CN206200667U - Grinder high in a kind of numerical control - Google Patents
Grinder high in a kind of numerical control Download PDFInfo
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- CN206200667U CN206200667U CN201621064829.9U CN201621064829U CN206200667U CN 206200667 U CN206200667 U CN 206200667U CN 201621064829 U CN201621064829 U CN 201621064829U CN 206200667 U CN206200667 U CN 206200667U
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- 230000007246 mechanism Effects 0.000 claims abstract description 58
- 238000009434 installation Methods 0.000 claims abstract description 26
- 230000005540 biological transmission Effects 0.000 claims abstract description 19
- 230000033001 locomotion Effects 0.000 claims abstract description 11
- 229910001651 emery Inorganic materials 0.000 claims description 34
- 230000005611 electricity Effects 0.000 claims 2
- 239000000428 dust Substances 0.000 claims 1
- 238000000034 method Methods 0.000 abstract description 16
- 230000006641 stabilisation Effects 0.000 abstract description 3
- 238000011105 stabilization Methods 0.000 abstract description 3
- 230000008569 process Effects 0.000 description 10
- 230000006872 improvement Effects 0.000 description 3
- 230000001360 synchronised effect Effects 0.000 description 3
- 239000000463 material Substances 0.000 description 2
- 206010061619 Deformity Diseases 0.000 description 1
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- 238000004043 dyeing Methods 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000001815 facial effect Effects 0.000 description 1
- 235000013312 flour Nutrition 0.000 description 1
- 239000003292 glue Substances 0.000 description 1
- 239000010985 leather Substances 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
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Abstract
The utility model is related to roller parts processing technique field, grinder high in more particularly to a kind of numerical control;The utility model includes base and the guide-rail sliding mechanism, transmission mechanism, control cabinet and the grinding mechanism that are arranged on base;Guide-rail sliding mechanism includes upper mounting plate, lower installation board, the first oscillating bearing and second joint bearing;In the utility model, floor installation is on lathe, it would be desirable to which the product of processing is arranged on lathe, and under the control of control cabinet, transmission mechanism is started working, and drives guide-rail sliding mechanism motion, so as to be ground to the product for needing processing using grinding mechanism;When guide-rail sliding mechanism is moved, the first oscillating bearing drives upper mounting plate to carry out front and rear motion of retreating relative to lower installation board under the drive of transmission mechanism;The utility model simple structure, easy to operate, control is precisely high, and product surface quality is relatively good, brighter and cleaner, more smooth after crudy stabilization and processing, and processing efficiency is also than very fast.
Description
Technical field
The utility model is related to roller parts processing technique field, grinder high in more particularly to a kind of numerical control.
Background technology
Height refers in parabola:Two roller parts for mutually mutually being rotated again to pressure are because two rollers are mutually produced to pressure
Roll surface deformation curve, and in order that two mutually to pressure again mutually rotate roller parts roll surface can be brought into close contact with
Produce qualified product, it is therefore desirable to process a kind of projection of compensating roller facial disfigurement curve in the outer round surface of roller parts
In curve high, this curve is very much like with parabola, so high during parabola is normally referred to as in industry.
However, home and abroad is by the longitudinal direction with manual toggle lathe with parabolic curve crowned roll class part at present
What handle was processed, and it will be evident that being relied on manual toggle lathe with roller parts high in parabolic curve
Longitudinal handle is processed, and this way cannot grasp finished surface and the processing of accurately parabolic curve and smooth-going
Efficiency is low, take time and effort.
Many Gun Lei processing enterprises are processed with parabola using longitudinal handle of manual toggle lathe before
Curve crowned roll class part, because this way cannot grasp the finished surface of accurately parabolic curve and smooth-going and add
Work efficiency rate bottom, take time and effort, very processing enterprise is clear-cut to requiring to need directly to be put down with roller parts high in parabolic curve
Straight processing, directly have influence on much has paper industry row, textile industry, dyeing, the bag for using roller parts both at home and abroad
The total quality of the product of package material industry, printing industry, leather industry etc..
