CN108714743A - A kind of the optical-fiber laser cutting equipment and its cutting method of automation - Google Patents
A kind of the optical-fiber laser cutting equipment and its cutting method of automation Download PDFInfo
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- CN108714743A CN108714743A CN201810644135.XA CN201810644135A CN108714743A CN 108714743 A CN108714743 A CN 108714743A CN 201810644135 A CN201810644135 A CN 201810644135A CN 108714743 A CN108714743 A CN 108714743A
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- Prior art keywords
- cavity
- block
- wall
- rotation
- face
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K26/00—Working by laser beam, e.g. welding, cutting or boring
- B23K26/36—Removing material
- B23K26/38—Removing material by boring or cutting
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B27/00—Other grinding machines or devices
- B24B27/0076—Other grinding machines or devices grinding machines comprising two or more grinding tools
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B9/00—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor
- B24B9/007—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor for end faces of tubes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B24—GRINDING; POLISHING
- B24B—MACHINES, DEVICES, OR PROCESSES FOR GRINDING OR POLISHING; DRESSING OR CONDITIONING OF ABRADING SURFACES; FEEDING OF GRINDING, POLISHING, OR LAPPING AGENTS
- B24B9/00—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor
- B24B9/02—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground
- B24B9/04—Machines or devices designed for grinding edges or bevels on work or for removing burrs; Accessories therefor characterised by a special design with respect to properties of materials specific to articles to be ground of metal, e.g. skate blades
Abstract
The invention discloses the optical-fiber laser cutting equipments and its cutting method of a kind of automation, including apparatus main body and the laser cutting device being set in described device main body, the laser cutting device includes perforative the first cavity being set in described device main body in left and right, what is be connected in the side inner wall of first cavity is provided with the second cavity, and what is rotated in second cavity is provided with the first switch block;Nowadays gas flame cuttiug is mostly used when part is processed or is cut using saw blade cuts off proximate matter, carry out the processing of next step again later, it requires that this mode can be used when relatively low or material cost is relatively low in many machining accuracies, but the material of saw kerf will influence certain precision and the waste of some material costs in some high-precision processing or higher material cost itself, and use laser cutting not only high precision machining, saw kerf is small, and it is high in machining efficiency, the present invention is directed to design a kind of device that can be solved the above problems.
Description
Technical field
The present invention relates to technical field of laser processing, the optical-fiber laser cutting equipment of specifically a kind of automation and its cutting
Method.
Background technology
Nowadays mostly use gas flame cuttiug when part is processed or cut using saw blade and cut off proximate matter, later again into
The processing of row next step requires that this mode can be used when relatively low or material cost is relatively low in many machining accuracies, still
In some high-precision processing or higher material cost itself, the material of saw kerf will influence certain precision and some materials
The waste of cost, and not only high precision machining, saw kerf are small and high in machining efficiency using laser cutting, therefore design one kind certainly
The optical-fiber laser cutting equipment of dynamicization and its cutting method it is really necessary to.
Invention content
Technical problem to be solved by the invention is to provide a kind of optical-fiber laser cutting equipment of automation and its cutting sides
Method can solve the problems in above-mentioned present technology.
The present invention is achieved through the following technical solutions:A kind of optical-fiber laser cutting equipment of automation of the present invention
And its cutting method, including apparatus main body and the laser cutting device that is set in described device main body, the laser cutting
Device includes perforative the first cavity being set in described device main body in left and right, is connected in the side inner wall of first cavity
Logical is provided with the second cavity, and what is rotated in second cavity is provided with the first switch block, and left and right is run through in first switch block
Be provided with third cavity, opening the first turn trough to the left is provided in first switch block, first turn trough is far from described
It is provided with gear structure on the inner wall of third cavity side, wherein the upper end of the second cavity inner left wall is fixedly installed
First motor, the right end of the first motor by shaft power be connected with extension be passed through in first turn trough and with institute
The first gear that the inner wall engagement of the first turn trough is connected is stated, the 4th sky is provided in the upper inside walls of the third cavity
Chamber, what is be connected between the downside inner wall and the upper inside walls of the third cavity of the 4th cavity is provided with first through hole,
The first sliding block is slidably provided in 4th cavity, being fixedly connected with laser on the downside end face of first sliding block cuts
Head is cut, is fixedly connected with the first spring between the downside end face of first sliding block and the downside inner wall of the 4th cavity, institute
The upside end face for stating the first sliding block is fixedly connected with the first top pressure block, the setting being connected in the upper inside walls of second cavity
There is the 5th cavity, second sliding block that can slide up and down is provided in the 5th cavity, wherein the upper end of the first top pressure block
Extension is passed through in the 5th cavity, is provided with the first runner slot of opening upwards in the first top pressure block, described first turn
It is rotatably provided between the left and right sides inner wall of race and rolls the to be connected with the downside end face of second sliding block
One scroll wheel, the first cam is rotatably provided in the 5th cavity, and the lower end of first cam is slided with described second
The upper surface of block, which rolls, to be connected, and is fixedly installed the first rotation axis at the axle center of first cam, and described first
The right end of rotation axis is rotatablely connected with by bearing on the right side inner wall of the 5th cavity, a left side for first rotation axis
End is connected on the first arrangement of clutch being arranged in the 5th cavity inner left wall, wherein is cut on the left of the first motor
It is provided with the 6th cavity in described device main body, is rotatably provided with second gear in the 6th cavity, described
Two gears are connected by shaft power in the left end of the first motor, the 6th cavity and positioned at second tooth
The upside of wheel is rotatably provided with the third gear being meshed with the second gear, is fixed at the axle center of the third gear
It is connected with the second rotation axis, the right end of second rotation axis is connected on first arrangement of clutch, the third cavity
It is provided with grinding device in the inner wall of downside, fixing device is provided in described device main body.
The grinding device includes being set in the downside of second cavity of being connected as a preferred technical solution,
The 7th cavity in wall, is provided with the third sliding block that can slide up and down in the 7th cavity, in the downside of the 7th cavity
What is be connected in wall is provided with the 8th cavity, and the second cam, second cam are rotatably provided in the 8th cavity
Axle center at be fixedly connected with third rotation axis, the right end of the third rotation axis is rotatablely connected with described by bearing
On the right side inner wall of eight cavitys, the left end of the third rotation axis be connected to setting on the right side of the 8th cavity in inner wall and with
On identical second arrangement of clutch of the first arrangement of clutch structure, the left side of the 8th cavity and it is located at second cavity
Side inner wall in be connected be provided with cyclic annular second turn trough, the left end of the first switch block week side end face, which is fixedly connected with, to be prolonged
The gear ring being passed through in second turn trough is stretched, what is be connected in the downside inner wall of second turn trough is provided with the 9th cavity, institute
It states and is rotatably provided with the 4th gear being meshed with the gear ring between the left and right sides inner wall of the 9th cavity, the described 4th
The downside of gear and the 5th gear being meshed with the 4th gear, institute are rotatably provided in the 9th cavity
It states and is provided with the 4th rotation axis at the axle center of the 5th gear, the right end of the 4th rotation axis is connected to second arrangement of clutch
On, what is be connected in the downside inner wall of the third cavity is provided with the first cunning chamber, and the first cunning intracavitary is provided with can be upper and lower
The motor fixed block of sliding is fixedly installed the second motor in the motor fixed block, and the upper end of second motor is by turning
Axis power is connected with the first grinding disc, and the first fixed block, institute are fixedly connected on the downside end face of the motor fixed block
The lower end extension for stating first motor is passed through in the 7th cavity, and second turn that Open Side Down is provided in first fixed block
Race, is rotatably provided with the second runner between the left and right sides inner wall of the second runner slot, under second runner
End face and the upside end face of the third sliding block roll and are connected.
