CN108398207A - A kind of two plane balancing machine - Google Patents
A kind of two plane balancing machine Download PDFInfo
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- CN108398207A CN108398207A CN201810532066.3A CN201810532066A CN108398207A CN 108398207 A CN108398207 A CN 108398207A CN 201810532066 A CN201810532066 A CN 201810532066A CN 108398207 A CN108398207 A CN 108398207A
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- 238000006073 displacement reaction Methods 0.000 abstract description 10
- 238000001514 detection method Methods 0.000 abstract description 9
- 238000000034 method Methods 0.000 abstract description 6
- 230000008569 process Effects 0.000 abstract description 5
- 238000010586 diagram Methods 0.000 description 12
- 230000008878 coupling Effects 0.000 description 5
- 238000010168 coupling process Methods 0.000 description 5
- 238000005859 coupling reaction Methods 0.000 description 5
- 238000012360 testing method Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 3
- 230000005484 gravity Effects 0.000 description 3
- 238000013519 translation Methods 0.000 description 3
- 230000008901 benefit Effects 0.000 description 2
- 230000008676 import Effects 0.000 description 2
- 238000012423 maintenance Methods 0.000 description 2
- 238000005259 measurement Methods 0.000 description 2
- 238000007514 turning Methods 0.000 description 2
- 230000004308 accommodation Effects 0.000 description 1
- 230000009471 action Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000008859 change Effects 0.000 description 1
- 239000002826 coolant Substances 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000009826 distribution Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000009434 installation Methods 0.000 description 1
- 230000001788 irregular Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 230000000630 rising effect Effects 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
- 230000009466 transformation Effects 0.000 description 1
- 238000005303 weighing Methods 0.000 description 1
Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01M—TESTING STATIC OR DYNAMIC BALANCE OF MACHINES OR STRUCTURES; TESTING OF STRUCTURES OR APPARATUS, NOT OTHERWISE PROVIDED FOR
- G01M1/00—Testing static or dynamic balance of machines or structures
- G01M1/30—Compensating imbalance
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- General Physics & Mathematics (AREA)
- Testing Of Balance (AREA)
Abstract
The invention discloses a kind of two plane balancing machines, it include the drive component above rocker, rocker outer side edges are equipped with elastic spacing one, elastic spacing one is abutted with the two ends of rotor being placed on rocker, rotor is limited along its axial displacement, drive component includes the connecting plate being fixed on the first bottom plate of rocker side and the wheel plate being rotatablely connected by connecting shaft with connecting plate, wheel plate is vertical with the line of centres of two rockers, i.e. wheel plate and the rotor that is placed on rocker is axially vertical, wheel plate both ends are equipped with the first driving wheel and the second driving wheel, it is arranged with the first drive belt on first driving wheel and the second driving wheel, first drive belt gives rotor one power pushed while driving rotor, limit the displacement of rotor in above-below direction, rotor-position is stablized in detection process, improve accuracy of detection.
Description
Technical field
The present invention relates to rotor dynamic balancing alignment technique fields, and in particular to a kind of two plane balancing machine.
Background technology
Electro spindle is a kind of intelligent functional component, it uses non-housing motor, by the motor stator with coolant jacket
In the shell of main axle unit, the rotary part of rotor and machine tool chief axis is made of one subassembly, and the slewing range of main shaft is complete
It is controlled by ac variable-frequency electric motor so that adjustable frequency motor and machine tool chief axis are combined into one.Electro spindle has compact-sized, weight
Gently, the advantages that inertia is small, with small vibration, noise is low, response is fast, not only rotating speed is high, power is big, also has a series of control main shaft temperature
The function of rising and the lathes operating parameter such as vibrate, to ensure reliability and safety that it runs at high speed.It can be with using electro spindle
Belt wheel transmission and gear drive are reduced, simplifies Machine Tool design, it is easy to accomplish main shaft orientation is a kind of reason in High-sp eed spindle unit
Think structure.
Shaft is the main revolution main body of high-speed electric main shaft.Its accuracy of manufacture directly affects the final precision of electro spindle.