Patent name is grinder high in Numerical control rubber roll(Publication No. CN105014488A)Chinese utility model patent,
Grinder high in Numerical control rubber roll is disclosed, including:Emery wheel, casing, grinding wheel drive mitor, grinding wheel spindle, driving belt, adjustment handwheel,
Eccentric wheel, stepper motor, reductor, Timing Belt, wobble-plate, nut slide plate, reset tension spring, line slideway, fulcrum, connection bottom
Plate, block slide plate, control cabinet, the emery wheel are arranged on one end of grinding wheel spindle, and grinding wheel spindle is arranged in the spindle hole of casing,
Positioned using bearing and supported, grinding wheel drive mitor is arranged on the top of casing, drive grinding wheel spindle and emery wheel to rotate by driving belt,
Casing is arranged on the top of block slide plate and forms a whole, and block slide plate is connected to connecting bottom board using line slideway support
On, adjustment handwheel is arranged on casing, and nut slide plate constitutes screw transmission with the leading screw of adjustment handwheel, and reductor is arranged on company
Connect on base plate, eccentric wheel is fixedly connected with the power output shaft of reductor, stepper motor is fixedly installed on connecting bottom board and passes through
Timing Belt realizes Synchronous Transmission with the power input shaft of reductor, and wobble-plate one end is arranged on connecting bottom board, by branch point location,
And around branch spot wobble, the other end of wobble-plate is contacted with nut slide plate and eccentric wheel, and reset tension spring one end is arranged on connecting bottom board
On, the other end is arranged on casing, control cabinet connection stepper motor and grinding wheel drive mitor, realizes programme-control;In the Numerical control rubber roll
Not enough, crudy is unstable, and processing efficiency is nor very high for grinder control precision high.
The content of the invention
Described above in order to overcome the shortcomings of, the purpose of this utility model is to provide grinder high in a kind of numerical control, its knot
Structure is simple, easy to operate, and control is precisely high, and product surface quality is relatively good, brighter and cleaner, more flat after crudy stabilization and processing
Whole, processing efficiency is also than very fast.
The technical scheme in the invention for solving the technical problem is:
Grinder high in a kind of numerical control, wherein, including the base that is connected with lathe and it is arranged on being used on the base
Make the guide-rail sliding mechanism of lathe tool slide anteroposterior, the transmission mechanism for making guide-rail sliding mechanism motion, for being set
Put the control cabinet and the grinding mechanism for being ground of control;The guide-rail sliding mechanism include upper mounting plate, lower installation board,
First oscillating bearing and second joint bearing, the second joint bearing are vertically fixedly connected on the lower installation board, described
Second joint bearing is connected with first oscillating bearing, first oscillating bearing through the upper mounting plate with it is described
Transmission mechanism is connected.
Used as a kind of improvement of the present utility model, first oscillating bearing is provided with the first connection handle, and described second closes
Bearings are provided with the second connection handle, and first connection handle is threadedly coupled with second connection handle.
Used as further improvement of the utility model, the transmission mechanism includes eccentric shaft, reductor and servomotor, institute
State servomotor to be connected with the reductor, the excentric sleeve is connected on the reductor, the eccentric shaft includes eccentric part,
The eccentric part is connected with first oscillating bearing.
Further improved as of the present utility model, the grinding mechanism includes grinding wheel drive mitor, main shaft, belt pulley, biography
Band and emery wheel, the grinding wheel drive mitor, one end of the main shaft is sent to be mounted on the belt pulley, the conveyer belt is connected to described
On belt pulley, the other end of the main shaft is connected with the grinding wheel chuck for installing the emery wheel.
Further improved as of the present utility model, the end of the end of the upper mounting plate and the lower installation board it
Between be provided with bullet ejection device for eliminating backlass.
Further improved as of the present utility model, the blade that the reductor shaft is connected with for installing blade is installed
Frame.
Further improved as of the present utility model, the grinding wheel drive mitor is fixedly connected on by grinding wheel drive mitor supporting plate
On the upper mounting plate.
Further improved as of the present utility model, the grinding mechanism also includes safety guard, the safety guard is covered
The emery wheel.
Further improved as of the present utility model, the safety guard is provided with suction port, the suction port is connected with
Sweep-up pipe.
