CN208713153U - A kind of numerically controlled automatic optical-fiber laser cutting machine - Google Patents
A kind of numerically controlled automatic optical-fiber laser cutting machine Download PDFInfo
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- CN208713153U CN208713153U CN201821321824.9U CN201821321824U CN208713153U CN 208713153 U CN208713153 U CN 208713153U CN 201821321824 U CN201821321824 U CN 201821321824U CN 208713153 U CN208713153 U CN 208713153U
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Abstract
The utility model discloses a kind of numerically controlled automatic optical-fiber laser cutting machines, including workbench, the top two sides of the workbench symmetrically offer sliding slot, the inner surface wall bottom center of two told sliding slots is welded with embedded block, crossbeam is slidably connected above the workbench, the two sides of the bottom of the crossbeam are rotatably connected to pulley, and laser emitter is slidably connected at the top center of the crossbeam, and the bottom center of the laser emitter is fixed with laser export head through crossbeam.In the utility model, link block is welded in the placing groove inner surface wall two sides of bench-top, the side of link block slidably connects fixed block, sliding shoe can be skidded off and steel will be embedded into fixed block and cut, steel clout above can be removed by skidding off fixed block after cutting, avoiding operator from taking out clout by hand and being scalded by the laser export head with high temperature.
Description
Technical field
The utility model relates to laser cutting machine technical fields more particularly to a kind of numerically controlled automatic optical-fiber laser to cut
Machine.
Background technique
Laser cutting machine is the laser that will launch from laser, through light path system, is focused into the laser of high power density
Beam, laser beam are irradiated to workpiece surface, and workpiece is made to reach fusing point or boiling point, at the same the high pressure gas coaxial with light beam will melt or
Gasified metal is blown away, and with the movement of light beam and workpiece relative position, so that material is formed joint-cutting, to reach the mesh of cutting
, with the rise of China's fiber manufacturing industry, numerically controlled automatic optical-fiber laser cutting machine is manufactured for working process
Optical fiber.
The laser emitter of existing most numerically controlled automatic optical-fiber laser cutting machine is at work on the market
Cannot move up and down, therefore the steel of different-thickness cannot be cut, can only the certain steel of cutting thickness have certain limitation,
Flexibility is not high, while after well cutting steel, needs the dynamic clout for finishing cutting of manpower to take out and be easy to cause people
Hand is scalded by the laser export head with high temperature, causes danger.
Utility model content
Purpose of the utility model is to solve disadvantages existing in the prior art, and a kind of numerically controlled automatic proposed
Optical-fiber laser cutting machine.
To achieve the goals above, the utility model adopts the technical scheme that a kind of numerically controlled automatic optical-fiber laser
Cutting machine, including workbench, the top two sides of the workbench symmetrically offer sliding slot, the inner surface wall bottom of two told sliding slots
It is welded with embedded block at center, crossbeam, the two sides of the bottom rotation connection of the crossbeam are slidably connected above the workbench
There is pulley, laser emitter is slidably connected at the top center of the crossbeam, the bottom center of the laser emitter is passed through
It wears crossbeam and is fixed with laser export head, the appearance wall side of the laser emitter is welded with support rod at bottom, described
The top of support rod is fixed with servo motor by fixed screw, is rotated and is connected by shaft at the side center of the servo motor
It is connected to driving wheel, the side of the driving wheel is rotatably connected to driven wheel, the appearance wall one of the laser emitter by shaft
Side is symmetrically welded with toothrow, and placing groove, the inner surface wall two sides pair of the placing groove are offered at the top center of the workbench
Title is welded with link block, and the opposite side of two link blocks slidably connects fixed block, and the side of the workbench is close
Splicing bar is fixed with by fixed screw at bottom, is fixed with operation machine at the top of the splicing bar.
Preferably, the bottom of told workbench is fixed with multiple support frames, offers embedded groove at the top of support frame as described above,
And the inner width of embedded groove is equal to the outer width of workbench bottom, the two sides of the bottom of support frame as described above are welded with stabilizer blade.