The geometric tolerance and dimension precision requirement of shaft are all very high, when shaft runs at high speed, cause to vibrate by eccentric mass, seriously affect
Its dynamic performance, it is necessary to which countershaft carries out stringent dynamic balancing measurement.Be partially installed on part in shaft also should with shaft into
Action balance is tested.And the electro spindle of China's machining center is mostly import electro spindle, the maintenance cost of electro spindle is very high, example
Such as Japanese about 400,000 RMB of import electro spindle price, and maintenance cost is up to 350,000 RMB, thus the failure of electro spindle
Prevention is even more important.
It is to test electro spindle to realize by dynamic balancing machine when carrying out dynamic balancing measurement in the prior art, and dynamic balancing
Machine is the machine for measuring rotating object (rotor) amount of unbalance size and location, and any rotor of dynamic balancing machine is revolved around its axis
When turning, centrifugal force is generated due to the non-uniform mass relative to axis, this imbalance centrifugal force acts on armature spindle
Holding can cause to vibrate, and generate noise and accelerate bearing wear, so that seriously affecting performance and the service life of product.Then according to flat
The data that weighing apparatus machine is measured are corrected the amount of unbalance of rotor, can improve Mass Distribution of the rotor relative to axis, make rotor
The vibration generated when rotation or the vibration force acted on bearing are reduced within the scope of permission.Therefore, balancing machine is to reduce
Vibration improves performance and improves the essential equipment of quality.
Type of drive there are mainly three types of dynamic balance testing machines in the prior art, first, V belt translation mode is enclosed, rubber ring is utilized
Shape band drags rotor by motor pulley, therefore encloses and require rotor surface that must have smooth periphery, circle band to drag with dragging
Dynamic advantage is not influence the amount of unbalance of rotor, the precision of balancing machine;Second, shaft coupling driving style will using universal joint
The characteristics of balancing machine main shaft is connected with rotor, and shaft coupling drags is to be suitble to the irregular rotor of appearance, can be transmitted larger
The shortcomings that torque, suitable Driving Fan, the larger rotor of the windages such as papermaking roller, shaft coupling is the uneven meeting of shaft coupling itself
Rotor is had an impact, therefore shaft coupling will be balanced it before use, otherwise can introduce the precision of interference effect balance,
A large amount of connection is additionally done, the rotor of different model is conveniently adapted to;Third utilizes the dynamic of rotor itself from type of drive
Power rotates.It is that fairly small driving style is influenced on balance quality from driving, balance quality is up to quite high, but only structure permits
Perhaps special rotor could use this driving style.Therefore balancing machine in the prior art mainly uses circle V belt translation mode,
But on the one hand existing circle V belt translation mode is inconvenient to install belt, on the other hand cannot limit the upper and lower displacement of rotor, cause
Measuring accuracy reduces.Dynamic balance testing machine lacks the device limited rotor axial in the prior art simultaneously.
It can be seen that above-mentioned existing balancing machine structure is still urgently improved.
Invention content
The technical problem to be solved in the present invention is to provide a kind of two plane balancing machines limited to rotor axial, simultaneously should
Two plane balancing machine can also limit rotor upper and lower displacement using drive part, and conveniently pick and place rotor, simple in structure, operation
It is convenient.
In order to solve the above technical problem, the present invention provides a kind of two plane balancing machine, including casing, two be symmetrical arranged
Rocker on the first bottom plate of casing and the drive component above the rocker, the rocker outer side edges installation are flexible
Locating part, the elastic spacing one are supported towards the direction of the rocker, elastic spacing one with the two ends of rotor being placed on rocker
It connects, to limit rotor along its axial displacement, the driving component includes being fixed on first bottom plate of rocker side
Connecting plate and the wheel plate being rotatablely connected by connecting shaft with the connecting plate, the line of centres of the wheel plate and two rockers
Vertically, i.e. wheel plate and the rotor that is placed on rocker is axially vertical, and the connecting shaft passes through the side of the wheel plate to be arranged with
The other end of first driving wheel, the wheel plate is provided with the second driving wheel, is arranged on first driving wheel and the second driving wheel
There are the first drive belt, the first drive belt to give rotor one power pushed while driving rotor, limitation rotor is in upper and lower
To displacement, driving motor, driving wheel and driven wheel be mounted on the connecting plate on, the driven wheel is set in the connecting shaft
Across the side of the connecting plate, the second drive belt, driving motor driving second are arranged on the driving wheel and driven wheel
Drive belt drives the first drive belt, and then drives rotor, and rotor, which is driven, to be detected, rotor-position in detection process
Stablize, improves accuracy of detection.