In the utility model, floor installation is on lathe, it would be desirable to the product of processing(Roller parts)Installed in lathe
On, under the control of control cabinet, transmission mechanism is started working, and guide-rail sliding mechanism motion is driven, so that using grinding mechanism pair
The product of processing is needed to be ground;When guide-rail sliding mechanism is moved, the first oscillating bearing drives under the drive of transmission mechanism
Upper mounting plate carries out front and rear motion of retreating relative to lower installation board;The utility model simple structure, easy to operate, control is accurate
Height, product surface quality is relatively good, brighter and cleaner, more smooth after crudy stabilization and processing, and processing efficiency is also than very fast.
Brief description of the drawings
For ease of explanation, the utility model is described in detail by following preferred embodiments and accompanying drawing.
Fig. 1 is structural representation of the present utility model;
Fig. 2 is the left view of Fig. 1.
Fig. 3 is the rearview of Fig. 1.
Fig. 4 is the inner connecting structure schematic diagram of guide-rail sliding mechanism of the present utility model;
Reference:1- bases, 2- guide-rail sliding mechanisms, 21- lower installation boards, 22- upper mounting plates, the joint shafts of 23- first
Hold, the connection handles of 231- first, 24- second joint bearings, the connection handles of 241- second, 25- bullet ejection devices, 3- eccentric shafts, 31- is eccentric
Portion, 4- reductors, 5- servomotors, 6- control cabinets, 7- grinding wheel drive mitor supporting plates, 8- blade mounting brackets, 9- grinding wheel drive mitors, 10-
Main shaft, 11- belt pulleys, 12- conveyer belts, 13- emery wheels, 14- grinding wheel chucks, 15- safety guards, 16- suction ports.
Specific embodiment
In order that the purpose of this utility model, technical scheme and advantage become more apparent, below in conjunction with accompanying drawing and implementation
Example, is further elaborated to the utility model.It should be appreciated that specific embodiment described herein is only used to explain
The utility model, is not used to limit the utility model.
As shown in Figure 1, Figure 2, Figure 3 and Figure 4, grinder high in a kind of numerical control of the present utility model, including be connected with lathe
Base 1 and be arranged on base 1 the guide-rail sliding mechanism 2 for making lathe tool slide anteroposterior, for making guide-rail sliding mechanism 2
The transmission mechanism of motion, the control cabinet 6 for being configured control and the grinding mechanism for being ground;
Guide-rail sliding mechanism 2 includes upper mounting plate 21, lower installation board 22, the first oscillating bearing 23 and second joint bearing
24, second joint bearing 24 is vertically fixedly connected on lower installation board 22, and second joint bearing 24 is matched somebody with somebody with the first oscillating bearing 23
Connection is closed, the first oscillating bearing 23 is connected through upper mounting plate 22 with transmission mechanism.
In the utility model, base 1 is arranged on lathe, it would be desirable to the product of processing(Roller parts)Installed in lathe
On, under the control of control cabinet 6, transmission mechanism is started working, and drives guide-rail sliding mechanism 2 to move, so that using grinding mechanism
Product to needing processing is ground;When guide-rail sliding mechanism 2 is moved, drive of first oscillating bearing 23 in transmission mechanism
Under, drive upper mounting plate 22 to carry out front and rear motion of retreating relative to lower installation board 21.
The utility model provides a kind of implementation method of guide-rail sliding mechanism 2, and the first oscillating bearing 23 is provided with the first company
Handle 231 is connect, second joint bearing 24 is provided with the second connection handle 241, and the first connection handle 231 and the second connection handle 241 carry out spiral shell
Line is connected, and the first connection handle 231 is threadedly coupled with the second connection handle 241, can conveniently carry out screw mandrel slip.
The utility model provides a kind of implementation method of transmission mechanism, and transmission mechanism includes eccentric shaft 3, reductor 4 and watches
Motor 5 is taken, servomotor 5 is connected with reductor 4, and eccentric shaft 3 is socketed on reductor 4, eccentric shaft 3 includes eccentric part 31, partially
Center portion 31 is connected with the first oscillating bearing 23;Servomotor 5 is operated, and drives the eccentric shaft 3 of the connection of reductor 4 slowly
Ground rotation so that the first oscillating bearing 23 be connected with the eccentric part 31 of eccentric shaft 3 is made forward-reverse and moved, when being worked into product
Product(Roller parts)During the centre of cylindrical length, eccentric shaft 3 has also rotated to peak, now continues processing of turning left, eccentric shaft 3
It is rotated further from high point toward low spot, grinding mechanism at this moment will be driven to make the work being moved along, until product(Roller parts)Outward
Second half of circle length is machined, and parabolical shape depends on the velocity of rotation of eccentric shaft 3.