Preferably, the driving wheel and driven wheel are respectively positioned between two toothrows, and are engaged between driving wheel and driven wheel
Link, and driving wheel is engaged with toothrow and is linked, and driven wheel also engages connection with toothrow.
Preferably, the appearance wall side of the link block offers insertion groove, the inner surface wall top of the insertion groove and bottom
Portion is symmetrically welded with sliding block.
Preferably, insertion rod, the top and bottom of the insertion rod are welded at the appearance wall side center of the fixed block
Portion offers loose slot at center.
Preferably, two side of appearance wall of the fixed block opens up fluted, and the inside top of fixed block and bottom one
Side is symmetrically fixed with adjustable spring, and friction block, the top fitting of the friction block are welded at the top of two adjustable springs
There is sheet rubber, and friction block passes through adjustable spring and fixed block elastic connection.
In the utility model, firstly, servo motor is fixed in the appearance wall side of laser emitter, the one of servo motor
Side is rotatably connected to driving wheel by shaft, and is rotatably connected to driven wheel in the side of driving wheel, while in Laser emission
The side of device be welded with two toothrows can rotation by the rotation of driving wheel with driven wheel, thus by two toothrows with
It moves up, and then is moved up and down with laser emitter, whole spirit can be improved in order to cut the steel of different-thickness
Activity, finally, being welded with link block in the placing groove inner surface wall two sides of bench-top, the side of link block slidably connects solid
Determine block, sliding shoe can be skidded off and steel will be embedded into fixed block and cut, it can be by that will consolidate after cutting
Determine block and skid off to remove steel clout above, avoids operator from taking out clout by hand and scalded by the laser export head with high temperature
Wound.
Detailed description of the invention
Fig. 1 be the utility model proposes a kind of numerically controlled automatic optical-fiber laser cutting machine main view;
Fig. 2 be the utility model proposes a kind of numerically controlled automatic optical-fiber laser cutting machine in laser emitter side view
Figure;
Fig. 3 be the utility model proposes a kind of numerically controlled automatic optical-fiber laser cutting machine in link block and fixed block
Portion's structural schematic diagram.
Marginal data:
In figure: 1, workbench;2, sliding slot;3, embedded block;4, pulley;5, crossbeam;6, placing groove;7, laser emitter;8,
Servo motor;9, support rod;10, fixed block;11, link block;12, machine is operated;13, splice bar;14, laser export head;15, it arranges
Tooth;16, driving wheel;17, driven wheel;18, insertion groove;19, sliding block;20, loose slot;21, insertion rod;22, adjustable spring;23,
Friction block.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Referring to Fig.1-3, a kind of embodiment provided by the utility model: a kind of numerically controlled automatic optical-fiber laser cutting machine, packet
Workbench 1 is included, the top two sides of workbench 1 symmetrically offer sliding slot 2, the inner surface wall bottom center weldering of two told sliding slots 2
It is connected to embedded block 3, convenient for the interaction that crossbeam 5 is more firm on workbench 1, is avoided in the process of movement due to workbench 1
Shock by external force is split away off from workbench 1 so as to cause crossbeam 5, and the top of workbench 1 slidably connects crossbeam 5,
The two sides of the bottom of crossbeam 5 are rotatably connected to pulley 4, and laser emitter 7, laser hair are slidably connected at the top center of crossbeam 5
The bottom center of emitter 7 is fixed with laser export head 14 through crossbeam 5, and the appearance wall side of laser emitter 7 is close to bottom
Place is welded with support rod 9, and the top of support rod 9 is fixed with servo motor 8 by fixed screw, the model of the servo motor 8
ACSM80 is rotatably connected to driving wheel 16 by shaft at the side center of servo motor 8, and the side of driving wheel 16 passes through shaft
It is rotatably connected to driven wheel 17, the appearance wall side of laser emitter 7 is symmetrically welded with toothrow 15, can pass through driving wheel 16
Rotation turns motionless to move up and down with two toothrows 15 with driven wheel 17, and then with entire laser emitter 7
It moves up and down, convenient for cutting the steel of different-thickness, improves the flexibility of entire cutting machine, the top center of workbench 1
Place offers placing groove 6, and the inner surface wall two sides of placing groove 6 are symmetrically welded with link block 11, and the opposite side of two link blocks 11 is equal
Fixed block 10 is slidably connected, it is convenient when in use to skid off fixed block 10 and by steel on fixed block 10, and will
The slide-in of fixed block 10 is cut by laser, and is removed the clout on above by skidding off fixed block 10 after cutting, can
It is scalded when taking out clout by the laser export head 14 with high temperature to avoid operator, the side of workbench 1 is the bottom of close to
Splicing bar 13 is fixed with by fixed screw at portion, the top of splicing bar 13 is fixed with operation machine 12.
