CN209062410U - A kind of numerical control cutting machine - Google Patents
A kind of numerical control cutting machine Download PDFInfo
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- CN209062410U CN209062410U CN201821910344.6U CN201821910344U CN209062410U CN 209062410 U CN209062410 U CN 209062410U CN 201821910344 U CN201821910344 U CN 201821910344U CN 209062410 U CN209062410 U CN 209062410U
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- plate
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- supporting plate
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Abstract
The utility model relates to a kind of numerical control cutting machines, are related to the technical field of steel plate cutting.It includes workbench, it is set to the bracket of workbench two sides, it is set on bracket and can be along X, Y, the mobile cutting head of Z-direction, workbench includes the supporting plate of bottom plate and the multiple parallel arrangements being set on bottom plate, have between adjacent supporting plate and is provided with the raising plate that bottom is connected and connect with floor sliding between gap and adjacent supporting plate, the section that raising plate is located at vertical direction is triangular in shape, and raising plate is arranged in parallel in the both ends of supporting plate, the driving cylinder that driving raising plate slides along floor level direction is connected on raising plate, the supporting block being fixed on bottom plate is provided with positioned at the side that raising plate is away from each other, sliding is connected with the conflict of one end and raising plate bevel edge and can be along the guide rod of the opposite sliding of raising plate bevel edge in supporting block, the bearing plate parallel with supporting plate is provided on the guide rod on different raising plates.The utility model has the effect of preventing supporting plate from accidentally being cut by cutting head.
Description
Technical field
The utility model relates to the technical fields of steel plate cutting, more particularly, to a kind of numerical control cutting machine.
Background technique
With modern mechanical industrial expansion, the usage amount of China's mechanical industry steel reaches several hundred million tons or more, therefore, steel
The cutting quantity of material is also very huge, and the requirement to the working efficiency and Product Precision of plate cutting processing also gradually mentions
Height, and Numerical control cutting head then has the advantages that efficient, high-quality, Numerical control cutting head is that machine tool motion is driven by digital process,
When machine tool motion, the cutting tool on lathe cuts steel plate, and when cutting, plate remains static, and passes through shifting
Motivation platform cuts plate.
Publication No. is that the application documents of CN107598349A disclose a kind of table type numerical control cutting machine, including workbench, machine
Frame, crossbeam and cutting gun, rack are located at the two sides of workbench, and crossbeam is located at the top of workbench, and cutting gun is connect with crossbeam, also
Including driving the longitudinal driving device of crossbeam longitudinal movement, the traverse gear for driving cutting gun transverse shifting, being used for
The lifting device that driving cutting gun moves up and down and the ventilation and dust removal device for ventilation and dust removal, ventilation and dust removal device are located at work
Make the lower section of platform, ventilation and dust removal device includes hopper, current stabilization storehouse and air duct, and each hopper has corresponding and is disposed below
Current stabilization storehouse, hopper are communicated with current stabilization storehouse by the air outlet of hopper, and current stabilization storehouse is communicated with air duct by the air outlet in current stabilization storehouse, are made
When industry, the plate of required cutting is placed on above workbench, cutting gun is filled by longitudinal driving device, traverse gear, lifting
It is mobile by plate cutting to set driving.
Prior art among the above has the following deficiencies: in above-mentioned table type numerical control cutting machine adjacent grill on workbench
Between spacing it is certain, when cutting head along with grizzly bar vertical direction cut when, be easy grizzly bar is accidentally cut, therefore, cut plate
Cutting Length when along cutting with grizzly bar vertical direction is restricted.
Utility model content
The purpose of the utility model is to provide a kind of numerical control cutting machines, have the effect for preventing workbench from accidentally being cut by cutting head
Fruit.
The above-mentioned purpose of the utility model has the technical scheme that
A kind of numerical control cutting machine, including workbench are set to the bracket of workbench two sides, be set on bracket and can along X,
Y, the mobile cutting head of Z-direction, the workbench includes the supporting plate of bottom plate and the multiple parallel arrangements being set on bottom plate, phase
There is gap between adjacent supporting plate, and be provided with the jacking that bottom is connected and connect with the floor sliding between the adjacent supporting plate
Plate, the section that the raising plate is located at vertical direction is triangular in shape, and the raising plate is arranged in parallel in the both ends of the supporting plate
Portion is connected with the driving cylinder for driving raising plate to slide along floor level direction on the raising plate, is located at the raising plate
The side being away from each other is provided with the supporting block being fixed on bottom plate, and sliding is connected with one end and the jacking in the supporting block
Plate bevel edge contradict and can along the guide rod of the opposite sliding of raising plate bevel edge, be provided on the guide rod on different raising plates with
The parallel bearing plate of supporting plate.