The utility model provides a kind of implementation method of grinding mechanism, and grinding mechanism includes grinding wheel drive mitor 9, main shaft 10, skin
Belt wheel 11, conveyer belt 12 and emery wheel 13, grinding wheel drive mitor 9, one end of main shaft 10 are mounted on belt pulley 11, and conveyer belt 12 is connected to
On belt pulley 11, the other end of main shaft 10 is connected with the grinding wheel chuck 14 for installing emery wheel 13, and grinding wheel drive mitor 9 passes through conveyer belt
12 drive main shafts 10 rotate, so that drive emery wheel 13 to rotate, to product(Roller parts)It is ground.
Further, in order to eliminate backlass in guide-rail sliding mechanism 2, end and the lower installation board 22 of upper mounting plate 21
End between be provided with bullet ejection device 25 for eliminating backlass, can make between upper mounting plate 21 and lower installation board 22
Relative movement is smooth, will not block, and will not also wave up and down.
In order to carry out turning, the axle of reductor 4 is connected with the blade mounting bracket 8 for installing blade, is installed in blade
Blade is installed on frame 8, it is possible under the control of servomotor 5, driving is entered by blade of the reductor 4 with cutting blade mounting bracket 8
Cut.
Further, grinding wheel drive mitor 9 is fixedly connected on upper mounting plate 22 by grinding wheel drive mitor supporting plate 7, can be preferably
Fixed installation grinding wheel drive mitor 9, also makes emery wheel 13 under the drive of grinding wheel drive mitor 9, more stable operation.
Further, grinding mechanism also includes safety guard 15, and safety guard 15 covers emery wheel 13, to the break flour for coming is ground not
Can disorderly fly.
Further, safety guard 15 is provided with suction port 16, and suction port 16 is connected with sweep-up pipe, can carry out dedusting, changes
Environment in kind job shop.
The utility model provides one embodiment, grinder high in a kind of numerical control, including the base 1 being connected with lathe, bottom
Be connected on seat 1 and allow the guide-rail sliding mechanism 2 of lathe tool slide anteroposterior, guide-rail sliding mechanism 2 by lower installation board 21, upper mounting plate 22 and
The first oscillating bearing 23 and second joint bearing 24 therebetween is constituted, and second joint bearing 24 is through the hole on lower installation board 21 with
Installing plate 21 is vertically fixed, the handle of second joint bearing 24(Second connection handle 241)With the handle of the first oscillating bearing 23(First connects
Connect handle 231)By internal and external threads connect, second joint bearing 24 through the first oscillating bearing 23 connect eccentric shaft 3, eccentric shaft 3 it is inclined
The endoporus of the inner ring of the oscillating bearing 23 of center portion 31 and first is fitted close, and eccentric shaft 3 is socketed on reductor 4, and reductor 4 is by it
The servomotor 5 of side is driven, and the top of servomotor 5 is provided with control cabinet 6, and reductor 4 passes through grinding wheel drive mitor supporting plate 7 and knife
The axle of piece mounting bracket 8 connects, and the top fixed emery wheel motor 9 of grinding wheel drive mitor supporting plate 7, its middle part perforate is provided with main shaft 10, main shaft 10
The communicated band 12 of belt pulley 11 that one end is connected through is driven with grinding wheel drive mitor 9, and the other end is stretched out outside grinding wheel drive mitor supporting plate 7
And connect emery wheel 13.
End between lower installation board 21 and upper mounting plate 22, is provided with the bullet ejection device 25 for eliminating backlass, main shaft
10 clamp emery wheel 13 through grinding wheel chuck 14, and emery wheel 13 and grinding wheel chuck 14 are covered with safety guard 15, and safety guard 15 is provided with connection and inhales
The suction port 16 of dirt pipe, after blade mounting bracket 8 installs lathe tool, emery wheel 13 is removed and is machined.