First arrangement of clutch includes being set to inner wall and institute on the right side of the 6th cavity as a preferred technical solution,
First stated between the 5th cavity inner left wall is begun to speak, and what is be connected in the described first side inner wall begun to speak is provided with shape of threads
Annular groove, described first begin to speak in be provided with the first sliding shoe that can be horizontally slipped, the right end face of first sliding shoe
It is fixedly connected with second spring between the right side inner wall begun to speak with described first, the left side of first sliding shoe and positioned at described
First, which begins to speak, interior is rotatably provided with the second sliding shoe, a left side for the right end face of the second sliding shoe and first sliding block
Be rotatably assorted connection by bearing between side end face, the left end extension of first rotation axis be passed through described first begin to speak in and
It is fixedly connected in the right end face of the second sliding shoe after extending through first sliding shoe, the second sliding shoe
The for extending and being passed through in the annular groove and being slidably connected with the inner wall of the annular groove is fixedly connected on the end face of upside
One slider guide is provided with opening second beginning to speak to the left in the second sliding shoe, solid in the described second side inner wall begun to speak
Surely it is provided with the first rotation connection block, is fixedly connected on the described second inner wall begun to speak on the left of the first rotation connection block
Second turn of link block, described second, which begins to speak, is slidably provided with third sliding shoe, and the right end of second rotation axis, which extends, to be led to
Enter described second to begin to speak interior and be fixedly connected in the left end face of the third sliding shoe, all sides of the third sliding shoe
Block can be rotatablely connected with the matched third of the first rotation connection block by being fixedly connected on face, and the third is rotatablely connected block
Left side and positioned at the third sliding shoe all side end faces on be fixedly connected with can with it is described second rotation connection block match
The 4th rotation connection block.
Pass through ratchet between the first rotation connection block and third rotation connection block as a preferred technical solution,
Connection, wherein when third rotation connection block rotates forward, the third rotation connection block can drive first rotation connection
Block rotates forward, and when third rotation connection block reversion, the third rotation connection block is rotatablely connected block with described first and slides
It is dynamic to be connected, it is connected by ratchet between the second rotation connection block and the 4th rotation connection block, wherein when described
When 4th rotation connection block rotates forward, institute is worked as in the 4th rotation connection block and third rotation connection block sliding connection
When stating the 4th rotation connection block reversion, the 4th rotation connection block can drive the third rotation connection block reversion.
What is be connected in the left and right sides inner wall of the 5th cavity as a preferred technical solution, is provided with the first slide guide
Slot is fixedly connected with the second slide guide for extending and being passed through in first guide runner on the left and right sides end face of second sliding block
Block is fixedly connected with second spring between the downside end face of second slider guide and the downside inner wall of first guide runner;
What is be connected in the left and right sides inner wall of the first cunning chamber is provided with the second guide runner, the left and right sides of the motor fixed block
The third slider guide for extending and being passed through in second guide runner, the downside end face of the third slider guide are fixedly connected on end face
It is fixedly connected with the 4th spring between the downside inner wall of second guide runner;In the left and right sides inner wall of 7th cavity
What is be connected is provided with third guide runner, and extension is fixedly connected on the left and right sides end face of the third sliding block and is passed through described
The 4th slider guide in three guide runners, between the upside end face and the upper inside walls of the third guide runner of the 4th slider guide
It is fixedly connected with the 5th spring.
As a preferred technical solution, the first push is rotatably provided in the upper and lower sides inner wall of first cavity
Wheel, the rear end power of first pushing wheel are connected on the third motor being set on rear side of first pushing wheel, institute
The first groove for being provided on all side end faces of the first pushing wheel and suiting with steel pipe is stated, in the upper and lower sides inner wall of first cavity
And rotatably it is provided with the second pushing wheel, the rear end power cooperation of second pushing wheel positioned at the left side of second cavity
Be connected on the 4th motor being set on rear side of second pushing wheel, be provided on all side end faces of second pushing wheel with
The second groove that steel pipe suits.
The left end of the third rotation axis is fixedly connected with the institute with second arrangement of clutch as a preferred technical solution,
It states on the second sliding shoe, the right end of the 4th rotation axis is connected on the third sliding shoe of second arrangement of clutch.
It is fixedly installed the first limited block on the rear side inner wall of the 5th cavity as a preferred technical solution, it is described
First limited block can prevent first limited block from being rotated further when first cam turns over certain angle, and described second is convex
The second limited block is fixedly installed on the rear side inner wall of wheel, second limited block can turn over the certain angle time limit in the second cam
Make being rotated further for second cam.
The fixing device includes being fixedly connected on described device main body front and rear sides end face as a preferred technical solution,
The fixed plate of lower end, perforative up and down in the fixed plate to be provided with mounting hole, the present apparatus can be consolidated by the mounting hole
It is fixed.
