CN109623386A - Scheming and its processing technology are walked in a kind of processing of dice - Google Patents
Scheming and its processing technology are walked in a kind of processing of dice Download PDFInfo
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- CN109623386A CN109623386A CN201910051762.7A CN201910051762A CN109623386A CN 109623386 A CN109623386 A CN 109623386A CN 201910051762 A CN201910051762 A CN 201910051762A CN 109623386 A CN109623386 A CN 109623386A
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23P—METAL-WORKING NOT OTHERWISE PROVIDED FOR; COMBINED OPERATIONS; UNIVERSAL MACHINE TOOLS
- B23P23/00—Machines or arrangements of machines for performing specified combinations of different metal-working operations not covered by a single other subclass
- B23P23/02—Machine tools for performing different machining operations
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Abstract
The present invention provides a kind of dice processing technology, step includes: that bar is clamped through main shaft module, with mobile in X-direction rotary extension in machining area;Spindle tool rest enters machining area through mobile device, on Z axis and Y direction, cooperation main shaft module is displaced bar in X-direction rotary extension, and formation is multi-shaft interlocked, to process 5 faces of dice;Countershaft module moves to biography speed synchronous with main shaft module coaxial position through mobile mechanism, and collaboration clamping bar is taken over after spindle tool rest cuts off bar and clamped;Countershaft module mobile contact countershaft knife rest on X, Y, Z axis direction through mobile mechanism, it is formed multi-shaft interlocked, with complete to dice back section process, thus realize turnning and milling one to six face simultaneous manufacturing of dice, significantly improve production efficiency and reduce production cost.
Description
Technical field
The present invention relates to one kind walk scheming more particularly to it is a kind of with major-minor Axle mould block structure dice processing walk scheming and
Its processing technology.
Background technique
Tradition amusement dice is hexahedral class cube object, and is carved with points respectively on its six face, for people
Amusement is thrown to use, and such dice can select different processing technology and equipment according to the difference of material in process.
And it is existing to the technique dice made of metal or material easy to cut, it would generally select to use in processing
Numerically-controlled machine tool carries out chip processing, so that the on the one hand structural plane of complexity out easy to process, on the other hand can also be improved dice
Machining accuracy, so that it is had more industrial aesthetic feeling.
But the shortcomings that above-mentioned existing processing technology scheme, is, can not 6 faces of simultaneous manufacturing dice, it is often necessary to add
Lower lathe reprocesses the remaining face of dice by clamping again, at least increase into postchannel process behind most 5 faces of work
One of manufacturing procedure not only increases processing cost, while also unsatisfactory in processing efficiency.
Therefore how to solve the above problems in the art, find out the production for processing such dice efficiency and Optimum cost
Scheme is a great problem that annoying those skilled in the art.
Summary of the invention
The main purpose of the present invention is to provide a kind of processing of dice to walk scheming and its processing technology, to realize turnning and milling one
To six face simultaneous manufacturing of dice.
To achieve the goals above, according to an aspect of the invention, there is provided scheming, packet are walked in a kind of processing of dice
It includes: being divided into the main shaft and countershaft module of lathe two sides, knife rest module is arranged between the main shaft and countershaft module, at least portion
Divide and protrudes into machining area, wherein the knife rest module includes: the spindle tool rest being connect by mobile device with stroke wall suspension active,
And it is fixed on the trip wall and to the countershaft knife rest of the countershaft module direction Shen Kuai Yan, which processes the main shaft module and stretches
Bar out, which is equipped with mobile mechanism and coaxially clamps bar to approach the main shaft module, disconnected to the spindle tool rest
After material, alternating clamps bar, and the countershaft module and the countershaft knife rest cooperate to the processing of bar fracture face.
In the preferred embodiment, wherein the spindle tool rest includes: in ipsilateral the first milling being arranged sequentially on knife rest plate
Knife group and the first lathe tool group, the first milling cutter group extend the second milling cutter group from the first side, the first power device respectively with this
One and second milling cutter group connection transmission, first and second milling cutter group respectively the main shaft module material folding processing end Y-axis and X-axis
It lays position.
