacity eccentric bearing, and the bearing block II 10 is used
Bias is fabricated with respect to the centre of gyration line of transmission shaft 5 in the inner hole of installation bearing II 11, to realize the transmission shaft 5
The outer rollaway nest axis offset of centre of gyration line and the bearing II 11 is arranged.
Embodiment 6
Difference from example 1 is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, and the bearing II 11 is outer ring capacity eccentric bearing, thus realize the centre of gyration line of the transmission shaft 5 with it is described
The outer rollaway nest axis offset of bearing II 11 is arranged.
Embodiment 7
Difference from example 1 is that: it is welded after seam allowance cooperation between the transmission shaft 5 and the bearing block II 10
It connecing, the inner hole that the bearing block II 10 is used to install bearing II 11 is eccentric with respect to the centre of gyration line processing and manufacturing of transmission shaft 5, from
And it realizes the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 and is arranged.
Embodiment 8
With embodiment 7 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 9
With embodiment 7 the difference is that: the bearing II 11 be outer ring capacity eccentric bearing, to realize the transmission shaft
The outer rollaway nest axis offset of 5 centre of gyration line and the bearing II 11 is arranged.
Embodiment 10
With embodiment 7 the difference is that: seam allowance can be negated mutually between transmission shaft 5 and bearing block II 10, preferably
5 male half coupling outer circle center line of transmission shaft with respect to transmission shaft 5 centre of gyration line eccentric setting, to realize the transmission shaft 5
Centre of gyration line and the bearing II 11 outer rollaway nest axis offset be arranged.
Embodiment 11
With embodiment 7 the difference is that: as previously mentioned, the opposite bearing block of preferred II 10 concave mouth inner hole of bearing block
II 10 excircle eccentricities setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11 are inclined
Move setting.
Embodiment 12
With embodiment 7 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, and the bearing block II 10 is used to install centre of gyration line processing of the inner hole with respect to transmission shaft 5 of bearing II 11
Manufacture is eccentric, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 13
With embodiment 7 the difference is that: the bearing II 11 be outer ring capacity eccentric bearing, and the bearing block II 10 use
Bias is fabricated with respect to the centre of gyration line of transmission shaft 5 in the inner hole of installation bearing II 11, to realize the transmission shaft 5
The outer rollaway nest axis offset of centre of gyration line and the bearing II 11 is arranged.
Embodiment 14
With embodiment 7 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and preferred 5 male half coupling outer circle center line of transmission shaft is with respect to the revolution of transmission shaft 5
Center line eccentric setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11
Setting.
Embodiment 15
With embodiment 7 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and II 10 concave mouth inner hole of preferred bearing block is inclined with respect to II 10 outer circle of bearing block
Heart setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 16
With embodiment 7 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, and the bearing II 11 is outer ring capacity eccentric bearing, thus realize the centre of gyration line of the transmission shaft 5 with it is described
The outer rollaway nest axis offset of bearing II 11 is arranged.
Embodiment 17
With embodiment 7 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, preferred single shaft section eccentric bushing 16 is used to install the centre of gyration of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Line eccentric setting, and preferred 5 male half coupling outer circle center line of transmission shaft is with respect to the centre of gyration line eccentric setting of transmission shaft 5, from
And it realizes the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 and is arranged.
Embodiment 18
With embodiment 7 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring, such as
Preceding described, inner hole of the preferred single shaft section eccentric bushing 16 for installing bearing II 11 is eccentric with respect to the centre of gyration line of transmission shaft 5
Setting, and preferred II 10 concave mouth inner hole of bearing block is arranged with respect to II 10 excircle eccentricity of bearing block, to realize the transmission
The outer rollaway nest axis offset of the centre of gyration line of axis 5 and the bearing II 11 is arranged.
Embodiment 19
With embodiment 7 the difference is that: the bearing II 11 is outer ring capacity eccentric bearing, and preferred transmission shaft 5 is convex
Seam allowance outer circle center line with respect to transmission shaft 5 centre of gyration line eccentric setting, to realize the centre of gyration line of the transmission shaft 5
It is arranged with the outer rollaway nest axis offset of the bearing II 11.
Embodiment 20
With embodiment 7 the difference is that: the bearing II 11 is outer ring capacity eccentric bearing, and preferred bearing block II 10
Concave mouth inner hole is arranged with respect to II 10 excircle eccentricity of bearing block, to realize the centre of gyration line and the axis of the transmission shaft 5
Hold II 11 outer rollaway nest axis offset setting.
Embodiment 21
With embodiment 7 the difference is that: time of the opposite transmission shaft 5 of preferred 5 male half coupling outer circle center line of transmission shaft
Turn center line eccentric setting, and II 10 concave mouth inner hole of bearing block is arranged with respect to II 10 excircle eccentricity of bearing block, to realize institute
The outer rollaway nest axis offset of the centre of gyration line and the bearing II 11 of stating transmission shaft 5 is arranged.