Described method includes following steps:When carrying out the cutting of tubing structure by the present apparatus, user of service puts steel pipe
Enter into the first cavity, at this time by the mating reaction of the first pushing wheel and the second pushing wheel drive steel pipe in the first cavity to
Left side is moved, and when movable length reaches predetermined length to steel pipe to the left, first motor starts, and then drives second by shaft
Gear rotates, and then drives the rotation of third gear, and then drives the rotation of the first arrangement of clutch, and then drives the rotation of the first cam,
When the first cam turns over 180 degree, the first limited block limits being rotated further for the first cam, meanwhile, in the process, the
Two rotation axis drive the rotation of third sliding shoe, and then are rotatablely connected block by third and drive the first rotation connection block rotation, in turn
The second sliding shoe rotation is driven, and then drives the rotation of the first rotation axis, while the first slider guide exists when the second sliding shoe rotates
Sliding in annular groove, so drive the second sliding shoe begin to speak first in move to the right, and then third is driven to be rotatablely connected block
It progressively disengages between the 4th rotation connection block is rotatablely connected block with third simultaneously and engages with the first rotation connection block, and is convex first
Third rotation connection block and the first rotation connection block are completely de- when the maximum diameter end of wheel is abutted against with the upside end face of the second sliding block
At a fully engaged from the 4th rotation connection block simultaneously and third rotation connection block, the first cam pushes the second sliding block in the 5th sky at this time
Intracavitary is moved downward to be flush with the lower ending opening of the 5th cavity, while the first motor rotated drives first gear rotation,
And then the rotation of the first switch block is driven, and then drive the first top pressure block to rotate and go to the rear side end of the second sliding block in the first scroll wheel
The downside end face of the second sliding block and the lower ending opening of the 5th cavity are flush when face, and the first scroll wheel can roll across third cavity at this time
Inner wall, meanwhile, drive ring gear against rotation when the first switch block rotates, and then drive the rotation of the 4th gear, and then drive the 5th tooth
Wheel rotation, and then the rotation of third rotation axis is driven by the second arrangement of clutch, and then the rotation of the second cam is driven, and it is convex second
Motor fixed block ejection first is slided outside chamber when the maximum diameter end of wheel is abutted against with third sliding block and pushes against steel pipe, and at first dozen
Grinding support it is identical with the first arrangement of clutch into the configuration state of the second arrangement of clutch when steel pipe, while in the second runner into third
The upside end face of third sliding block and the upper inside walls of the 7th cavity are flush when the front end of sliding block, and the second runner can smoothly turn at this time
Enter onto the inner wall of third cavity, laser cutting head starts at this time, and then can be cut to steel pipe, while the second motor opens
It is dynamic, and then the rotation of the first grinding disc is driven, and then polish the steel pipe notch after cutting, this process is beneficial to reduce steel pipe
The burr and tumor scar of notch.
The beneficial effects of the invention are as follows:The configuration of the present invention is simple, it is easy to operate, cutting for tubing structure is carried out by the present apparatus
When cutting, steel pipe is put into the first cavity by user of service, passes through the mating reaction of the first pushing wheel and the second pushing wheel at this time
Steel pipe is driven to be moved to the left in the first cavity, when movable length reaches predetermined length to steel pipe to the left, first motor opens
It is dynamic, and then second gear rotation is driven by shaft, and then the rotation of third gear is driven, and then the first arrangement of clutch is driven to turn
It is dynamic, and then drive the rotation of the first cam, when the first cam turns over 180 degree the first limited block limit the first cam after
Continuous rotation, meanwhile, in the process, the second rotation axis drives the rotation of third sliding shoe, and then is rotatablely connected block band by third
Dynamic first rotation connection block rotation, and then the second sliding shoe rotation is driven, and then the rotation of the first rotation axis is driven, while second
Sliding shoe rotate when the first slider guide slided in annular groove, and then drive the second sliding shoe first begin to speak in move to the right
It is dynamic, and then drive third rotation connection block and the first rotation connection block to progressively disengage the 4th rotation connection block simultaneously and rotated with third
It is engaged between link block, and the third rotation connection when the upside end face at the maximum diameter end of the first cam and the second sliding block abuts against
Block and the first rotation connection block completely disengage the 4th rotation connection block and third to be simultaneously rotatablely connected block at a fully engaged, and at this time first
Cam pushes the second sliding block to be moved downward in the 5th cavity and is flush with the lower ending opening of the 5th cavity, while the rotated
One motor drives first gear to rotate, and then drives the rotation of the first switch block, and then drives the rotation of the first top pressure block and rolled first
The downside end face of the second sliding block and the lower ending opening of the 5th cavity are flush when driving wheel goes to the back end surface of the second sliding block, at this time
First scroll wheel can roll across the inner wall of third cavity, meanwhile, ring gear against rotation is driven when the first switch block rotates, and then drive the 4th
Gear rotates, and then drives the rotation of the 5th gear, and then drives the rotation of third rotation axis by the second arrangement of clutch, and then drives
Second cam rotates, and chamber is slided in motor fixed block ejection first when the maximum diameter end of the second cam and third sliding block abut against
It is outer and push against steel pipe, and when the first grinding disc is supported into steel pipe the second arrangement of clutch configuration state and the first arrangement of clutch phase
Together, at the same the second runner support into third sliding block front end when third sliding block upside end face and the 7th cavity upper inside walls phase
It flushes, the second runner can be smoothly transferred on the inner wall of third cavity at this time, and laser cutting head starts at this time, and then can be to steel pipe
It is cut, while the second electric motor starting, and then drives the rotation of the first grinding disc, and then the steel pipe notch after cutting is beaten
Mill, this process are beneficial to reduce the burr and tumor scar of steel pipe notch, can be not only automatically performed to tubing workpiece by the present apparatus
Cutting, while cutting accuracy is high, consumptive material is few, participates in processing without artificial, high degree of automation is easy to use, while the present apparatus
Multiple procedure of processings can be disposably completed, it is efficient, it is worth recommending.
Description of the drawings
The present invention is described in detail by following specific embodiment and attached drawing for ease of explanation,.
Fig. 1 is a kind of optical-fiber laser cutting equipment of automation of the present invention and its internal structure signal of cutting method
Figure;
Fig. 2 is the structural schematic diagram in direction " A-A " in Fig. 1;
Fig. 3 is the enlarged diagram of " B " in Fig. 1;
Fig. 4 is the enlarged diagram of " C " in Fig. 1.
Specific implementation mode
As Figure 1-Figure 4, the optical-fiber laser cutting equipment and its cutting method of a kind of automation of the invention, including dress
The laser cutting device set main body 11 and be set in described device main body 11, the laser cutting device include that left and right is run through
The first cavity 21 being set in described device main body 11, what is be connected in the side inner wall of first cavity 21 is provided with
Second cavity 24, the interior rotation of second cavity 24 are provided with the first switch block 25, and left and right is perforative in first switch block 25
It is provided with third cavity 26, the first turn trough 43 of opening to the left is provided in first switch block 25, first turn trough 43 is remote
It is provided with gear structure on inner wall from 26 side of third cavity, wherein the upper end of 24 inner left wall of the second cavity
It is fixedly installed first motor 46, the right end of the first motor 46 is connected with extension by shaft power and is passed through described
Engage the first gear 44 of mating connection in one turn trough 43 and with the inner wall of first turn trough 43, the third cavity 26 it is upper
Be provided with the 4th cavity 28 in the inner wall of side, the downside inner wall of the 4th cavity 28 and the upper inside walls of the third cavity 26 it
Between be connected be provided with first through hole 29, be slidably provided with the first sliding block 33 in the 4th cavity 28, described first
Laser cutting head 31 is fixedly connected on the downside end face of sliding block 33, the downside end face of first sliding block 33 is empty with the described 4th
The first spring 27 is fixedly connected between the downside inner wall of chamber 28, the upside end face of first sliding block 33 is fixedly connected with first
Top pressure block 35, what is be connected in the upper inside walls of second cavity 24 is provided with the 5th cavity 67, in the 5th cavity 67
It is provided with second sliding block 39 that can slide up and down, wherein the upper end of the first top pressure block 35, which extends, is passed through the 5th cavity
In 67, the first runner slot 96 of opening upwards, the left and right two of the first runner slot 96 are provided in the first top pressure block 35
It is rotatably provided between the inner wall of side and rolls the first scroll wheel 41 being connected with the downside end face of second sliding block 39,
The first cam 37, the lower end of first cam 37 and second sliding block 39 are rotatably provided in 5th cavity 67
Upper surface roll and be connected, be fixedly installed the first rotation axis 42 at the axle center of first cam, described first
The right end of rotation axis 42 is rotatablely connected with by bearing on the right side inner wall of the 5th cavity 67, first rotation axis
42 left end is connected on the first arrangement of clutch being arranged in 67 inner left wall of the 5th cavity, wherein first electricity
46 left side of machine is cut is provided with the 6th cavity 47 in described device main body 11, is rotatably provided in the 6th cavity 47
Second gear 48, the second gear 48 are connected by shaft power in the left end of the first motor 46, and the described 6th
It is rotatably provided with the third being meshed with the second gear 48 in cavity 47 and positioned at the upside of the second gear 48
Gear 51, the second rotation axis 49 is fixedly connected at the axle center of the third gear 51, and the right end of second rotation axis 49 connects
It is connected on first arrangement of clutch, grinding device, described device main body is provided in the downside inner wall of the third cavity 26
Fixing device is provided on 11.