Further, the elastic spacing one be mounted on movable stand on, the movable stand include horizontal direction guide rail and
The connecting rod of vertical direction so that the position of elastic spacing one can adjust, to adapt to various sizes of rotor.
Further, the guide rail is fixedly connected with the rocker, and the connecting rod passes through support slipper and the guide rail
It is slidably connected, screw sleeve one end is slidably located in the connecting rod, and screw rod is horizontally inserted into the other end of the screw sleeve, described
Elastic spacing one is fixed on the screw rod towards one end of the rocker, can be moved close to along guide rail to elastic spacing one or
Far from rocker, the rotor of different length is adapted to, elastic spacing one can also be moved up and down along connecting rod, to adapt to turning for different-diameter
Son.
Further, the elastic spacing one is ball spring pin, and the ball of ball spring pin abuts rotor tip, due to
There is certain sectional area in two ends of rotor section, so even rotor has vibration at work, ball spring pin will not be detached from
Rotor end-face ensures the positioning to rotor.
Further, the connecting plate is fixedly connected with the first fixed board, and first fixed board is slidably mounted on
In the sliding slot of second fixed board, second fixed board is fixedly mounted on the first bottom plate, is fixed by adjusting first vertical
Position of the plate in the second fixed board sliding slot can change wheel plate between rocker at a distance from, it is various sizes of to adapt to
Rotor improves accommodation.
Further, the top of second fixed board is equipped with adjustment block, is fixed on first fixed board top
Screw rod pass through the adjustment block, the stop nut being set on the screw rod abuts with the upper surface of the adjustment block, passes through
Adjust relative position of the stop nut on screw rod, you can to adjust position and the fixation of the first fixed board.
Further, one end of the first driving wheel is arranged in the wheel plate and the push rod of cylinder connects, the cylinder other end
Be rotatablely connected with cylinder fixed seat, cylinder fixed seat is fixed on the second bottom plate, by the folding and unfolding of cylinder push-rod can pull-up and
Put down wheel plate so that the lift of wheel plate puts to be automatically brought into operation, and operates simpler convenience.
Further, the connecting plate and cylinder fixed seat are fixedly connected with the first fixed board respectively, and described first is solid
To determine riser to be slidably mounted in the sliding slot of the second fixed board, second fixed board is fixedly mounted on the second bottom plate, from
And wheel plate can also adjust height on the basis of auto lifting is put, and adapt to various sizes of rotor.
Further, the top of second fixed board is equipped with adjustment block, is fixed on first fixed board top
Screw rod pass through the adjustment block, the stop nut being set on the screw rod abuts with the upper surface of the adjustment block, passes through
Adjust relative position of the stop nut on screw rod, you can to adjust position and the fixation of the first fixed board, so as to adjust
The height of wheel plate.
Further, the connecting plate is equipped with limited block close to the side of the rocker, and the limited block abuts the wheel
Plate lower surface, the limited block upper surface be equipped with excellent power rubber cushion, so that wheel plate is horizontal, at this point, the first drive belt with
The supporting point of rotor surface contact portion and rocker balances, and rotor-position is most stable, while excellent power rubber cushion makes wheel carrier and limited block
For soft contact, the vibration between wheel plate and limited block is absorbed.