In the preferred embodiment, wherein the mobile device includes: in the Z axis mobile unit and Y-axis that mobile connection is laminated
Mobile unit, wherein the Z axis mobile unit includes: the Z axis guide rail being arranged on stroke wall and is embedded in the trip wall dynamic trough
The first interior driving machine, Z axis shifting backboard portion is equipped with to be moved backboard portion with Z axis and connect with the matched guide groove of Z axis guide rail, the first driving machine
It is mobile to control Z-direction;Y-axis mobile unit includes: that Z axis moves prelaminar part is equipped with Y-axis guide rail and is fixed on Z axis shifting plate second
Driving machine, Y-axis shifting backboard portion, which is equipped with, moves the transmission connection control of plate side with the matched guide groove of Y-axis guide rail, the second driving machine and Y-axis
Y direction is mobile, which moves plate with the Y-axis and connect.
In the preferred embodiment, which includes: third milling cutter group, is fixed on stroke wall by support frame
And extend towards countershaft module direction, the second power device is fixed on its driving end of stroke wall back across stroke wall and support frame
Transmission is connect with third milling cutter group.
In the preferred embodiment, which includes: its front end of driving device being arranged on countershaft frame body and pair
The transmission connection of axle clamp head, which connect with mobile mechanism, the mobile mechanism include: be in can the shifting of X, Y, Z axis direction
Three dynamic axis mobile platforms.
In the preferred embodiment, which includes: the main shaft chuck being arranged on stroke wall, and is arranged in stroke
Wall back side feed device, driving motor driving end passes through transmission shaft and transmission belt and main shaft chuck respectively and feed device transmission connects
It connects, the main shaft chuck and feed device coaxial constant-speed is made to handle bar.
In the preferred embodiment, it is arranged in the first milling cutter group, the second milling cutter group, third milling cutter group and the first lathe tool group
The process tool for having plural size different, wherein the first milling cutter group includes: plane cutting knife, slot chip knife, bit wing;Second
Milling cutter group includes: slot chip knife, bit wing;Third milling cutter group includes: slot chip knife, bit wing;First lathe tool group includes: end
Face chip knife, cutoff tool.
To achieve the goals above, according to another aspect of the present invention, a kind of above-mentioned dice processing of adaptation is additionally provided to walk
The dice processing technology of scheming, step include: that S1 bar is clamped through main shaft module, to stretch in machining area in X-direction rotation
Contracting movement;S2 spindle tool rest enters machining area through mobile device, to cooperate main shaft module in X-axis on Z axis and Y direction
Direction rotary extension is displaced bar, and formation is multi-shaft interlocked, to process 5 faces of dice;S3 countershaft module is moved to through mobile mechanism
Biography speed synchronous with main shaft module coaxial position, collaboration clamping bar, takes over after spindle tool rest cuts off bar and clamps;S4 countershaft mould
Block mobile contact countershaft knife rest on X, Y, Z axis direction through mobile mechanism, formation is multi-shaft interlocked, to complete to cut off dice back
Face processing.
In the preferred embodiment, wherein the first milling cutter group of the spindle tool rest is mobile in Z, Y direction, cooperates main shaft mould
Block is through 3 90 ° of rotations, to four side chip processing of dice.
In the preferred embodiment, wherein the second milling cutter group of the spindle tool rest is mobile in Z, Y direction, cooperates main shaft mould
Block is in X-direction rotary extension bar, to process to dice front end face chip.
There is provided through the invention the dice processing walk scheming and its processing technology, can be realized turnning and milling one to dice
Six face simultaneous manufacturings, solve in the prior art can not simultaneous manufacturing technique dice defect, significantly improve life
It produces efficiency and reduces production cost, there is higher promotional value in dice manufacture field, can integrally promote the life of the industry
Produce technical level.