Valuably, the grinding device includes the 7 be set in the downside inner wall of second cavity 24 being connected
Cavity 93 is provided with the third sliding block 83 that can slide up and down, the downside inner wall of the 7th cavity 93 in the 7th cavity 93
What is be inside connected is provided with the 8th cavity 84, is rotatably provided with the second cam 86 in the 8th cavity 84, and described second
Third rotation axis 85 is fixedly connected at the axle center of cam 86, the right end of the third rotation axis 85 is rotatably connected by bearing
It is connected on the right side inner wall of the 8th cavity 84, the left end of the third rotation axis 85, which is connected to, to be arranged in the 8th cavity
In 84 right side inner walls and on the second arrangement of clutch identical with the first arrangement of clutch structure 87, a left side for the 8th cavity 84
Side and what is be connected in the side inner wall of second cavity 24 be provided with cyclic annular second turn trough 94, first switch block 25
The left end of all side end faces is fixedly connected with the gear ring 95 for extending and being passed through in second turn trough 94, the downside of second turn trough 94
What is be connected in inner wall is provided with the 9th cavity 88, is rotatably provided between the left and right sides inner wall of the 9th cavity 88
The 4th gear 92 being meshed with the gear ring 95, the downside of the 4th gear 92 and can turn in the 9th cavity 88
Dynamic is provided with the 5th gear 89 being meshed with the 4th gear 92, and the 4th is provided at the axle center of the 5th gear 89
The right end of rotation axis 91, the 4th rotation axis 91 is connected on second arrangement of clutch, the downside of the third cavity 26
What is be connected in inner wall is provided with the first cunning chamber 74, and the motor fixed block that can slide up and down is provided in the first cunning chamber 74
72, the second motor 73 is fixedly installed in the motor fixed block 72, and the upper end of second motor 73 is matched by shaft power
Conjunction is connected with the first grinding disc 75, and the first fixed block 76 is fixedly connected on the downside end face of the motor fixed block 72, described
The lower end of first motor 76, which extends, to be passed through in the 7th cavity 93, be provided with that Open Side Down in first fixed block 76 the
Two runner slots 79, are rotatably provided with the second runner 82 between the left and right sides inner wall of the second runner slot 79, and described
The lower face of two runners 82 and the upside end face of the third sliding block 83 roll and are connected.
Valuably, first arrangement of clutch includes being set to 47 right side inner wall of the 6th cavity and the 5th cavity
First between 67 inner left walls begins to speak 54, described first begin to speak 54 side inner wall in the ring for being provided with shape of threads that is connected
Shape slot 57, described first, which begins to speak, is provided with the first sliding shoe 56 that can be horizontally slipped, the right side of first sliding shoe 56 in 54
End face and described first begin to speak 54 right side inner wall between be fixedly connected with second spring 55, the left side of first sliding shoe 56
And begin to speak rotatably to be provided with the second sliding shoe 58 in 54 positioned at described first, the right end face of the second sliding shoe 58 with
It is rotatably assorted connection by bearing between the left end face of first sliding block 56, the left end of first rotation axis 42 extends logical
Enter described first to begin to speak in 54 and be fixedly connected on the second sliding shoe 58 after extending through first sliding shoe 56
In right end face, be fixedly connected on the upside end face of the second sliding shoe 58 extension be passed through in the annular groove 57 and with institute
The first slider guide 66 of the inner wall sliding connection of annular groove 57 is stated, is provided with and is open to the left in the second sliding shoe 58
Second begins to speak 59, described second begin to speak 59 side inner wall in be fixedly installed the first rotation connection block 61, first rotation
Described the second of the left side of link block 61 begin to speak 59 inner wall on be fixedly connected with second turn of link block 64, described second begins to speak 59 can
Sliding is provided with third sliding shoe 65, the right end extension of second rotation axis 49 be passed through described second begin to speak it is in 59 and fixed
It is connected in the left end face of the third sliding shoe 65, being fixedly connected on all side end faces of the third sliding shoe 65 can be with
First rotation connection, the 61 matched third of block is rotatablely connected block 62, and the third is rotatablely connected the left side of block 62 and is located at
Being fixedly connected on all side end faces of the third sliding shoe 65 can be with matched 4th turn of the block 64 of the second rotation connection
Dynamic link block 63.
Valuably, it is connected by ratchet between the first rotation connection block 61 and third rotation connection block 62,
In when third rotation connection block 62 rotates forward, third rotation connection block 62 can drive the first rotation connection block 61
It rotates forward, and when third rotation connection block 62 inverts, the third rotation connection block 62 is rotatablely connected block with described first
61 sliding connections are connected between the second rotation connection block 64 and the 4th rotation connection block 63 by ratchet,
In, when the 4th rotation connection block 63 rotates forward, the 4th rotation connection block 63 is slided with third rotation connection block 64
Dynamic to be connected, when the 4th rotation connection block 63 inverts, the 4th rotation connection block 63 can drive the third to turn
Dynamic link block 64 inverts.