A kind of two plane balancing machine of the present invention, advantageous effect compared with prior art are to be equipped with and carried out axially to rotor
The locating part of limit simultaneously limits rotor using rotor drive part up and down, so that rotor position in detection process is stablized, carries
High accuracy of detection.
Description of the drawings
Fig. 1 is overall structure diagram of the embodiment of the present invention;
Fig. 2 is position limiting structure schematic diagram of the embodiment of the present invention;
Fig. 3 is one structural schematic diagram of drive part embodiment of the present invention;
Fig. 4 is two structural schematic diagram of drive part embodiment of the present invention;
Fig. 5 is three structural schematic diagram of drive part embodiment of the present invention;
Fig. 6 is drive part example IV structural schematic diagram of the present invention.
Specific implementation mode
The invention will be further described in the following with reference to the drawings and specific embodiments, so that those skilled in the art can be with
It more fully understands the present invention and can be practiced, but illustrated embodiment is not as a limitation of the invention.
As shown in Figure 1, for a kind of two plane balancing machine embodiment overall structure diagram of the present invention, including casing 1, two is right
The rocker 2 on the first bottom plate 101 of casing 1 and the drive component 3 above the rocker 2 is arranged in title, and casing 1 is L-type
Structure, casing 1 is interior to be equipped with microprocessor and electric-controlled plate, and 1 vertical portion surface of casing is additionally provided with display screen, and 1 horizontal part of casing is to set
Object box structure, including the first bottom plate 101, the second bottom plate 102 and the side plate for connecting two bottom plates, 102 lower section of the second floor are set
There is an adjustment foot, rocker 2 is arranged above the first bottom plate 101, and the both ends of 2 bottom surface of rocker are separately connected two the linear guides 4
Sliding block, further, in order to make the rocker 2 of fixed adjustment good position, the first bottom plate 101 between two the linear guides 4
On be additionally provided with linear guide 6, the lower surface of the rocker 2 is fixed with fixture block 5, and the fixture block 5 is set in the linear guide 6
On, the fixture block 5 loosens fixture block when needing to adjust the position of rocker 2 by tap wrench adjusting elasticity by tap wrench
5, rocker 2 can be moved along the linear guide 4, and when the position for needing fixed rocker 2, fixture block 5, fixture block 5 are tightened by tap wrench
Linear guide 6 is locked, so that the position of rocker 2 is fixed, it is ensured that rocker 2 will not move in 9 detection process of rotor, influence to examine
Effect is surveyed, 2 outer side edges of the rocker are equipped with elastic spacing one 7, and the elastic spacing one 7 is towards the direction of the rocker 2, bullet
Property locating part 7 abutted with 9 both ends of rotor being placed on rocker 2, to limit rotor 9 along its axial displacement, while elasticity
Locating part 7 is not interfered with rotor 9 and is vibrated and then influenced flat by the elasticity limitation displacement in a certain range of rotor 9 of its own
Weigh machine testing result.
As shown in Fig. 2, for position limiting structure schematic diagram in the embodiment of the present invention, to ensure elastic spacing one 7 and different sizes
Rotor 9 correspond to, elastic spacing one 7 be mounted on movable stand 8 on, movable stand 8 includes the guide rail 801 and vertical direction of horizontal direction
Connecting rod 802 so that elastic spacing one 7 can in the horizontal direction with vertical direction move, the guide rail 801 of the movable stand 8
It is fixedly connected with rocker 2, connecting rod 802 is slidably connected by support slipper 803 and guide rail 801,804 one end sliding sleeve of screw sleeve
It is located in connecting rod 802, Limit screw 805 is horizontally inserted into the other end of screw sleeve 804, and elastic spacing one 7 is fixed on limit spiral shell
Bar 805 is towards one end of rocker 2 so that elastic spacing one 7 can be moved horizontally along guide rail 801, adjustment elastic spacing one 7 and pendulum
The relative distance of frame 2, to be applicable in the rotor 9 of different length, elastic component can also be moved up and down along connecting rod 802, to adjust
Vertical range between whole elastic spacing one 7 and guide rail 801, to be applicable in the rotor 9 of different-diameter, preferably, this implementation
Elastic spacing one 7 in example is ball spring pin, and the ball of ball spring pin abuts the both ends of rotor 9, since 9 both ends of rotor are cut
There is certain sectional area in face, so even rotor 9 has vibration at work, ball spring pin will not be detached from 9 end face of rotor,
Ensure the positioning to rotor 9.