Control cabinet 6 be provided with touch-screen, PLC, A.C. contactor, hot protective relay,(Over-pressed, under-voltage, disconnected phase, mutually continue insurance
Shield device), auxiliary reclay, switch, its panel is touch-screen, by after data high during touch-screen to control cabinet 6 sets, touching
Screen is communicated to PLC, then is controlled servomotor 5 to rotate by way of pulse and driven the work of reductor 4 by after PLC calculating
Make, so that eccentric shaft 3 rotates to an angle, the anglec of rotation of eccentric shaft 3 just can be directly changed by data high in change,
So as to high automatic adjustable in realizing.
10 programs are provided with PLC, each program sets corresponding roller long, middle high, rotary speed data and feed, again
During startup, corresponding program number is selected directly to process the roller parts of corresponding requirements.
Its operation principle:The utility model is installed on above the middle carriage of traditional lathe, roller parts one are clamped in
On the chuck of lathe, the tailstock centre jack-up of other end lathe moves to the saddle of lathe together with machine high in numerical control
The right-hand member of roller parts, the middle carriage handle of hand motor-car bed makes emery wheel of the present utility model 13 near the right-hand member of roller parts
Outer round surface is completed to work knife, then lathe is opened, and the self-acting feed of the saddle of lathe is also opened, and at this moment roller parts exist
Rotated on lathe, saddle is also automatic toward the walking of roller parts left end on the guide rail of the body of lathe bed, (sets this practicality in advance
The new advance and retreat speed of emery wheel 13 matches with the speed of lathe saddle automatically walk, and according to the middle high request of roller parts
Set the start angle of eccentric shaft), the utility model opens operation, and emery wheel contacts the cylindrical Speed Grinding of roller parts,
Servomotor 5 is operated simultaneously, drives the eccentric shaft 3 in the middle of reductor 4 to be slowly rotated so that eccentric below eccentric shaft 3
First oscillating bearing 23 in portion 31 makees retrogressing work, and (the first oscillating bearing 23 is connected with second joint bearing 24, second joint axle
Hold 24 to be fixed on above lower installation board 21, guide-rail sliding mechanism 2, reductor are installed between lower installation board 21 and upper mounting plate 22
4 are fixed on upper mounting plate 22 so that upper mounting plate 22 can be made to be driven when forward-reverse works in the first oscillating bearing 23
Installing plate 21 is also made forward-reverse work grinding wheel drive mitors supporting plate 7 and is also integrally fixed on upper mounting plate 21, and main shaft 10 is again solid
It is scheduled in grinding wheel drive mitor supporting plate 7, grinding wheel chuck 14 is installed on the front-end of spindle of main shaft 10, the rear end of main shaft 10 is provided with skin
Belt wheel 11 is connected by conveyer belt 12 with grinding wheel drive mitor 9), it is final to drive emery wheel 13 to make to retreat movement, when being worked into roller parts
During the centre of cylindrical length, eccentric shaft 3 has also rotated to peak, now continues processing of turning left, and eccentric shaft 3 is from high point toward low spot
It is rotated further, emery wheel 13 at this moment will be driven to make the work being moved along, until second half of the cylindrical length of roller parts is processed
Into parabolical shape depends on the velocity of rotation of eccentric shaft 3, and the velocity of rotation of eccentric shaft 3 is final complete by PLC controls
Processing effect.
Setting control operation process of the present utility model is as follows:
The utility model is powered after start, and the page that touch-screen occurs is General Page
Program setting:Enter edit page by " editor " of touch-screen lower left
Edit page first page have 12345 five common programs set and edit for user
Edit page second page also have 6789 10 5 common programs set and edit for user
The sequence number of every group of common programs foremost is program number.
As long as setting roller corresponding with ten common programs of click are gently touched when editing is long, middle height, actual speed, nameplate
Rotating speed and feed display box, you can carry out data input, check one time by backing into General Page after setting.
Note:Actual speed, nameplate rotating speed and feed these refer to be all lathe service data, because only that lathe
Service data be input in control cabinet of the present utility model 6 PLC the insides, fortune of the present utility model is caused by the calculating of PLC
Row is synchronous with the operating of lathe, that is to say, that when lathe operating is opened, the planker of lathe goes to workpiece from one end of workpiece
During the other end, eccentric shaft 3 inside the utility model also from angle it is synchronous rotate to another angle, it is achieved thereby that
Emery wheel 13 is processed for a parabola of workpiece.