Embodiment 22
Difference from example 1 is that: it is provided with flange 15 between the transmission shaft 5 and the bearing block II 10,
15 both ends of flange cooperate with the transmission shaft 5 and II 10 seam allowance of the bearing block respectively, and preferred flange 15 is close to the biography
5 side of moving axis is to weld after concave mouth cooperates, and flange 5 is that male half coupling cooperates rear bolt connection close to II 10 side of bearing block.Institute
It is eccentric with respect to the centre of gyration line processing and manufacturing of transmission shaft 5 to state inner hole of the bearing block II 10 for installing bearing II 11, thus real
The centre of gyration line of the existing transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 23
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are set
It sets.
Embodiment 24
With embodiment 22 the difference is that: the bearing II 11 be outer ring capacity eccentric bearing, to realize the transmission
The outer rollaway nest axis offset of the centre of gyration line of axis 5 and the bearing II 11 is arranged.
Embodiment 25
With embodiment 22 the difference is that: time of the opposite transmission shaft 5 of preferred 5 male half coupling outer circle center line of transmission shaft
Turn center line eccentric setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11 are inclined
Move setting.
Embodiment 26
With embodiment 22 the difference is that: preferred concave mouth inner hole of the flange 15 close to 5 side of transmission shaft is opposite
15 excircle eccentricity of flange setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11
Offset setting.
Embodiment 27
With embodiment 22 the difference is that: preferred flange 15 is in the male half coupling outer circle of II 10 side of bearing block
Heart line with respect to transmission shaft 5 centre of gyration line eccentric setting, thus realize the transmission shaft 5 centre of gyration line and the bearing
II 11 outer rollaway nest axis offset setting.
Embodiment 28
With embodiment 22 the difference is that: the opposite bearing block II 10 of the preferred concave mouth inner hole of II 10 side of bearing block
Excircle eccentricity setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are set
It sets.
Embodiment 29
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and the bearing block II 10 adds for installing the inner hole of bearing II 11 with respect to the centre of gyration line of transmission shaft 5
Work manufacture is eccentric, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 30
With embodiment 22 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and the bearing II 11 is outer ring capacity eccentric bearing, to realize the transmission shaft 5
Centre of gyration line and the bearing II 11 outer rollaway nest axis offset be arranged.
Embodiment 31
With embodiment 22 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and preferred 5 male half coupling outer circle center line of transmission shaft is with respect to the revolution of transmission shaft 5
Center line eccentric setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11
Setting.
Embodiment 32
With embodiment 22 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and the opposite flange of concave mouth inner hole of the preferred flange 15 close to 5 side of transmission shaft
15 excircle eccentricities setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11
Setting.
Embodiment 33
With embodiment 22 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricates bias, and preferred male half coupling outer circle of the flange 15 close to II 10 side of bearing block is opposite
15 excircle eccentricity of flange setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11
Offset setting.
Embodiment 34
With embodiment 22 the difference is that: the bearing block II 10 for install the inner hole of bearing II 11 it is opposite be driven
The centre of gyration line of axis 5 fabricate it is eccentric, and the concave mouth inner hole of preferably II 10 side of bearing block with respect to bearing block II 10 outside
Circle eccentric setting, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 35
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and the bearing II 11 is outer ring capacity eccentric bearing, to realize centre of gyration line and the institute of the transmission shaft 5
State the outer rollaway nest axis offset setting of bearing II 11.
Embodiment 36
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and preferred 5 male half coupling outer circle center line of transmission shaft is with respect to the centre of gyration line eccentric setting of transmission shaft 5,
To realize that centre of gyration line and the outer rollaway nest axis offset of the bearing II 11 of the transmission shaft 5 are arranged.
Embodiment 37
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and concave mouth inner hole of the preferred flange 15 close to 5 side of transmission shaft is arranged with respect to 15 excircle eccentricity of flange,
To realize that centre of gyration line and the outer rollaway nest axis offset of the bearing II 11 of the transmission shaft 5 are arranged.
Embodiment 38
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and male half coupling outer circle of the preferred flange 15 close to II 10 side of bearing block is set with respect to 15 excircle eccentricity of flange
It sets, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 39
With embodiment 22 the difference is that: bearing block II 10 and bearing are provided with eccentric bushing 16 between II 11 outer ring,
As previously mentioned, preferred single shaft section eccentric bushing 16 is used to install in revolution of the inner hole centreline with respect to transmission shaft 5 of bearing II 11
Heart line eccentric setting, and the concave mouth inner hole of preferably II 10 side of bearing block is arranged with respect to II 10 excircle eccentricity of bearing block, thus
The outer rollaway nest axis offset of the centre of gyration line and the bearing II 11 of realizing the transmission shaft 5 is arranged.