As shown in figure 3, for the structural schematic diagram of drive part embodiment one of the present invention, drive component 3 includes being fixed on institute
The wheel stated the connecting plate 301 on 2 the first bottom plate of side 101 of rocker and be rotatablely connected by connecting shaft 302 with the connecting plate 301
Plate 303, the wheel plate 303 is vertical with the line of centres of the rocker 2, i.e., described rotor wheel plate 303 and be placed on rocker 2
9 it is axially vertical, the connecting shaft 302 pass through the wheel plate 303 side be arranged with the first driving wheel 304, the wheel plate 303
The other end be provided with the second driving wheel 305, be arranged with the first drive belt on the first driving wheel 304 and the second driving wheel 305
306, the first drive belt 306 and rotor 9 are axially vertical, when wheel plate 303 since gravity pushes, to prevent wheel plate 303 from existing
It is pushed under gravity excessively, limited block 307, the limited block is equipped with close to the side of the rocker 2 in the connecting plate 301
307 abut 303 lower surface of the wheel plate when wheel plate 303 pushes, and make the state of wheel plate 303 holding level, at this point, the first driving
Belt 306 is balanced with 9 surface contact portion of rotor and the supporting point of rocker 2, and 9 position of rotor is most stable, 307 upper surface of limited block
It is additionally provided with excellent power rubber cushion, wheel carrier is made to be contacted to be soft with limited block 307, absorbs the vibration between wheel plate 303 and limited block 307, the
One drive belt 306 is pressed in 9 surface of rotor, drives rotor 9 to rotate when the first drive belt 306 rotates, simultaneously because wheel plate 303
Since gravity pushes, i.e. the first drive belt 306 gives rotor 9 downward pressure, therefore limited to the upper and lower displacement of rotor 9
It makes and uses, driving motor 308, driving wheel 309 and driven wheel 310 are mounted on the connecting plate 301,310 sets of the driven wheel
It is located at the side that the connecting shaft 302 passes through the connecting plate 301, the second driving is arranged on driving wheel 309 and driven wheel 310
Belt 311, driving motor 308 drive driving wheel 309 to rotate, and driving wheel 309 drives driven wheel by the second drive belt 311
310, it is located at the first driving wheel 304 in same connecting shaft 302 with driven wheel 310 and is driven, the second driving wheel 305 and first drives
Dynamic belt 306 rotates therewith, and the rotor 9 being in contact with the first drive belt 306 is driven, and is reached while driving rotor 9
The purpose that rotor 9 can be limited, simultaneously because wheel plate 303 is rotatablely connected with connecting plate 301, only in more exchanging rotor 9
Wheel plate 303, which need to be raised, can conveniently pick and place rotor 9, simple in structure to various sizes of rotor 9 without adjusting belt tension,
It is easy to operate, it is suitable for practical promote.
As shown in figure 4, for the structural schematic diagram of drive part embodiment two of the present invention, on the basis of one structure of embodiment
On, the connecting plate 301 in the present embodiment is fixedly connected with the first fixed board 312, and first fixed board 312 is slidably installed
In the sliding slot 314 of the second fixed board 313, second fixed board 313 is fixedly mounted on the first bottom plate 101, works as tune
When position of whole first fixed board 312 in 313 sliding slot 314 of the second fixed board, wheel plate 303 apart from rotor 9 it is vertical away from
From being adjusted, therefore it is adapted to various sizes of rotor 9, simultaneously because wheel plate 303 is rotatablely connected with connecting plate 301, more
Rotor 9 can conveniently be picked and placeed by only needing to raise wheel plate 303 when exchanging rotor 9, to fix the position of the first fixed board 312, second
The top of fixed board 313 is equipped with adjustment block 315, is fixed on the screw rod 316 on 312 top of the first fixed board across described
Adjustment block 315, the stop nut 317 being set on the screw rod 316 are abutted with the upper surface of the adjustment block 315, pass through tune
Relative position of the whole stop nut 317 on screw rod 316 is slided to fix the first fixed board 312 in the second fixed board 313
Position in slot 314.