Valuably, what is be connected in the left and right sides inner wall of the 5th cavity 67 is provided with the first guide runner 34, described
The second slider guide 32 for extending and being passed through in first guide runner 34 is fixedly connected on the left and right sides end face of second sliding block 39,
It is fixedly connected with second spring between the downside end face of second slider guide 32 and the downside inner wall of first guide runner 34
30;What is be connected in the left and right sides inner wall of the first cunning chamber 74 is provided with the second guide runner 68, the motor fixed block 72
Left and right sides end face on be fixedly connected with to extend and be passed through third slider guide 71 in second guide runner 68, the third is led
It is fixedly connected with the 4th spring 69 between the downside end face of sliding block 71 and the downside inner wall of second guide runner 68;Described 7th
What is be connected in the left and right sides inner wall of cavity 93 is provided with third guide runner 77, the left and right sides end face of the third sliding block 83
On be fixedly connected with to extend and be passed through the 4th slider guide 81 in the third guide runner 77, the upside of the 4th slider guide 81
It is fixedly connected with the 5th spring 78 between face and the upper inside walls of the third guide runner 77.
Valuably, rotatably it is provided with the first pushing wheel 23 in the upper and lower sides inner wall of first cavity 21, described
The rear end power of one pushing wheel 23 is connected on the third motor for being set to first pushing wheel, 23 rear side, and described first
The first groove 22 suited with steel pipe is provided on all side end faces of pushing wheel 23, in the upper and lower sides inner wall of first cavity 21
And it is rotatably provided with the second pushing wheel 52 positioned at the left side of second cavity 24, the rear end of second pushing wheel 52 is dynamic
Force-fitting is connected on the 4th motor for being set to second pushing wheel, 52 rear side, all side end faces of second pushing wheel 52
On be provided with the second groove 53 suited with steel pipe.
Valuably, the left end of the third rotation axis 85 is fixedly connected slides with described the second of second arrangement of clutch 87
On motion block 58, the right end of the 4th rotation axis 91 is connected on the third sliding shoe 65 of second arrangement of clutch 87.
Valuably, the first limited block 97, first limit are fixedly installed on the rear side inner wall of the 5th cavity 67
Block 97 can prevent first limited block 97 from being rotated further when first cam 37 turns over certain angle, second cam
The second limited block 98 is fixedly installed on 86 rear side inner wall, second limited block 98 can turn over certain angle in the second cam 86
Being rotated further for second cam 86 is limited when spending.
Valuably, the fixing device includes being fixedly connected on the fixation of 11 front and rear sides end face lower end of described device main body
Plate 201, perforative up and down in the fixed plate 201 to be provided with mounting hole 202, the present apparatus can be carried out by the mounting hole 202
It is fixed.
Described method includes following steps:When carrying out the cutting of tubing structure by the present apparatus, user of service puts steel pipe
Enter into the first cavity 21, drives steel pipe in the first sky by the mating reaction of the first pushing wheel 23 and the second pushing wheel 52 at this time
It is moved to the left in chamber 21, when movable length reaches predetermined length to steel pipe to the left, first motor 46 starts, and then by turning
Axis drives second gear 48 to rotate, and then third gear 51 is driven to rotate, and then drives the rotation of the first arrangement of clutch, and then drives
First cam 37 rotates, and when the first cam 37 turns over 180 degree, the first cam 37 of the first limited block 97 limitation continues to turn
It is dynamic, meanwhile, in the process, the second rotation axis 49 drives third sliding shoe 65 to rotate, and then is rotatablely connected block 62 by third
It drives the first rotation connection block 61 to rotate, and then the second sliding shoe 58 is driven to rotate, and then drive the rotation of the first rotation axis 42, together
When the first slider guide 66 sliding in the annular groove 57 when the second sliding shoe 58 rotates, and then drive the second sliding shoe 58 first
It begins to speak to move to the right in 54, and then the third rotation connection rotation connection block 61 of block 62 and first is driven to progressively disengage simultaneously the 4th
Rotation connection block 63 engages between being rotatablely connected block 64 with third, and at the maximum diameter end of the first cam 37 and the second sliding block 39
Third rotation connection block 62 and first is rotatablely connected block 61 and completely disengages the 4th rotation connection block simultaneously when upside end face abuts against
63 is at a fully engaged with third rotation connection block 64, and the first cam 37 pushes the second sliding block 39 in the 5th cavity 67 to moving down at this time
The first motor 46 moved to the lower ending opening with the 5th cavity 67 and be flush, while rotating drives first gear 44 to rotate, in turn
It drives the first switch block 25 to rotate, and then the first top pressure block 35 is driven to rotate and after the first scroll wheel 41 goes to the second sliding block 39
The downside end face of the second sliding block 39 and the lower ending opening of the 5th cavity 67 are flush when side end face, and the first scroll wheel 41 can roll at this time
The inner wall of third cavity 26 is crossed, meanwhile, drive gear ring 95 to rotate when the first switch block 25 rotates, and then drive 92 turns of the 4th gear
It is dynamic, and then the rotation of the 5th gear 89 is driven, and then drive third rotation axis 85 to rotate by the second arrangement of clutch 87, and then drive
Second cam 86 rotates, and ejects motor fixed block 72 when the maximum diameter end of the second cam 86 is abutted against with third sliding block 83
First cunning chamber 74 is outer and pushes against steel pipe, and the configuration state of the second arrangement of clutch 87 and the when the first grinding disc 75 is supported into steel pipe
One arrangement of clutch is identical, while the upside end face of third sliding block 83 and the when the second runner 82 is supported into the front end of third sliding block 83
The upper inside walls of seven cavitys 93 are flush, and the second runner 82 can be smoothly transferred on the inner wall of third cavity 26 at this time, be swashed at this time
Light cutting head 31 starts, and then can be cut to steel pipe, while the second motor 73 starts, and then drives 75 turns of the first grinding disc
It is dynamic, and then polish the steel pipe notch after cutting, this process is beneficial to reduce the burr and tumor scar of steel pipe notch.
When original state, the miner diameter end of the first cam 37 and the upper inside walls of the second sliding block 39 abut against, at this time the first top
Briquetting 35 rises to greatest extent in the 4th cavity 28, and the first sliding block 33 rises to greatest extent in the 4th cavity 28 at this time, this
When laser cutting head 31 to greatest extent in retraction first through hole 29, at this time the second sliding shoe 58 begin to speak in 54 to greatest extent first
Move to left, at this time third rotation connection block 62 with first rotation connection block 61 be connected, meanwhile, the most miner diameter end of the second cam 86 and
The downside end face of third sliding block 83 abuts against, and motor fixed block 72 declines to greatest extent in the first cunning chamber 74 at this time, and at this time the
One grinding disc 75 is fully retracted in the first cunning chamber 74, at this time the inner wall engaging structure of the second arrangement of clutch 87 with described first from
It is identical to attach together the clutch structure set.