Detailed description of the invention
The attached drawing constituted part of this application is used to provide further understanding of the present invention, schematic reality of the invention
It applies example and its explanation is used to explain the present invention, do not constitute improper limitations of the present invention.In the accompanying drawings:
Fig. 1 is the overall structure diagram that scheming is walked in dice processing of the invention;
Fig. 2 is the overall structure diagram that scheming is walked in dice processing of the invention;
Fig. 3 is the structural schematic diagram that scheming spindle tool rest and mobile device are walked in dice processing of the invention;
Fig. 4 is the structural schematic diagram that scheming main shaft module is walked in dice processing of the invention;
Fig. 5 is that the artistic die structure schematic diagram that scheming is processed is walked in dice processing of the invention;
Fig. 6 is the procedure of processing flow chart that scheming processing technology is walked in dice processing of the invention.
Description of symbols
Main shaft module 1, countershaft module 2, knife rest module 3, stroke wall 4, bar 9, knife rest plate 5, machining area 8, main shaft chuck 11,
Feed device 12, the first driving motor 13, transmission shaft 131, countershaft frame body 21, driving device 22, countershaft collet 23, mobile mechanism
24, mobile device 31, spindle tool rest 32, countershaft knife rest 33, Z axis mobile unit 34, Y-axis mobile unit 35, Z axis guide rail 341, move
Power slot 342, the first driving machine 343, Z axis move plate 344, Y-axis guide rail 351, the second driving machine 352, Y-axis shifting plate 353, the first milling cutter
Group 321, the first lathe tool group 322, the second milling cutter group 323, the first power device 324, third milling cutter group 331, the second power device
332, support frame 36.
Specific embodiment
It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase
Mutually combination.The present invention will be described in detail below with reference to the accompanying drawings and embodiments.
In order to enable those skilled in the art to better understand the solution of the present invention, below in conjunction in the embodiment of the present invention
Attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is only
The embodiment of a part of the invention, instead of all the embodiments.Based on the embodiments of the present invention, in ordinary skill
Personnel do not make every other embodiment obtained under the premise of creative work, and protection model of the invention all should belong to
It encloses.
It should be noted that description and claims of this specification and term " first " in above-mentioned attached drawing, "
Two " etc. be to be used to distinguish similar objects, without being used to describe a particular order or precedence order.It should be understood that using in this way
Data be interchangeable under appropriate circumstances, so as to the embodiment of the present invention described herein can in addition to illustrating herein or
Sequence other than those of description is implemented.In addition, term " includes " and " having " and their any deformation, it is intended that cover
It covers and non-exclusive includes.
The technical solution of scheming and its processing technology is walked in dice processing provided by the invention, in order to effectively improve dice
Processing efficiency, be preferably based on it is existing walk scheming structure be designed improvement, based on processing bar 9, designing be can be realized
It, in the prior art can not simultaneous manufacturing to solve to the one-time formed process equipment in six face of dice and accessory processing technique
The defect of technique dice.
To achieve the goals above, scheming is walked in dice processing provided by the invention referring to FIG. 1 to FIG. 4, is mainly wrapped
It including: being divided into the main shaft and countershaft module 1,2 of lathe two sides, knife rest module 3 is arranged between the main shaft and countershaft module 1,2,
To be extending at least partially into machining area 8;Wherein the main shaft module 1 includes: the main shaft chuck 11 being arranged on stroke wall 4, and is set
The feed device 12 in 4 back side of stroke wall is set, 13 driving end of the first driving motor passes through transmission shaft 131 and transmission belt (figure respectively
In be not shown) be sequentially connected with main shaft chuck 11 and feed device 12, make the main shaft chuck 11 and 12 coaxial constant-speed of feed device
Handle bar 9;Wherein the countershaft module 2 includes: the driving device 22 being arranged on countershaft frame body 21, and its front end and countershaft press from both sides
First 23 transmission connection, which connect with mobile mechanism 24, the mobile mechanism 24 include: be in can X, Y, Z axis side
To three mobile axis mobile platforms.