By using above-mentioned technical proposal, when operation, plate is placed on the supporting plate on workbench, plate bottom wall and branch
The contact of plate upper surface, cutting head is moved along X, Y, Z-direction at this time, is cut into required shape on plate, when cutting, if edge
Perpendicular to supporting plate cut direction Cutting Length be greater than supporting plate between spacing, when being cut at supporting plate, actuator driving
Raising plate can push guide rod to slide up and down along supporting block, glide on guide rod along floor sliding, actuator when sliding
It drives bearing plate to move up and down while dynamic, can plate be jacked up or be put down, when plate is jacked up, cutting head can cleavage
Plate at supporting plate surface, after the completion of to be cut, bearing plate is moved downward, and plate is placed on supporting plate, this numerical control cutting
The bearing plate that cutting mill can drive plate to move up and down by setting avoids cutting head from influencing to prop up because switching to bracket when cutting plate
The service life of frame has saved economic cost for production.
The utility model is further arranged to: the raising plate bevel edge is provided with sliding slot, each guide rod and jacking
One end that plate contradicts is provided with the idler wheel that can be rolled along the sliding slot.
By using above-mentioned technical proposal, when raising plate is along floor sliding, the idler wheel positioned at guide rod bottom is along cunning
Slot sliding, by setting sliding slot and the idler wheel that can be rolled along sliding slot, reduce guide rod bottom and raising plate inclined-plane it
Between frictional force so that guide rod is more smooth along the sliding of raising plate.
The utility model is further arranged to: two rows of T-slots vertical with supporting plate arragement direction are provided on the bottom plate,
And the T-slot is respectively arranged at the both ends of each supporting plate, the raising plate bottom is set as can be sliding along the T-slot
The T-shaped block of shifting.
By using above-mentioned technical proposal, when raising plate is along floor sliding, as it is located at the T-shaped block edge of raising plate bottom wall
On bottom plate T-slot sliding, such sliding type structure is simple and stability is high.
The utility model is further arranged to: the T-slot bottom is provided with multiple balls free to rotate.
By using above-mentioned technical proposal, multiple balls free to rotate are set in T-slot bottom, T-shaped block can be reduced
The frictional force generated when along T-slot sliding, so that raising plate is along the more smooth of floor sliding.
The utility model is further arranged to: being provided with driving cutting head edge on the bracket and is moved perpendicular to supporting plate direction
Zigzag tread patterns component, driving cutting head is along being parallel to the laterally driven component that supporting plate direction moves, and driving cutting head edge
The vertical driving assembly of vertical direction movement.
By using above-mentioned technical proposal, when operation, vertical driving assembly drives cutting head to move up and down along the vertical direction,
Laterally driven component drives cutting head to move along the direction for being parallel to supporting plate, and zigzag tread patterns Component driver cutting head is along perpendicular to branch
The direction of plate moves, the driving method stable structure of such portal frame form, and makes cutting head fast along the movement of X, Y, Z-direction
It is fast flexible.
The utility model is further arranged to: the zigzag tread patterns component includes two chains for being respectively arranged at bracket side
Wheel, the first motor connecting with any sprocket wheel connects the chain of sprocket wheel, and the connecting plate being set on chain, the bracket
On be provided with sliding rail, sliding is connected with support base on sliding rail, and the support base is connect with connecting plate.
By using above-mentioned technical proposal, when cutting head needs edge to move perpendicular to supporting plate direction, first motor drive chain
Wheel rotation, the sprocket wheel drive another sprocket wheel and chain syn-chro-step to rotate while rotation, when chain drive, drive connecting plate and branch
Support seat is moved along sliding rail, such kind of drive stable structure.
The utility model is further arranged to: bridging is provided with support plate on two support bases, is arranged in support plate
There is guide rail, sliding is connected with guide plate on the guide rail, and the laterally driven component includes being set on any support base
The second motor, the first screw rod being connect with the second motor, and the first feed screw nut for being connected on the first screw rod of sliding, the
One screw rod is rotatably dispose on two support bases, and first feed screw nut is connect with guide plate.
By using above-mentioned technical proposal, cutting head is needed along when being parallel to supporting plate direction and moving, and the second motor drives the
The rotation of one screw rod, the first screw rod drive the first feed screw nut to slide along the first screw rod while rotation, the sliding of the first feed screw nut
When drive guide plate to move along the direction for being parallel to supporting plate, such kind of drive transmission efficiency is higher.