Performed according to procedure below during operation processing:
A processes start;
The frame long behind General Page " program " is clicked on during processing and selects corresponding program number;
Check the program number of General Page and the middle height of General Page(Concave)Whether button shows normally
The roller that checks General Page is long, whether middle high, rotary speed data is consistent with feed with the data for being about to processing glue rod;
Confirm data after being consistent by RESET;
Now status bar can show total process of reset:(Automatic running)Zero --- positioning --- is standby
Note:Zero refers to that servomotor 5 is operated and drives reductor 4 to work, and eccentric shaft 3 is also rotated, when being arranged on
When 3 pointer is close proximity to switch on eccentric shaft, proximity switch work and by signal transduction to PLC, the now position of eccentric shaft
It is dead-center position, next step, according to the middle height of setting, eccentric shaft is rotated further certain " orientation angle ", i.e., " positions " also just
It is middle " start angle " high, when running, eccentric shaft 3 is initially rotated to minimum point or peak by start angle(According to work
Part is required of depending on middle high or concave)It is further continued for rotating one(By start angle to minimum point or peak)Identical
Angle, i.e. " terminal angle ".
When data high become in setting, " orientation angle " changes therewith, when running, " start angle " of operation and " eventually
Point angle " also changes therewith, it is ensured that flexible control and processing high in difference.
(Automatic running)Zero --- positioning --- is standby " process medium plain emery wheel can automatically forward also can automatically backward mobile one section
Distance less than 10mm.
Next step operation is carried out after status bar shows " standby "
A processes terminate --- --- --- ----subsequently into the process segment:
A hand middle carriage handwheel of changing trains or buses makes middle machine grinding wheel high lean on into workpiece to knife;
After to knife, laterally exit again length feed 0.1-3mm (depending on according to the difference of rubber roll material).
Open planker self-acting feed to the left or to the right;
When emery wheel 13 touches workpiece the middle operation phase high is entered into by " middle operation high ";
Status bar can show when entering into the middle operation phase high:Middle operation high:
Screen upper right pointer pattern can always track position of the emery wheel in the middle of middle operation high;
Status bar can show end of run after middle end of run high;
Now hand lathe middle carriage handwheel makes the emery wheel could be by RESET after exiting at least ten millimeters of workpiece;
Into after standby, if process that next workpiece roller is long, middle high, feed is identical with rotary speed data, can be directly right
Knife, to being run by middle height after knife;
If the roller for processing next workpiece is long and when the data such as high, actual speed and feed are differed in other;
Should return since A processes.
The utility model is it is also understood that the eccentric part 31 of eccentric shaft 3 is interior with the inner ring of the first oscillating bearing 23
Hole is close-fitting, and when eccentric shaft 3 is rotated, the eccentric part 31 of eccentric shaft 3 is made around operating around the axle center of eccentric shaft 3
, thus installed in eccentric shaft 3 eccentric part 31 the first oscillating bearing 23 inner ring also therewith around eccentric shaft 3 axle center make
Around operating(Just as peasant is used mill mill during motion), so that the handle of the first oscillating bearing 23(First
Connection handle 231)Move forward and backward, the handle of second joint bearing 24(Second connection handle 241)With the handle of the first oscillating bearing 23(The
One connection handle 231)It is that handle is connected installation to handle internal and external threads, second joint bearing 24 is finally integrally fixed on lower installation board 21
, the guide rail of guide-rail sliding mechanism 2 is also integrally fixed on lower installation board 21, and the sliding block of guide-rail sliding mechanism 2 is integrally fixed at
On installing plate 22, the main part of eccentric shaft 3(Note:Non-eccentricity portion 31)Upper mounting plate is finally fixed on reductor 4
On 22, lower installation board 21 is fixed, when eccentric shaft 3 is rotated, finally causes upper mounting plate 22 by action slide anteroposterior
's.
The utility model is installed on common lathe, and Vehicle Processing and grinding that can be random is with parabolic curve
Roller parts high, middle height can be adjusted arbitrarily, and parabolic curve can also be finely adjusted by changing the parameter of control system.