Wherein the knife rest module 3 includes: the spindle tool rest 32 being connect by mobile device 31 with 4 suspension active of stroke wall,
And it is fixed on the trip wall 4 and to the countershaft knife rest 33 of the 2 direction Shen Kuai Yan of countershaft module, wherein the bar 9 is through main shaft module 1
It, can be in X-direction telescopic moving, so that the spindle tool rest 32 processes the main shaft by the clamping of the feed device 12 after clamping
The bar 9 that module 1 is stretched out forms the mobile processing of multiaxis positioning, and wherein the feed device 12 and the prior art walk scheming feeding dress
It sets that 12 is similar therefore is not being repeated in the present embodiment, those skilled in the art understand that and be carried out.
Take this countershaft module 2 to convey by the mobile mechanism 24, coaxially clamp bar 9 for approaching the main shaft module 1,
After 32 fracture of spindle tool rest, alternating clamp cutting after bar 9, after the countershaft module 2 then with the countershaft knife rest 33 cooperate
9 fracture face of bar is processed, to be processed and formed at one time to the bar 9, completes manufacturing for dice.
Furthermore, it is understood that the mobile device 31 includes: mobile single in the Z axis mobile unit 34 and Y-axis of stacking mobile connection
Member 35, wherein the Z axis mobile unit 34 includes: the Z axis guide rail 341 being arranged on stroke wall 4 and is embedded in 4 power of the trip wall
The first driving machine 343 in slot 342, Z axis move 344 back of plate and are equipped with and the matched guide groove of Z axis guide rail 341, the first driving machine 343
344 back of plate, which is moved, with Z axis connect control Z-direction movement;Y-axis mobile unit 35 includes: that Z axis shifting 344 front of plate is led equipped with Y-axis
Rail 351 and the second driving machine 352 being fixed on Z axis shifting plate 344, Y-axis move 353 back of plate equipped with matched with Y-axis guide rail 351
Guide groove, the second driving machine 352 move the transmission connection control Y direction movement of 353 side of plate with Y-axis, and the knife rest plate 5 and the Y-axis are moved
Plate 353 connects, to form the mobile form of two axis, so that spindle tool rest 32 is able to Z axis in main shaft module 1, Y direction uplink
Into the processing bar 9.And in first and second 352 the present embodiment of driving machine it is preferably elevating screw motor.
Wherein the spindle tool rest 32 includes: in ipsilateral the first milling cutter group 321 being arranged sequentially on knife rest plate 5 and the first vehicle
Knife group 322, the first milling cutter group 321 extend the second milling cutter group 323 from the first side, the first power device 324 respectively with this
One and second milling cutter group 321,323 connection transmission, first and second milling cutter group 321,323 is respectively in 1 material folding of main shaft module
The Y-axis and X-axis position for processing end are laid.Specifically, which includes: the second driving motor and driver
Structure, second driving motor drive first and second 321,323 cutter head of milling cutter group to rotate by transmission mechanism, wherein the driver
Structure, preferably gear meshing transmission structure in the present embodiment, those skilled in the art can be according to first and second milling cutter group
The structure of 323 present positions, in conjunction with it is existing walk scheming cutter head drive mechanism be rationally inferred to the gear transmission structure, thus this
One and second milling cutter group 323 can carry out the multiaxis of corresponding position to the bar 9 from the Y-axis of the main shaft module 1 and X-axis position accordingly
Mobile processing.