When carrying out the cutting of tubing structure by the present apparatus, steel pipe is put into the first cavity 21 by user of service, at this time
It drives steel pipe to be moved to the left in the first cavity 21 by the mating reaction of the first pushing wheel 23 and the second pushing wheel 52, works as steel
When movable length reaches predetermined length to the left, first motor 46 starts pipe, and then drives second gear 48 to rotate by shaft,
And then third gear 51 is driven to rotate, and then the rotation of the first arrangement of clutch is driven, and then the rotation of the first cam 37 is driven, when first
The first limited block 97 limits being rotated further for the first cam 37 when cam 37 turns over 180 degree, meanwhile, in the process, the
Two rotation axis 49 drive third sliding shoe 65 to rotate, and then are rotatablely connected block 62 by third and drive the first 61 turns of block of rotation connection
It is dynamic, and then the second sliding shoe 58 is driven to rotate, and then the rotation of the first rotation axis 42 is driven, while when the second sliding shoe 58 rotates
The sliding in the annular groove 57 of first slider guide 66, and then the second sliding shoe 58 is driven to begin to speak to move to the right in 54 first, into
And it drives third rotation connection block 62 and first to be rotatablely connected block 61 and progressively disengages the 4th rotation connection block 63 simultaneously and third turn
It is engaged between dynamic link block 64, and the third when the upside end face at the maximum diameter end of the first cam 37 and the second sliding block 39 abuts against
Rotation connection block 62 and first is rotatablely connected block 61 and completely disengages the 4th rotation connection block 63 simultaneously and third rotation connection block 64
It is at a fully engaged, at this time the first cam 37 push the second sliding block 39 be moved downward in the 5th cavity 67 under the 5th cavity 67
End opening is flush, while the first motor 46 rotated drives first gear 44 to rotate, and then drives the rotation of the first switch block 25, into
And drive the rotation of the first top pressure block 35 and second sliding block 39 when the first scroll wheel 41 goes to the back end surface of the second sliding block 39
Downside end face and the lower ending opening of the 5th cavity 67 are flush, and the first scroll wheel 41 can roll across the inner wall of third cavity 26 at this time,
Meanwhile driving gear ring 95 to rotate when the first switch block 25 rotates, and then the rotation of the 4th gear 92 is driven, and then drive the 5th gear
89 rotations, and then drive third rotation axis 85 to rotate by the second arrangement of clutch 87, and then the rotation of the second cam 86 is driven, and
The ejection of motor fixed block 72 first is slided outside chamber 74 and pushed against when the maximum diameter end of second cam 86 is abutted against with third sliding block 83
Steel pipe, and the configuration state of the second arrangement of clutch 87 is identical as the first arrangement of clutch when the first grinding disc 75 is supported into steel pipe, together
When the second runner 82 is supported into the front end of third sliding block 83 in upside of the upside end face with the 7th cavity 93 of third sliding block 83
Wall is flush, and the second runner 82 can be smoothly transferred on the inner wall of third cavity 26 at this time, and laser cutting head 31 starts at this time, into
And steel pipe can be cut, while the second motor 73 start, and then drive the first grinding disc 75 rotation, and then to cutting after
Steel pipe notch is polished, this process is beneficial to reduce the burr and tumor scar of steel pipe notch.
The beneficial effects of the invention are as follows:The configuration of the present invention is simple, it is easy to operate, cutting for tubing structure is carried out by the present apparatus
When cutting, steel pipe is put into the first cavity by user of service, passes through the mating reaction of the first pushing wheel and the second pushing wheel at this time
Steel pipe is driven to be moved to the left in the first cavity, when movable length reaches predetermined length to steel pipe to the left, first motor opens
It is dynamic, and then second gear rotation is driven by shaft, and then the rotation of third gear is driven, and then the first arrangement of clutch is driven to turn
It is dynamic, and then drive the rotation of the first cam, when the first cam turns over 180 degree the first limited block limit the first cam after
Continuous rotation, meanwhile, in the process, the second rotation axis drives the rotation of third sliding shoe, and then is rotatablely connected block band by third
Dynamic first rotation connection block rotation, and then the second sliding shoe rotation is driven, and then the rotation of the first rotation axis is driven, while second
Sliding shoe rotate when the first slider guide slided in annular groove, and then drive the second sliding shoe first begin to speak in move to the right
It is dynamic, and then drive third rotation connection block and the first rotation connection block to progressively disengage the 4th rotation connection block simultaneously and rotated with third
It is engaged between link block, and the third rotation connection when the upside end face at the maximum diameter end of the first cam and the second sliding block abuts against
Block and the first rotation connection block completely disengage the 4th rotation connection block and third to be simultaneously rotatablely connected block at a fully engaged, and at this time first
Cam pushes the second sliding block to be moved downward in the 5th cavity and is flush with the lower ending opening of the 5th cavity, while the rotated
One motor drives first gear to rotate, and then drives the rotation of the first switch block, and then drives the rotation of the first top pressure block and rolled first
The downside end face of the second sliding block and the lower ending opening of the 5th cavity are flush when driving wheel goes to the back end surface of the second sliding block, at this time
First scroll wheel can roll across the inner wall of third cavity, meanwhile, ring gear against rotation is driven when the first switch block rotates, and then drive the 4th
Gear rotates, and then drives the rotation of the 5th gear, and then drives the rotation of third rotation axis by the second arrangement of clutch, and then drives
Second cam rotates, and chamber is slided in motor fixed block ejection first when the maximum diameter end of the second cam and third sliding block abut against
It is outer and push against steel pipe, and when the first grinding disc is supported into steel pipe the second arrangement of clutch configuration state and the first arrangement of clutch phase
Together, at the same the second runner support into third sliding block front end when third sliding block upside end face and the 7th cavity upper inside walls phase
It flushes, the second runner can be smoothly transferred on the inner wall of third cavity at this time, and laser cutting head starts at this time, and then can be to steel pipe
It is cut, while the second electric motor starting, and then drives the rotation of the first grinding disc, and then the steel pipe notch after cutting is beaten
Mill, this process are beneficial to reduce the burr and tumor scar of steel pipe notch, can be not only automatically performed to tubing workpiece by the present apparatus
Cutting, while cutting accuracy is high, consumptive material is few, participates in processing without artificial, high degree of automation is easy to use, while the present apparatus
Multiple procedure of processings can be disposably completed, it is efficient, it is worth recommending.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
The change or replacement expected without creative work, should be covered by the protection scope of the present invention.Therefore, of the invention
Protection domain should be determined by the scope of protection defined in the claims.