As shown in figure 5, for the structural schematic diagram of drive part embodiment three of the present invention, on the basis of one structure of embodiment
On, it is relatively rotated for convenience of driving wheel plate 303 and connecting plate 301 in the present embodiment, consequently facilitating picking and placeing rotor 9, wheel plate 303 is set
The one end for setting the first driving wheel 304 is connect with the push rod of cylinder 318, and 318 other end of the cylinder is rotated with cylinder fixed seat 319
Connection, since 318 length of cylinder is longer, to make 318 position suitable of cylinder, the first bottom plate 101 is fixed on by cylinder fixed seat 319
On second bottom plate 102 of lower section, wheel plate 303 is lifted or is put down by the flexible of 318 push rod of cylinder, simple to operate.
As shown in fig. 6, for the structural schematic diagram of drive part example IV of the present invention, on the basis of three structure of embodiment
On, connecting plate 301 and cylinder fixed seat 319 in the present embodiment are fixedly connected with the first fixed board 312 respectively, and described first
Fixed board 312 is slidably mounted in the sliding slot 314 of the second fixed board 313, since 318 length of cylinder is longer, to make cylinder
Second fixed board 313 is fixed on the second bottom plate 102 of 101 lower section of the first bottom plate, when adjustment first by 318 position suitables
When position of the fixed board 312 in 313 sliding slot 314 of the second fixed board, vertical range of the wheel plate 303 apart from rotor 9 is adjusted
Whole, therefore be adapted to various sizes of rotor 9, cylinder 318 and the relative position of wheel plate 303 are fixed, do not influence cylinder 318 with
The linkage of wheel plate 303, wheel plate 303 is lifted or is put down by the flexible of 318 push rod of cylinder, convenient for picking and placeing rotor 9, for fixation
The top of the position of first fixed board 312, the second fixed board 313 is equipped with adjustment block 315, and it is vertical to be fixed on first fixation
The screw rod 316 on 312 top of plate passes through the adjustment block 315, the stop nut 317 and the tune being set on the screw rod 316
The upper surface of monoblock 315 abuts, by adjusting relative position of the stop nut 317 on screw rod 316, to fix the first fixation
Position of the riser 312 in 313 sliding slot 314 of the second fixed board.
At work, 318 push rod of cylinder is shunk the two plane balancing machine of the present invention, and wheel plate 303 is lifted up, rotor 9 is put
It sets on rocker 2, adjusts the position of 9 axial direction both ends elastic spacing one 7 of rotor, and 318 push rod of exhaust hood jacks up, wheel plate 303
It puts down, adjusts the position of the first fixed board 312, wheel plate 303 is made to be horizontally situated and the first drive belt 306 and rotor 9
Part contacts, and starts motor and rotor 9 is driven to rotate, be detected to rotor 9, and rotor 9 is axial to be limited by elastic spacing one 7, by
It is arranged above rotor 9 in drive component 3, therefore 9 upper and lower displacement of rotor can also be limited in the case where driving rotor 9
Position, while wheel plate 303 facilitates picking and placeing for rotor 9, the first fixed board 312 and second to fix vertical with the rotation connection of connecting plate 301
The setting of plate 313 enables the height of wheel plate 303 to adjust, and is adapted to various sizes of rotor 9, two plane balancing machine of the invention
It is adapted to the rotor 9 of different dimensions lengths, is had a wide range of application, and the position in detection process of rotor 9 is stablized, and detection essence is improved
Degree.