Longitudinal hand of manual toggle lathe need not be again used when processing is with roller parts high in parabolic curve
Handle retreats to be processed, and the advance and retreat of emery wheel or lathe tool all control servomotor 5 automatic by control cabinet of the present utility model 6
Complete so that the advance and retreat of emery wheel or lathe tool are more smoothed out, and the product for processing is also brighter and cleaner, smooth, parabolic curve is with
High also more accurate, an original people can only open a machine tool, it now is possible to which a people opens two or even opens three machine tools, is greatly enhanced
Production efficiency simultaneously reduces the artificial time, promotes social development.
Preferred embodiment of the present utility model is the foregoing is only, is not used to limit the utility model, it is all at this
Any modification, equivalent and improvement made within the spirit and principle of utility model etc., should be included in the utility model
Protection domain within.
Claims (9)
1. grinder high in a kind of numerical control, it is characterised in that including the base being connected with lathe and be arranged on the base
For make the guide-rail sliding mechanism of lathe tool slide anteroposterior, the transmission mechanism for making guide-rail sliding mechanism motion, be used for into
Row sets the control cabinet and the grinding mechanism for being ground of control;The guide-rail sliding mechanism includes upper mounting plate, lower peace
Dress plate, the first oscillating bearing and second joint bearing, the second joint bearing are vertically fixedly connected on the lower installation board,
The second joint bearing is connected with first oscillating bearing, first oscillating bearing through the upper mounting plate with
The transmission mechanism connection.
2. grinder high in a kind of numerical control according to claim 1, it is characterised in that first oscillating bearing is provided with
First connection handle, the second joint bearing is provided with the second connection handle, and first connection handle enters with second connection handle
Row threaded connection.
3. grinder high in a kind of numerical control according to claim 2, it is characterised in that the transmission mechanism includes bias
Axle, reductor and servomotor, the servomotor are connected with the reductor, and the excentric sleeve is connected on the reductor
On, the eccentric shaft includes eccentric part, and the eccentric part is connected with first oscillating bearing.
4. grinder high in a kind of numerical control according to claim 3, it is characterised in that the grinding mechanism includes emery wheel electricity
Machine, main shaft, belt pulley, conveyer belt and emery wheel, the grinding wheel drive mitor, one end of the main shaft are mounted on the belt pulley, institute
State conveyer belt to be connected on the belt pulley, the other end of the main shaft is connected with the grinding wheel chuck for installing the emery wheel.
5. grinder high in a kind of numerical control according to claim 4, it is characterised in that the end of the upper mounting plate and institute
The bullet ejection device for eliminating backlass is provided between the end for stating lower installation board.
6. grinder high in a kind of numerical control according to claim 5, it is characterised in that the reductor shaft be connected with for
The blade mounting bracket of blade is installed.
7. grinder high in a kind of numerical control according to claim 4, it is characterised in that the grinding wheel drive mitor is by emery wheel electricity
Machine supporting plate is fixedly connected on the upper mounting plate.
8. grinder high in a kind of numerical control according to claim 6 or 7, it is characterised in that the grinding mechanism also includes
Safety guard, the safety guard covers the emery wheel.
9. grinder high in a kind of numerical control according to claim 8, it is characterised in that the safety guard is provided with dust suction
Mouthful, the suction port is connected with sweep-up pipe.
Priority Applications (1)
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CN201621064829.9U CN206200667U (en) | 2016-09-20 | 2016-09-20 | Grinder high in a kind of numerical control |
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CN201621064829.9U CN206200667U (en) | 2016-09-20 | 2016-09-20 | Grinder high in a kind of numerical control |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106239283A (en) * | 2016-09-20 | 2016-12-21 | 吴中文 | High grinder in a kind of numerical control |
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2016
- 2016-09-20 CN CN201621064829.9U patent/CN206200667U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106239283A (en) * | 2016-09-20 | 2016-12-21 | 吴中文 | High grinder in a kind of numerical control |
CN106239283B (en) * | 2016-09-20 | 2018-03-27 | 吴中文 | High grinder in a kind of numerical control |
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Effective date of registration: 20200819 Address after: No.12, building A1, ethnic community, she Township, Chitu, Nankang District, Ganzhou City, Jiangxi Province Patentee after: Ganzhou Nankang Yuzhong CNC Equipment Co., Ltd Address before: 341400 Jiangxi province Ganzhou Nankang District Chi Tu Yu Zu Xiang Qing Tang Cun Ao Group No. 3 Patentee before: Wu Zhongwen |