The utility model is further arranged to: the vertical driving assembly includes the third motor being set on guide plate,
The second screw rod connecting with third motor, and the second feed screw nut being connected on the second screw rod, second screw rod is perpendicular
Histogram is connect to setting, the cutting head with the second feed screw nut, is provided with guide groove on guide plate along the vertical direction, is slided in guide groove
Shifting is connected with sliding block, and cutting head is connect with sliding block.
By using above-mentioned technical proposal, when cutting head needs to move up and down along the vertical direction, third motor drives second
Screw rod rotation, the second screw rod drive the second feed screw nut to slide along the second screw rod while rotation, when the second feed screw nut slides
Cutting head is driven to move up and down along the vertical direction, such kind of drive transmission efficiency is higher.
In conclusion the advantageous effects of the utility model are as follows:
1. numerical control cutting machine pushes guide rod to move up and down along supporting block by setting raising plate, to drive load-bearing
Plate moves up and down, and drives plate to move up and down when bearing plate moves up and down, when being cut to cutting head at supporting plate, avoids supporting plate,
Prevent supporting plate from influencing service life because accidentally being cut;
2. by the way that the cephalomotor driving source of cutting will be driven to be set as portal frame form, putting down when improving cutting head movement
Stability and flexibility;
3. reducing the friction generated when T-shaped block is moved along T-slot by the way that ball free to rotate is arranged in T-slot
Power so that raising plate slided along bottom plate it is more smooth.
Detailed description of the invention
Fig. 1 is the overall structure diagram of the utility model.
Fig. 2 is the partial enlargement diagram of part A in Fig. 1, it is intended to indicate the structure of vertical driving assembly.
Fig. 3 is the structural schematic diagram of the raising plate of the utility model.
Fig. 4 is the partial enlargement diagram of part B in Fig. 3, it is intended to indicate the bindiny mechanism of raising plate.
In figure, 1, workbench;11, bottom plate;12, supporting plate;13, raising plate;131, T-slot;132, sliding slot;15, driving cylinder;
16, supporting block;17, guide rod;18, bearing plate;19, idler wheel;2, bracket;21, cutting head;3, zigzag tread patterns component;31, chain
Wheel;32, chain;33, connecting plate;34, sliding rail;35, support base;36, first motor;4, laterally driven component;41, support plate;
42, guide rail;43, guide plate;44, the second motor;45, the first screw rod;46, guide groove;5, vertical driving assembly;51, third motor;
52, the second screw rod.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Referring to Figures 1 and 2, it is a kind of Numerical control cutting head 21 disclosed by the utility model, including workbench 1, is set to work
The bracket 2 for making 1 two sides of platform is set on bracket 2 and can be provided with driving on the cutting head 21 that X, Y, Z-direction move, bracket 2
Cutting head 21 drives cutting head 21 along being parallel to 12 direction of supporting plate along the zigzag tread patterns component 3 moved perpendicular to 12 direction of supporting plate
The laterally driven component 4 of movement, and the vertical driving assembly 5 that driving cutting head 21 is vertically moving.
Referring to Figures 1 and 2, zigzag tread patterns component 3 includes being respectively arranged at two sprocket wheels 31 of 2 side of bracket, and any
The first motor 36 that sprocket wheel 31 connects connects the chain 32 of sprocket wheel 31, and the connecting plate 33 being set on chain 32, bracket 2
On be provided with sliding rail 34, sliding is connected with support base 35 on sliding rail 34, and support base 35 is connect with connecting plate 33.
Referring to Figures 1 and 2, bridging is provided with support plate 41 on two support bases 35, and guide rail 42 is provided in support plate 41,
Sliding is connected with guide plate 43 on guide rail 42, and laterally driven component 4 includes the second motor 44 being set on any support base 35,
The first screw rod 45 being connect with the second motor 44, and the first feed screw nut that sliding is connected on the first screw rod 45 is (in figure not
Show), the first screw rod 45 is rotatably dispose on two support bases 35, and the first feed screw nut is connect with guide plate 43.
Referring to Figures 1 and 2, vertical driving assembly 5 includes the third motor 51 being set on guide plate 43, with third motor
Second screw rod 52 of 51 connections, and the second feed screw nut (not shown) being connected on the second screw rod 52, the second screw rod
52 are arranged for vertical direction, and cutting head 21 is connect with the second feed screw nut, are provided with guide groove 46 on guide plate 43 along the vertical direction,
Sliding is connected with sliding block (not shown) in guide groove 46, and cutting head 21 is connect with sliding block.