Wherein the countershaft knife rest 33 includes: third milling cutter group 331, is fixed on stroke wall 4 simultaneously court by support frame 36
Extend to 2 direction of countershaft module, the second power device 332 is fixed on its driving end of 4 back of stroke wall across stroke wall 4 and support
Frame 36 connect transmission with third milling cutter group 331.Specifically, which is preferably provided at far in the present embodiment
On the Z-direction other end from first and second milling cutter group 321,323, in narrow machining area 8, reasonable layout is each
Rest position avoids the formation of interference, while second power device 332 and the first power device 324 are similar, mainly uses third
Driving motor (not shown) drives third milling cutter group 331 to be rotated by gear drive.
Furthermore it is arranged in the first milling cutter group 321, the second milling cutter group 323, third milling cutter group 331 and the first lathe tool group 322
The process tool for having plural size different, wherein the first milling cutter group 321 includes: plane cutting knife, slot chip knife, bit wing;
Second milling cutter group 323 includes: slot chip knife, bit wing;Third milling cutter group 331 includes: slot chip knife, bit wing;First lathe tool
Group 322 includes: end face chip knife, cutoff tool.Furthermore each knife group quantity can be substituted according to processing.
Specifically, the specific processing realization process that scheming is walked in above-mentioned dice processing is, by the feed device 12 and main shaft
After collet 11 clamps bar 9, the bar 9 that stretches in the X-axis direction by the feed device 12 is to machining area 8, and the main shaft knife
Frame 32 then moves into machining area 8 by mobile device 31, and cooperates the bar 9 to stretch in X-direction, in its Y-axis and Z axis side
To the carry out chip, to which combination forms multi-shaft interlocked chip structure, i.e., the first milling cutter group 321 of the spindle tool rest 32 is in Z, Y
Axis direction is mobile, and cooperation main shaft module 1 is through 3 90 ° of rotations and stretches, to four side chips processing of dice;And the main shaft
Second milling cutter group 323 of knife rest 32, then it is mobile in Z, Y direction, cooperation main shaft module 1 in X-direction rotary extension bar 9,
To process to 9 front end face chip of bar, to form the processing to 9 five faces of bar, i.e. the chip in 5 faces of completion dice adds
Work.
Later, major and minor axle module 1,2 stalls, and is coaxial docking, to clamp bar 9, rear major and minor axle module 1,2 from beginning to end
Coaxial constant-speed rotation, and the bar 9 is cut off by the cutoff tool of the first lathe tool group 322, to form the back side of dice, thus should
Countershaft module 2 can take over the bar 9, after to drive the countershaft knife rest 33 to be formed by the mobile mechanism 24 multi-shaft interlocked, and move to
At countershaft knife rest 33, by the third milling cutter group 331 to the dice back side machine-shaping.Later after the forming dice blanking, then lead to
A section bar 9 can be stretched out again by crossing the main shaft module 1, and cyclic process can be formed by repeating above-mentioned manufacturing procedure, effectively improve life
Produce efficiency.
It should be noted that under the present embodiment this first and second and third milling cutter group 331, although the first lathe tool group 322 is given
The blade embodiments for knife group are gone out, but those skilled in the art can be according to the processing needs of the art dice surface texture
And the cutter in the knife group is adjusted, and the embodiment of the present invention then carries out for the artistic dice of the structure shown in Fig. 5
Illustrate, wherein need to slot on each end face of art dice, is then completed using the slot chip knife in knife group, and on each end face
Dice, then can leave corresponding number pit by the shallow drill end of bit wing in knife group to show points, and the dice is each
The edge corner angle in face then go out corresponding chamfering cambered surface by end face chip knife turning, to efficiently complete on each end face of the dice
Shape processing.