Embodiment described above is only to absolutely prove preferred embodiment that is of the invention and being lifted, protection model of the invention
It encloses without being limited thereto.Those skilled in the art on the basis of the present invention made by equivalent substitute or transformation, in the present invention
Protection domain within.Protection scope of the present invention is subject to claims.
Claims (10)
1. a kind of two plane balancing machine, which is characterized in that be symmetricly set on including casing, two the first bottom plate of casing rocker and
Drive component above the rocker, the rocker outer side edges are equipped with elastic spacing one, the elastic spacing one direction
The direction of the rocker, the driving component include the connecting plate being fixed on first bottom plate of rocker side and with the company
The wheel plate that fishplate bar is rotatablely connected by connecting shaft, the wheel plate is vertical with the line of centres of two rockers, the connecting shaft
It being arranged with the first driving wheel across the side of the wheel plate, the other end of the wheel plate is provided with the second driving wheel, and described first
The first drive belt is arranged on driving wheel and the second driving wheel, driving motor, driving wheel and driven wheel are mounted on the connection
On plate, the driven wheel is set in the side that the connecting shaft passes through the connecting plate, is arranged on the driving wheel and driven wheel
There is the second drive belt.
2. a kind of two plane balancing machine as described in claim 1, which is characterized in that the elastic spacing one is mounted on movable stand
On, the movable stand includes the guide rail of horizontal direction and the connecting rod of vertical direction.
3. a kind of two plane balancing machine as claimed in claim 2, which is characterized in that the guide rail is fixedly connected with the rocker,
The connecting rod is slidably connected by support slipper and the guide rail, and screw sleeve one end is slidably located in the connecting rod, spiral shell
Bar is horizontally inserted into the other end of the screw sleeve, and the elastic spacing one is fixed on the screw rod towards one end of the rocker.
4. a kind of two plane balancing machine as described in claim 1, which is characterized in that the elastic spacing one is ball spring pin.
5. a kind of two plane balancing machine as described in claim 1, which is characterized in that the connecting plate is fixed with the first fixed board
Connection, first fixed board are slidably mounted in the sliding slot of the second fixed board, and second fixed board is fixedly mounted
On the first bottom plate.
6. a kind of two plane balancing machine as claimed in claim 5, which is characterized in that the top of second fixed board, which is equipped with, adjusts
Monoblock, the screw rod for being fixed on first fixed board top pass through the adjustment block, the limit spiral shell being set on the screw rod
Female upper surface with the adjustment block abuts.
7. a kind of two plane balancing machine as described in claim 1, which is characterized in that one end of the first driving wheel is arranged in the wheel plate
It is connect with the push rod of cylinder, the cylinder other end is rotatablely connected with cylinder fixed seat, and cylinder fixed seat is fixed on the second bottom plate
On.
8. a kind of two plane balancing machine as claimed in claim 7, which is characterized in that the connecting plate and cylinder fixed seat respectively with
First fixed board is fixedly connected, and first fixed board is slidably mounted in the sliding slot of the second fixed board, and described second
Fixed board is fixedly mounted on the second bottom plate.
9. a kind of two plane balancing machine as claimed in claim 8, which is characterized in that the top of second fixed board, which is equipped with, adjusts
Monoblock, the screw rod for being fixed on first fixed board top pass through the adjustment block, the limit spiral shell being set on the screw rod
Female upper surface with the adjustment block abuts.
10. a kind of two plane balancing machine as described in claim 1, which is characterized in that the connecting plate is close to the side of the rocker
Side is equipped with limited block, and the limited block abuts the wheel plate lower surface, and the limited block upper surface is equipped with excellent power rubber cushion.
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111157234A (en) * | 2020-04-03 | 2020-05-15 | 南京泰普森自动化设备有限公司 | Measuring device for shaft parts |
CN114636515A (en) * | 2022-03-07 | 2022-06-17 | 森轴重庆科技有限公司 | Multifunctional dynamic balancing machine |
CN117309241A (en) * | 2023-11-03 | 2023-12-29 | 中山迈雷特数控技术有限公司 | Hollow shaft part balance center measuring machine tool |
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