Referring to Fig. 2 and Fig. 3, workbench 1 includes the supporting plate of bottom plate 11 and the multiple parallel arrangements being set on bottom plate 11
12, there is between adjacent supporting plate 12 gap, bottom is provided between adjacent supporting plate 12 and is connected and the top with the sliding connection of bottom plate 11
Lift slab 13 is provided with two rows of T-slots 131 vertical with 12 arragement direction of supporting plate on bottom plate 11,131 bottom of T-slot is provided with
Multiple ball (not shown)s free to rotate, and T-slot 131 is respectively arranged at the both ends of each supporting plate 12, jacking
13 bottom of plate is set as the T-shaped block that can be slid along T-slot 131, and the section that raising plate 13 is located at vertical direction is triangular in shape, and pushes up
Lift slab 13 is arranged in parallel in the both ends of supporting plate 12, is connected on raising plate 13 for driving raising plate 13 along 11 level side of bottom plate
To the driving cylinder 15 of sliding, driving cylinder 15 is set hydraulic cylinder by the present embodiment, is all provided with positioned at the side that raising plate 13 is away from each other
It is equipped with the supporting block 16 being fixed on bottom plate 11, sliding is connected with one end in supporting block 16 and 13 bevel edge of raising plate contradicts and can edge
The guide rod 17 of the opposite sliding of 13 bevel edge of raising plate, is provided with flat with supporting plate 12 on the guide rod 17 on different raising plates 13
Capable bearing plate 18,13 bevel edge of raising plate are provided with sliding slot 132, and one end that each guide rod 17 is contradicted with raising plate 13 is respectively provided with
There is the idler wheel 19 that can be rolled along the sliding slot 132.
The implementation principle of the present embodiment are as follows: when operation, plate is placed on supporting plate 12, then zigzag tread patterns component 3, cross
Drive the movement of cutting head 21 by plate cutting to driving assembly 4, vertical driving assembly 5, when cutting head 21 is cut at supporting plate 12
When, actuator drives raising plate 13 to slide along bottom plate 11, pushes guide rod 17 along supporting block 16 while bottom plate 11 slides
It moves up and down, so that bearing plate 18 be driven to move up and down, when bearing plate 18 moves upwards, drives plate to move upwards, so that plate
Material is separated with 12 upper surface of supporting plate, prevents cutting head 21 from accidentally cutting supporting plate 12, when cutting head 21, which cuts plate, crosses supporting plate 12,
Raising plate 13 has the drive of driving cylinder 15 to retract original position, and plate presses guide rod 17 and moves downward along support plate 41 during this,
Until plate is contacted with supporting plate 12, then driving cylinder 15 drives raising plate 13 to continue to retract original position, until bearing plate 18 and supporting plate
The separation of 12 bottom walls.
Zigzag tread patterns component 3 drives cutting head 21 when moving along the direction perpendicular to supporting plate 12, as 36 band of first motor
The dynamic sprocket wheel 31 being attached thereto rotates, and drives chain 32 and another sprocket wheel 31 to rotate synchronously while which rotates, chain
Connecting plate 33 is driven to be driven when item 32 is driven, the support that connecting plate 33 drives support base 35 and bridging to be set on support base 35
Plate 41 moves synchronously, and the laterally driven component 4 being set in support plate 41 at this time can move synchronously therewith.
When laterally driven component 4 drives cutting head 21 to move along the direction for being parallel to supporting plate 12, as the second motor 44 is driven
Dynamic first screw rod 45 rotation, the guiding that the first screw rod 45 drives the first feed screw nut and connect with the first feed screw nut when rotating
It is moved along the direction for being parallel to supporting plate 12, when guide plate 43 is slided along guide rail 42, the synchronous fortune of vertical driving assembly 5 can be driven
It is dynamic.
When vertical driving assembly 5 drives cutting head 21 to move up and down, as third motor 51 drives the rotation of the second screw rod 52,
Second screw rod 52 drives the second feed screw nut and moves up and down with to connected cutting head 21 is synchronous when rotating.
The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this
The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical
Within novel protection scope.