The bottom of told workbench 1 is fixed with multiple support frames, offers embedded groove at the top of support frame, and embedded groove
Inner width is equal to the outer width of 1 bottom of workbench, and the two sides of the bottom of support frame are welded with stabilizer blade, can be more firm by workbench 1
It supports, the workbench 1 when laser cutting machine works is avoided to prevent uneven to the case where cutting dislocation occur, actively
Wheel 16 and driven wheel 17 are respectively positioned between two toothrows 15, and link is engaged between driving wheel 16 and driven wheel 17, and actively
Wheel 16 is engaged with toothrow 15 and is linked, and driven wheel 17 also engages connection with toothrow 15, can by the rotation of driving wheel 16 with from
Turning for driving wheel 17 is motionless to move up and down with two toothrows 15, and then moving up and down with entire laser emitter 7, just
In the steel of cutting different-thickness, the flexibility of entire cutting machine is improved, the appearance wall side of link block 11 offers slotting
Enter slot 18, be symmetrically welded with sliding block 19 at the top and bottom of the inner surface wall of insertion groove 18, at the appearance wall side center of fixed block 10
It is welded with insertion rod 21, loose slot 20, the appearance wall two of fixed block 10 are offered at the top and bottom center of insertion rod 21
Side opens up fluted, is cut by laser convenient for skidding off that steel are embedded on fixed block 10 and are slid into fixed block 10, together
When fixed block 10 can be skidded off after laser cutting and remove clout and avoid operator's quilt when taking out clout
Laser export head 14 with high temperature is scalded, and the inside top of fixed block 10 and bottom side are symmetrically fixed with adjustable spring
22, the top of two adjustable springs 22 is welded with friction block 23, and the top of friction block 23 is fitted with sheet rubber, and friction block 23 is logical
Adjustable spring 22 and 10 elastic connection of fixed block are crossed, the steel of different-thickness can be embedded in 10 side groove of fixed block, and
Increase the friction between steel and fixed block 10 by the sheet rubber on friction block 23 and friction block 23, avoids cutting in progress laser
Steel fall off when cutting, so that laser be caused to damage workbench 1.
Working principle: fixed block 10 is skidded off and is embedded into steel when in use the groove of 10 side of fixed block
In, while the friction between steel and fixed block 10 is increased by the sheet rubber on friction block 23 and friction block 23, it can be by steel
Material is fixed more to be consolidated, while fixed block 10 being slid into, and opens simultaneously the switch of laser emitter 7 to the steel on fixed block 10
Material is cut by laser, and by skidding off fixed block 10 after cutting, and the clout above fixed block 10 is removed, can be with
Operator is avoided to be scalded when taking out clout by the laser export head 14 with high temperature, it is permissible when the thickness difference of steel
Laser emitter 7 is moved up and down to carry out the cutting of steel by the rotation of servo motor 8.
Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this
Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art
For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic
It is equivalently replaced, within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on,
It should be included within the scope of protection of this utility model.