On the other hand in order to be adapted to the manufacturing procedure that scheming is walked in above-mentioned dice processing, according to another aspect of the present invention, also
A kind of dice processing technology is provided, referring to Fig. 6, the step includes:
S1 bar 9 is clamped through main shaft module 1, with mobile in X-direction rotary extension in machining area 8;
S2 spindle tool rest 32 enters machining area 8 through mobile device 31, to cooperate main shaft module 1 in X on Z axis and Y direction
Axis direction rotary extension is displaced bar 9, and formation is multi-shaft interlocked, to process 5 faces of dice;
S3 countershaft module 2 moves to biography speed synchronous with 1 coaxial position of main shaft module, collaboration clamping bar 9, through master through mobile mechanism 24
It takes over and clamps after the cutting bar 9 of axis knife rest 32;
The mobile contact countershaft knife rest 33 on X, Y, Z axis direction through mobile mechanism 24 of S4 countershaft module 2, formation is multi-shaft interlocked, with
It completes to process dice back section.
Wherein the first milling cutter group 321 of the spindle tool rest 32 is mobile in Z, Y direction, cooperation main shaft module 1 through 3 times 90 °
Rotation, to four side chip processing of dice.
Wherein the second milling cutter group 323 of the spindle tool rest 32 is mobile in Z, Y direction, cooperates main shaft module 1 in X-direction
Rotary extension bar 9, to be processed to dice front end face chip.
Wherein after the charge bar 9 after the countershaft module 2 catcher fracture, is driven through mobile mechanism 24, do the shifting of X, Y, Z axis direction
It is dynamic, to cooperate countershaft knife rest 33 to rotate 9 rear end face of chip bar in X-direction, complete to process dice rear end face.
There is provided through the invention the dice processing walk scheming and its processing technology, can be realized turnning and milling one to dice
Six face simultaneous manufacturings, solve in the prior art can not simultaneous manufacturing technique abnormity dice defect, significantly improve
Production efficiency simultaneously reduces production cost, has higher promotional value in dice manufacture field, can integrally promote the industry
Production technology level.
Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment
All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification,
It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to better explain the present invention
Principle and practical application, so that skilled artisan be enable to better understand and utilize the present invention.The present invention is only
It is limited by claims and its full scope and equivalent, it is all within the spirits and principles of the present invention, made any
Modification, equivalent replacement, improvement etc., should all be included in the protection scope of the present invention.
It will be appreciated by those skilled in the art that implementing the method for the above embodiments is that can pass through
Program is completed to instruct relevant hardware, which is stored in a storage medium, including some instructions are used so that single
Piece machine, chip or processor (processor) execute all or part of the steps of each embodiment the method for the application.And it is preceding
The storage medium stated includes: USB flash disk, mobile hard disk, read-only memory (ROM, Read-Only Memory), random access memory
The various media that can store program code such as (RAM, Random Access Memory), magnetic or disk.
In addition, any combination can also be carried out between a variety of different embodiments of the embodiment of the present invention, as long as it is not
The thought of the embodiment of the present invention is violated, equally should be considered as disclosure of that of the embodiment of the present invention.
Claims (10)
1. scheming is walked in a kind of dice processing comprising: it is divided into the main shaft and countershaft module of lathe two sides, the setting of knife rest module exists
Between the main shaft and countershaft module, to be extending at least partially into machining area, wherein the knife rest module includes: to be filled by mobile
The spindle tool rest connecting with stroke wall suspension active is set, and is fixed on the stroke wall and to the countershaft module direction Shen Kuai Yan
Countershaft knife rest, the spindle tool rest processes the bar that the main shaft module is stretched out, and the countershaft module is equipped with mobile mechanism
Coaxially clamp bar to approach the main shaft module, after spindle tool rest fracture, alternating clamp bar after, the countershaft module with
Bar fracture face is processed in the countershaft knife rest cooperation.
2. scheming is walked in dice processing according to claim 1, wherein the spindle tool rest includes: to be arranged sequentially knife in ipsilateral
The first milling cutter group and the first lathe tool group on frame plate, the first milling cutter group extend the second milling cutter group from the first side, and first is dynamic
Power device connect transmission with first and second described milling cutter group respectively, first and second described milling cutter group is respectively in the main shaft mould
The Y-axis at end is processed in block material folding and X-axis position is laid.