Claims (8)
1. a kind of numerical control cutting machine, including workbench (1) are set to the bracket (2) of workbench (1) two sides, are set to bracket (2)
It above and can be along the cutting head (21) that X, Y, Z-direction move, it is characterised in that: the workbench (1) includes bottom plate (11) and sets
It is placed in the supporting plate (12) of multiple parallel arrangements on bottom plate (11), there is gap, and the adjacent supporting plate between adjacent supporting plate (12)
(12) raising plate (13) that bottom is connected and connects with the bottom plate (11) sliding, raising plate (13) position are provided between
It is triangular in shape in the section of vertical direction, and the raising plate (13) is arranged in parallel in the both ends of the supporting plate (12), it is described
It is connected with the driving cylinder (15) for driving raising plate (13) to slide along bottom plate (11) horizontal direction on raising plate (13), is located at institute
It states the side that raising plate (13) is away from each other and is provided with the supporting block (16) being fixed on bottom plate (11), on the supporting block (16)
Sliding is connected with the conflict of one end and the raising plate (13) bevel edge and can be along the guide rod of the opposite sliding of raising plate (13) bevel edge
(17), the bearing plate parallel with supporting plate (12) (18) are provided on the guide rod (17) being located on different raising plates (13).
2. a kind of numerical control cutting machine according to claim 1, it is characterised in that: raising plate (13) bevel edge is provided with cunning
One end of slot (132), each guide rod (17) and raising plate (13) conflict is provided with and can roll along the sliding slot (132)
Idler wheel (19).
3. a kind of numerical control cutting machine according to claim 1, it is characterised in that: be provided on the bottom plate (11) it is two rows of with
The vertical T-slot (131) of supporting plate (12) arragement direction, and the T-slot (131) is respectively arranged at each supporting plate (12)
Both ends, raising plate (13) bottom are set as the T-shaped block that can be slid along the T-slot (131).
4. a kind of numerical control cutting machine according to claim 3, it is characterised in that: T-slot (131) bottom is provided with more
A ball free to rotate.
5. a kind of numerical control cutting machine according to claim 1, it is characterised in that: be provided with driving on the bracket (2) and cut
Head (21) are cut along the zigzag tread patterns component (3) perpendicular to the movement of supporting plate (12) direction, driving cutting head (21) edge is parallel to supporting plate
(12) the laterally driven component (4) of direction movement, and the vertical driving assembly that driving cutting head (21) is vertically moving
(5)。
6. a kind of numerical control cutting machine according to claim 5, it is characterised in that: the zigzag tread patterns component (3) includes point
It is not set to two sprocket wheels (31) of bracket (2) side, the first motor (36) connecting with any sprocket wheel (31) connects sprocket wheel
(31) chain (32), and the connecting plate (33) being set on chain (32) are provided with sliding rail (34) on the bracket (2),
Sliding is connected with support base (35) on sliding rail (34), and the support base (35) connect with connecting plate (33).
7. a kind of numerical control cutting machine according to claim 6, it is characterised in that: bridge and set on two support bases (35)
It being equipped with support plate (41), is provided in support plate (41) guide rail (42), sliding is connected with guide plate (43) on the guide rail (42),
The laterally driven component (4) includes the second motor (44) being set on any support base (35), with the second motor
(44) the first screw rod (45) connected, and the first feed screw nut that sliding is connected on the first screw rod (45), the first screw rod
(45) it is rotatably dispose on two support bases (35), first feed screw nut is connect with guide plate (43).
8. a kind of numerical control cutting machine according to claim 5, it is characterised in that: the vertical driving assembly (5) includes setting
The third motor (51) being placed on guide plate (43), the second screw rod (52) being connect with third motor (51), and it is connected to
The second feed screw nut on two screw rods (52), second screw rod (52) are vertical direction setting, the cutting head (21) and the
Two feed screw nuts connect, and are provided with along the vertical direction guide groove (46) on guide plate (43), and sliding is connected with sliding block in guide groove (46),
Cutting head (21) is connect with sliding block.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821910344.6U CN209062410U (en) | 2018-11-20 | 2018-11-20 | A kind of numerical control cutting machine |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821910344.6U CN209062410U (en) | 2018-11-20 | 2018-11-20 | A kind of numerical control cutting machine |
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Publication Number | Publication Date |
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CN209062410U true CN209062410U (en) | 2019-07-05 |
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ID=67099857
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Application Number | Title | Priority Date | Filing Date |
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CN201821910344.6U Active CN209062410U (en) | 2018-11-20 | 2018-11-20 | A kind of numerical control cutting machine |
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CN (1) | CN209062410U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112071608A (en) * | 2020-09-15 | 2020-12-11 | 厦门铭奥自动化科技有限公司 | High-frequency transformer production line |
-
2018
- 2018-11-20 CN CN201821910344.6U patent/CN209062410U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112071608A (en) * | 2020-09-15 | 2020-12-11 | 厦门铭奥自动化科技有限公司 | High-frequency transformer production line |
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