Claims (6)
1. a kind of numerically controlled automatic optical-fiber laser cutting machine, including workbench (1), it is characterised in that: the top of the workbench (1)
Portion two sides symmetrically offer sliding slot (2), and the inner surface wall bottom center of two told sliding slots (2) is welded with embedded block (3), described
It is slidably connected above workbench (1) crossbeam (5), the two sides of the bottom of the crossbeam (5) are rotatably connected to pulley (4), described
It is slidably connected at the top center of crossbeam (5) laser emitter (7), the bottom center of the laser emitter (7) runs through
Crossbeam (5) is fixed with laser export head (14), and the appearance wall side of the laser emitter (7) is welded with support at bottom
The top of bar (9), the support rod (9) is fixed with servo motor (8) by fixed screw, the side of the servo motor (8)
It is rotatably connected to driving wheel (16) at center by shaft, the side of the driving wheel (16) is rotatably connected to driven by shaft
It takes turns (17), the appearance wall side of the laser emitter (7) is symmetrically welded with toothrow (15), in the top of the workbench (1)
It is offered at the heart placing groove (6), the inner surface wall two sides of the placing groove (6) are symmetrically welded with link block (11), two companies
The opposite side for connecing block (11) slidably connects fixed block (10), and the side of the workbench (1) passes through fixation at bottom
Screw is fixed with splicing bar (13), is fixed with operation machine (12) at the top of the splicing bar (13).
2. a kind of numerically controlled automatic optical-fiber laser cutting machine according to claim 1, it is characterised in that: told workbench
(1) bottom is fixed with multiple support frames, embedded groove is offered at the top of support frame as described above, and the inner width of embedded groove is equal to work
The outer width of platform (1) bottom, the two sides of the bottom of support frame as described above are welded with stabilizer blade.
3. a kind of numerically controlled automatic optical-fiber laser cutting machine according to claim 1, it is characterised in that: the driving wheel
(16) it is respectively positioned between two toothrows (15) with driven wheel (17), and engages link between driving wheel (16) and driven wheel (17),
And driving wheel (16) is engaged with toothrow (15) and is linked, and driven wheel (17) also engages connection with toothrow (15).
4. a kind of numerically controlled automatic optical-fiber laser cutting machine according to claim 1, it is characterised in that: the link block
(11) appearance wall side offers insertion groove (18), is symmetrically welded with cunning at the top and bottom of the inner surface wall of the insertion groove (18)
Block (19).
5. a kind of numerically controlled automatic optical-fiber laser cutting machine according to claim 1, it is characterised in that: the fixed block
(10) it is welded with insertion rod (21) at appearance wall side center, is opened up at the top and bottom center of the insertion rod (21)
There are loose slot (20).
6. a kind of numerically controlled automatic optical-fiber laser cutting machine according to claim 1, it is characterised in that: the fixed block
(10) two side of appearance wall opens up fluted, and the inside top of fixed block (10) and bottom side are symmetrically fixed with flexible bullet
Spring (22) is welded with friction block (23) at the top of two adjustable springs (22), is fitted at the top of the friction block (23)
Sheet rubber, and friction block (23) passes through adjustable spring (22) and fixed block (10) elastic connection.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821321824.9U CN208713153U (en) | 2018-08-16 | 2018-08-16 | A kind of numerically controlled automatic optical-fiber laser cutting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821321824.9U CN208713153U (en) | 2018-08-16 | 2018-08-16 | A kind of numerically controlled automatic optical-fiber laser cutting machine |
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CN208713153U true CN208713153U (en) | 2019-04-09 |
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CN201821321824.9U Active CN208713153U (en) | 2018-08-16 | 2018-08-16 | A kind of numerically controlled automatic optical-fiber laser cutting machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111037111A (en) * | 2019-12-06 | 2020-04-21 | 江苏觅科激光设备有限公司 | Precise laser cutting device |
CN111299875A (en) * | 2020-03-19 | 2020-06-19 | 杭州科技职业技术学院 | Automatic conveying platform of laser cutting robot |
-
2018
- 2018-08-16 CN CN201821321824.9U patent/CN208713153U/en active Active
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111037111A (en) * | 2019-12-06 | 2020-04-21 | 江苏觅科激光设备有限公司 | Precise laser cutting device |
CN111299875A (en) * | 2020-03-19 | 2020-06-19 | 杭州科技职业技术学院 | Automatic conveying platform of laser cutting robot |
CN111299875B (en) * | 2020-03-19 | 2021-09-17 | 杭州科技职业技术学院 | Automatic conveying platform of laser cutting robot |
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