Embodiment 40
With embodiment 22 the difference is that: the bearing II 11 is outer ring capacity eccentric bearing, and preferred transmission shaft 5 is convex
Seam allowance outer circle center line with respect to transmission shaft 5 centre of gyration line eccentric setting, to realize the centre of gyration line of the transmission shaft 5
It is arranged with the outer rollaway nest axis offset of the bearing II 11.
Embodiment 41
With embodiment 22 the difference is that: the bearing II 11 is outer ring capacity eccentric bearing, and preferred flange 15 leans on
The concave mouth inner hole of nearly 5 side of transmission shaft is arranged with respect to 15 excircle eccentricity of flange, to realize the centre of gyration of the transmission shaft 5
The outer rollaway nest axis offset of line and the bearing II 11 is arranged.
Embodiment 42
With embodiment 22 the difference is that: the bearing II 11 is outer ring capacity eccentric bearing, and preferred flange 15 leans on
The male half coupling outer circle center line of nearly II 10 side of bearing block with respect to transmission shaft 5 centre of gyration line eccentric setting, to realize institute
The outer rollaway nest axis offset of the centre of gyration line and the bearing II 11 of stating transmission shaft 5 is arranged.
Embodiment 43
With embodiment 22 the difference is that: the bearing II 11 be outer ring capacity eccentric bearing, and preferably bearing block II 10
The concave mouth inner hole of side is arranged with respect to II 10 excircle eccentricity of bearing block, thus realize the centre of gyration line of the transmission shaft 5 with
The outer rollaway nest axis offset of the bearing II 11 is arranged.
Embodiment 44
With embodiment 22 the difference is that: time of the opposite transmission shaft 5 of preferred 5 male half coupling outer circle center line of transmission shaft
Turn center line eccentric setting, and concave mouth inner hole of the flange 15 close to 5 side of transmission shaft is arranged with respect to 15 excircle eccentricity of flange, from
And it realizes the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 and is arranged.
Embodiment 45
With embodiment 22 the difference is that: time of the opposite transmission shaft 5 of preferred 5 male half coupling outer circle center line of transmission shaft
Turn center line eccentric setting, and the opposite transmission shaft of male half coupling outer circle center line of the preferred flange 15 close to II 10 side of bearing block
5 centre of gyration line eccentric setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11
Line offset setting.
Embodiment 46
With embodiment 22 the difference is that: time of the opposite transmission shaft 5 of preferred 5 male half coupling outer circle center line of transmission shaft
Turn center line eccentric setting, and the concave mouth inner hole of preferably II 10 side of bearing block is arranged with respect to II 10 excircle eccentricity of bearing block,
To realize that centre of gyration line and the outer rollaway nest axis offset of the bearing II 11 of the transmission shaft 5 are arranged.
Embodiment 47
With embodiment 22 the difference is that: preferred concave mouth inner hole of the flange 15 close to 5 side of transmission shaft is opposite
The setting of 15 excircle eccentricity of flange, and the opposite transmission of male half coupling outer circle center line of the preferred flange 15 close to II 10 side of bearing block
The centre of gyration line eccentric setting of axis 5, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest of the bearing II 11
Axis offset setting.
Embodiment 48
With embodiment 22 the difference is that: preferred concave mouth inner hole of the flange 15 close to 5 side of transmission shaft is opposite
The setting of 15 excircle eccentricity of flange, and the concave mouth inner hole of preferably II 10 side of bearing block is set with respect to II 10 excircle eccentricity of bearing block
It sets, to realize that the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis offset of the bearing II 11 are arranged.
Embodiment 49
With embodiment 22 the difference is that: preferred flange 15 is in the male half coupling outer circle of II 10 side of bearing block
Heart line with respect to transmission shaft 5 centre of gyration line eccentric setting, and preferably II 10 side of bearing block concave mouth inner hole with respect to bearing
Seat II 10 excircle eccentricities setting, to realize the centre of gyration line of the transmission shaft 5 and the outer rollaway nest axis of the bearing II 11
Offset setting.
In all of above any two kinds of eccentric combination schemes of embodiment, finally it is both needed in the revolution for realizing the transmission shaft 5
The outer rollaway nest axis offset of heart line and the bearing II 11 is arranged, and total drift amount is the vector sum of respective eccentricity, by above
Specific embodiment can be seen that a kind of vibration device for blender provided by the utility model with eccentric manner spirit
The characteristics of multiplicity living, overall structure is simple, effect of vibration effect is good, high reliablity.
The above is only the preferred embodiment of the utility model only, eccentric for above-mentioned any three kinds or more
Assembled scheme is not further described, but is not intended to limit the utility model, it is all the spirit and principles of the utility model it
Any modifications, equivalent replacements, and improvements made by interior etc., should be included within the scope of protection of this utility model.