Claims (9)
1. the optical-fiber laser cutting equipment and its cutting method of a kind of automation, including apparatus main body and it is set to described device
Laser cutting device in main body, the laser cutting device include perforative first be set in described device main body in left and right
Cavity, what is be connected in the side inner wall of first cavity is provided with the second cavity, the setting rotated in second cavity
Have the first switch block, left and right is perforative in first switch block is provided with third cavity, be provided in first switch block opening to
The first left turn trough is provided with gear structure on the inner wall of first turn trough far from third cavity side, wherein described
The upper end of second cavity inner left wall is fixedly installed first motor, and the right end of the first motor is coordinated by shaft power to be connected
It is connected to the first gear for extending and being passed through in first turn trough and engage mating connection with the inner wall of first turn trough, described the
Be provided with the 4th cavity in the upper inside walls of three cavitys, the downside inner wall of the 4th cavity in the upside of the third cavity
What is be connected between wall is provided with first through hole, and the first sliding block is slidably provided in the 4th cavity, and described first slides
Laser cutting head, the downside of the downside end face of first sliding block and the 4th cavity are fixedly connected on the downside end face of block
It is fixedly connected with the first spring between inner wall, the upside end face of first sliding block is fixedly connected with the first top pressure block, and described
What is be connected in the upper inside walls of two cavitys is provided with the 5th cavity, is provided in the 5th cavity and can slide up and down second
Sliding block, wherein the upper end of the first top pressure block, which extends, to be passed through in the 5th cavity, is provided with out in the first top pressure block
Mouthful the first upward runner slot is rotatably provided between the left and right sides inner wall of the first runner slot and described second slides
The downside end face of block rolls the first scroll wheel being connected, and is rotatably provided with the first cam in the 5th cavity, institute
The lower end for stating the first cam and the upper surface of second sliding block roll and are connected, and are fixed at the axle center of first cam solid
Surely it is provided with the first rotation axis, the right end of first rotation axis is rotatablely connected with the right side of the 5th cavity by bearing
On the inner wall of side, the left end of first rotation axis is connected to the first arrangement of clutch being arranged in the 5th cavity inner left wall
On, wherein it is cut on the left of the first motor and is provided with the 6th cavity in described device main body, can turned in the 6th cavity
Dynamic is provided with second gear, and the second gear is connected by shaft power in the left end of the first motor, described
It is rotatably provided with the third tooth being meshed with the second gear in 6th cavity and positioned at the upside of the second gear
Wheel, is fixedly connected with the second rotation axis at the axle center of the third gear, and the right end of second rotation axis is connected to described the
On one arrangement of clutch, it is provided with grinding device in the downside inner wall of the third cavity, fixation is provided in described device main body
Device.
2. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
The grinding device includes the 7th cavity being set in the downside inner wall of second cavity being connected, the 7th cavity
It is inside provided with the third sliding block that can slide up and down, what is be connected in the downside inner wall of the 7th cavity is provided with the 8th cavity,
It is rotatably provided with the second cam in 8th cavity, third rotation is fixedly connected at the axle center of second cam
The right end of axis, the third rotation axis is rotatablely connected with by bearing on the right side inner wall of the 8th cavity, and described
It is in inner wall and identical as the first arrangement of clutch structure on the right side of the 8th cavity that the left end of three rotation axis is connected to setting
The second arrangement of clutch on, the left side of the 8th cavity and the setting that is connected in the side inner wall of second cavity
There are cyclic annular second turn trough, the left end of the first switch block week side end face to be fixedly connected with the tooth for extending and being passed through in second turn trough
It encloses, what is be connected in the downside inner wall of second turn trough is provided with the 9th cavity, the left and right sides inner wall of the 9th cavity
Between be rotatably provided with the 4th gear being meshed with the gear ring, the downside of the 4th gear and be located at the described 9th
It is rotatably provided with the 5th gear being meshed with the 4th gear in cavity, is provided at the axle center of the 5th gear
The right end of 4th rotation axis, the 4th rotation axis is connected on second arrangement of clutch, in the downside of the third cavity
What is be connected in wall is provided with the first cunning chamber, and the first cunning intracavitary is provided with the motor fixed block that can slide up and down, the electricity
The second motor is fixedly installed in machine fixed block, the upper end of second motor is connected with the first polishing by shaft power
Piece is fixedly connected with the first fixed block on the downside end face of the motor fixed block, and the lower end of the first motor, which extends, to be passed through
In 7th cavity, the second runner slot that Open Side Down, a left side for the second runner slot are provided in first fixed block
The second runner, the upside of the lower face of second runner and the third sliding block are rotatably provided between right both sides inner wall
End face, which rolls, to be connected.
3. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
First arrangement of clutch includes the be set on the right side of the 6th cavity between inner wall and the 5th cavity inner left wall
One begins to speak, the annular groove for being provided with shape of threads being connected in the described first side inner wall begun to speak, described first begin to speak in set
Be equipped with the first sliding shoe that can be horizontally slipped, the right end face of first sliding shoe and the described first right side inner wall begun to speak it
Between be fixedly connected with second spring, the left side of first sliding shoe and begin to speak interior rotatable to be provided with the positioned at described first
Two sliding shoes are rotatably assorted between the right end face of the second sliding shoe and the left end face of first sliding block by bearing
Connection, the left end extension of first rotation axis are passed through described first and begin to speak interior and consolidate after extending through first sliding shoe
Surely it is connected in the right end face of the second sliding shoe, it is logical that extension is fixedly connected on the upside end face of the second sliding shoe
Enter the first slider guide being slidably connected in the annular groove and with the inner wall of the annular groove, is set in the second sliding shoe
It is equipped with opening second beginning to speak to the left, the first rotation connection block is fixedly installed in the described second side inner wall begun to speak, it is described
It is fixedly connected with second turn of link block on the described second inner wall begun to speak on the left of first rotation connection block, described second begins to speak can
Sliding is provided with third sliding shoe, and the right end extension of second rotation axis is passed through described second and begins to speak interior and be fixedly connected on
In the left end face of the third sliding shoe, being fixedly connected on all side end faces of the third sliding shoe can be with described first turn
The dynamic matched third of link block is rotatablely connected block, and the third is rotatablely connected the left side of block and positioned at the third sliding shoe
Being fixedly connected on all side end faces can be with the matched 4th rotation connection block of the second rotation connection block.
4. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
It is connected by ratchet between the first rotation connection block and third rotation connection block, wherein when the third is rotatablely connected
When block rotates forward, the third rotation connection block can drive the first rotation connection block to rotate forward, and when the third is rotatablely connected
When block inverts, the third rotation connection block is rotatablely connected block sliding connection, second rotation connection with described first
It is connected by ratchet between block and the 4th rotation connection block, wherein when the 4th rotation connection block rotates forward, described the
Four rotation connection blocks and third rotation connection block sliding connection, it is described when the 4th rotation connection block reversion
4th rotation connection block can drive the third rotation connection block reversion.
5. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
What is be connected in the left and right sides inner wall of 5th cavity is provided with the first guide runner, the left and right sides end of second sliding block
Be fixedly connected with to extend on face and be passed through the second slider guide in first guide runner, the downside end face of second slider guide with
It is fixedly connected with second spring between the downside inner wall of first guide runner;Described first slides phase in the left and right sides inner wall of chamber
Connection is provided with the second guide runner, and extension is fixedly connected on the left and right sides end face of the motor fixed block and is passed through described the
Third slider guide in two guide runners, between the downside end face of the third slider guide and the downside inner wall of second guide runner
It is fixedly connected with the 4th spring;What is be connected in the left and right sides inner wall of 7th cavity is provided with third guide runner, described
It is fixedly connected with to extend on the left and right sides end face of third sliding block and is passed through the 4th slider guide in the third guide runner, described the
It is fixedly connected with the 5th spring between the upside end face of four slider guides and the upper inside walls of the third guide runner.
6. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
The first pushing wheel is rotatably provided in the upper and lower sides inner wall of first cavity, the rear end power of first pushing wheel is matched
Conjunction is connected on the third motor being set on rear side of first pushing wheel, is provided on all side end faces of first pushing wheel
The interior and left side positioned at second cavity of the upper and lower sides inner wall of the first groove suited with steel pipe, first cavity is rotatable
Be provided with the second pushing wheel, the rear end power of second pushing wheel is connected in being set on rear side of second pushing wheel
The 4th motor on, the second groove suited with steel pipe is provided on all side end faces of second pushing wheel.
7. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
The left end of the third rotation axis is fixedly connected on the second sliding shoe of second arrangement of clutch, and the described 4th rotates
The right end of axis is connected on the third sliding shoe of second arrangement of clutch.
8. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
The first limited block is fixedly installed on the rear side inner wall of 5th cavity, first limited block can turn in first cam
It prevents first limited block to be rotated further when crossing certain angle, second is fixedly installed on the rear side inner wall of second cam
Limited block, second limited block can limit being rotated further for second cam when the second cam turns over certain angle.
9. the optical-fiber laser cutting equipment and its cutting method of a kind of automation according to claim 1, it is characterised in that:
The fixing device includes being fixedly connected on the fixed plate of described device main body front and rear sides end face lower end, in the fixed plate on
Under it is perforative be provided with mounting hole, the present apparatus can be fixed by the mounting hole;
Described method includes following steps:When carrying out the cutting of tubing structure by the present apparatus, steel pipe is put by user of service
In first cavity, at this time by the mating reaction of the first pushing wheel and the second pushing wheel drive steel pipe in the first cavity to the left
Mobile, when movable length reaches predetermined length to steel pipe to the left, first motor starts, and then drives second gear by shaft
Rotation, and then the rotation of third gear is driven, and then the rotation of the first arrangement of clutch is driven, and then the rotation of the first cam is driven, when the
The first limited block limits being rotated further for the first cam when one cam turns over 180 degree, meanwhile, in the process, second turn
Moving axis drives the rotation of third sliding shoe, and then is rotatablely connected block by third and drives the first rotation connection block rotation, and then drives
The second sliding shoe rotate, and then drive the first rotation axis rotation, while when the second sliding shoe rotates the first slider guide in annular
Sliding in slot, so drive the second sliding shoe begin to speak first in move to the right, and then drive third rotation connection block and the
One rotation connection block is progressively disengaged while being engaged between the 4th rotation connection block and third rotation connection block, and in the first cam
Third rotation connection block and the first rotation connection block completely disengage together when maximum diameter end and the upside end face of the second sliding block abut against
When the 4th rotation connection block and third rotation connection block it is at a fully engaged, the second sliding block of the first cam promotion at this time is in the 5th cavity
The first motor for being moved downward to and being flush with the lower ending opening of the 5th cavity, while rotating drives first gear rotation, in turn
It drives the first switch block to rotate, and then the first top pressure block is driven to rotate and when the first scroll wheel goes to the back end surface of the second sliding block
The downside end face of second sliding block and the lower ending opening of the 5th cavity are flush, and the first scroll wheel can roll across the interior of third cavity at this time
Wall, meanwhile, ring gear against rotation is driven when the first switch block rotates, and then drive the rotation of the 4th gear, and then the 5th gear is driven to turn
It is dynamic, and then the rotation of third rotation axis is driven by the second arrangement of clutch, and then the rotation of the second cam is driven, and in the second cam
Motor fixed block ejection first is slided outside chamber when maximum diameter end is abutted against with third sliding block and pushes against steel pipe, and in the first grinding disc
It is supported into third sliding block to identical as the first arrangement of clutch into the configuration state of the second arrangement of clutch when steel pipe, while in the second runner
Front end when third sliding block upside end face and the upper inside walls of the 7th cavity be flush, the second runner can be smoothly transferred at this time
On the inner wall of third cavity, laser cutting head starts at this time, and then can be cut to steel pipe, while the second electric motor starting, into
And the rotation of the first grinding disc is driven, and then polish the steel pipe notch after cutting, this process is beneficial to reduce steel pipe notch
Burr and tumor scar.
Priority Applications (1)
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CN201810644135.XA CN108714743A (en) | 2018-06-21 | 2018-06-21 | A kind of the optical-fiber laser cutting equipment and its cutting method of automation |
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CN201810644135.XA CN108714743A (en) | 2018-06-21 | 2018-06-21 | A kind of the optical-fiber laser cutting equipment and its cutting method of automation |
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109986440A (en) * | 2019-04-30 | 2019-07-09 | 武汉楚星光纤应用技术有限公司 | Conical fiber automatic Polishing equipment and rubbing down method |
CN110153864A (en) * | 2019-06-06 | 2019-08-23 | 东阳罗素电子科技有限公司 | A kind of steel tubular goods outer surface derusting polishing controlling terminal |
CN111219428A (en) * | 2020-03-10 | 2020-06-02 | 厦门南洋职业学院 | Mechanical brake device based on mechatronic self-locking system |
CN112605876A (en) * | 2021-01-13 | 2021-04-06 | 四川吉康银科技有限公司 | Automatic rust cleaning machine of filtration impurity |
CN114888457A (en) * | 2022-07-13 | 2022-08-12 | 江苏金秋竹集团有限公司 | Laser cutting equipment is used in hangar door production |
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2018
- 2018-06-21 CN CN201810644135.XA patent/CN108714743A/en not_active Withdrawn
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109986440A (en) * | 2019-04-30 | 2019-07-09 | 武汉楚星光纤应用技术有限公司 | Conical fiber automatic Polishing equipment and rubbing down method |
CN109986440B (en) * | 2019-04-30 | 2024-02-13 | 武汉楚星光纤应用技术有限公司 | Automatic polishing equipment and polishing method for tapered optical fiber |
CN110153864A (en) * | 2019-06-06 | 2019-08-23 | 东阳罗素电子科技有限公司 | A kind of steel tubular goods outer surface derusting polishing controlling terminal |
CN111219428A (en) * | 2020-03-10 | 2020-06-02 | 厦门南洋职业学院 | Mechanical brake device based on mechatronic self-locking system |
CN111219428B (en) * | 2020-03-10 | 2021-05-14 | 厦门南洋职业学院 | Mechanical brake device based on mechatronic self-locking system |
CN112605876A (en) * | 2021-01-13 | 2021-04-06 | 四川吉康银科技有限公司 | Automatic rust cleaning machine of filtration impurity |
CN114888457A (en) * | 2022-07-13 | 2022-08-12 | 江苏金秋竹集团有限公司 | Laser cutting equipment is used in hangar door production |
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Application publication date: 20181030 |