3. scheming is walked in dice processing according to claim 2, wherein the mobile device includes: the Z in stacking mobile connection
Axis mobile unit and Y-axis mobile unit, wherein the Z axis mobile unit includes: the Z axis guide rail and insertion being arranged on stroke wall
The first driving machine in the stroke wall dynamic trough, Z axis move backboard portion and are equipped with and the matched guide groove of Z axis guide rail, the first driving
Machine moves backboard portion with Z axis and connect control Z-direction movement;Y-axis mobile unit includes: that Z axis moves prelaminar part equipped with Y-axis guide rail and consolidates
It is scheduled on the second driving machine that Z axis moves on plate, Y-axis is moved backboard portion and is equipped with and the matched guide groove of Y-axis guide rail, the second driving machine and Y-axis
The transmission connection control Y direction movement of plate side is moved, knife rest plate moves plate with the Y-axis and connect.
4. scheming is walked in dice processing according to claim 1, the countershaft knife rest includes: third milling cutter group, passes through support
Frame is fixed on stroke wall, and is extended towards countershaft module direction, and the second power device is fixed on its driving end of stroke wall back
Transmission is connect with third milling cutter group across stroke wall and support frame.
5. scheming is walked in dice processing according to claim 1, the countershaft module includes: the driving being arranged on countershaft frame body
Its front end of device and countershaft collet are sequentially connected, and countershaft frame body bottom is connect with mobile mechanism, and the mobile mechanism includes:
In can three mobile axis mobile platforms of X, Y, Z axis direction.
6. scheming is walked in dice processing according to claim 1, the main shaft module includes: the main shaft folder being arranged on stroke wall
Head, and the feed device of stroke wall back side is set, driving motor driving end passes through transmission shaft and transmission belt respectively and main shaft presss from both sides
Head and feed device transmission connection, make the main shaft chuck and feed device coaxial constant-speed handle bar.
7. according to claim 1 dice processing walk scheming, the first milling cutter group, the second milling cutter group, third milling cutter group and
The different process tool of plural size is arranged in first lathe tool group, wherein the first milling cutter group includes: plane cutting knife, slot
Chip knife, bit wing;Second milling cutter group includes: slot chip knife, bit wing;Third milling cutter group includes: slot chip knife, bit wing;
First lathe tool group includes: end face chip knife, cutoff tool.
8. the dice processing technology of scheming is walked in a kind of such as any dice processing of claim 1 to 7 of adaptation, step includes:
S1 bar is clamped through main shaft module, with mobile in X-direction rotary extension in machining area;
S2 spindle tool rest enters machining area through mobile device, to cooperate main shaft module in X-direction on Z axis and Y direction
Rotary extension is displaced bar, and formation is multi-shaft interlocked, to process 5 faces of dice;
S3 countershaft module moves to biography speed synchronous with main shaft module coaxial position, collaboration clamping bar, through main shaft knife through mobile mechanism
It takes over and clamps after frame cutting bar;
S4 countershaft module mobile contact countershaft knife rest on X, Y, Z axis direction through mobile mechanism, formation is multi-shaft interlocked, with completion pair
The processing of dice back section.
9. dice processing technology according to claim 8, wherein the first milling cutter group of the spindle tool rest is in Z, Y direction
Mobile, cooperation main shaft module is through 3 90 ° of rotations, to four side chip processing of dice.
10. dice processing technology according to claim 8, wherein the second milling cutter group of the spindle tool rest is in Z, Y-axis side
To movement, cooperate main shaft module in X-direction rotary extension bar, to process to dice front end face chip.
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CN112536855A (en) * | 2020-11-27 | 2021-03-23 | 株洲宏大高分子材料有限公司 | Two-way processingequipment of polymer pipe rod |
CN113953770A (en) * | 2021-11-11 | 2022-01-21 | 苏州佰富杏一智能制造有限公司 | Machining process of magnetic core of electromagnetic valve |
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Application publication date: 20190416 |