CN110340432A - A kind of three axis cutters - Google Patents
A kind of three axis cutters Download PDFInfo
- Publication number
- CN110340432A CN110340432A CN201910671975.XA CN201910671975A CN110340432A CN 110340432 A CN110340432 A CN 110340432A CN 201910671975 A CN201910671975 A CN 201910671975A CN 110340432 A CN110340432 A CN 110340432A
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- China
- Prior art keywords
- drive block
- screw rod
- mounting plate
- slide assemblies
- fixedly connected
- Prior art date
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- 230000000712 assembly Effects 0.000 claims abstract description 65
- 238000000429 assembly Methods 0.000 claims abstract description 65
- 230000002457 bidirectional effect Effects 0.000 claims abstract description 8
- 230000005540 biological transmission Effects 0.000 claims description 13
- 239000002828 fuel tank Substances 0.000 claims description 13
- 238000009434 installation Methods 0.000 claims 5
- 238000012423 maintenance Methods 0.000 abstract description 5
- 238000004519 manufacturing process Methods 0.000 abstract description 4
- 239000010730 cutting oil Substances 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 2
- 230000000694 effects Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 239000000356 contaminant Substances 0.000 description 1
- 239000012535 impurity Substances 0.000 description 1
- 238000010338 mechanical breakdown Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 239000003921 oil Substances 0.000 description 1
- 239000007787 solid Substances 0.000 description 1
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D45/00—Sawing machines or sawing devices with circular saw blades or with friction saw discs
- B23D45/10—Sawing machines or sawing devices with circular saw blades or with friction saw discs with a plurality of circular saw blades
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23D—PLANING; SLOTTING; SHEARING; BROACHING; SAWING; FILING; SCRAPING; LIKE OPERATIONS FOR WORKING METAL BY REMOVING MATERIAL, NOT OTHERWISE PROVIDED FOR
- B23D47/00—Sawing machines or sawing devices working with circular saw blades, characterised only by constructional features of particular parts
- B23D47/02—Sawing machines or sawing devices working with circular saw blades, characterised only by constructional features of particular parts of frames; of guiding arrangements for work-table or saw-carrier
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Control Of Cutting Processes (AREA)
Abstract
The present invention proposes a kind of three axis cutters, including cross cutting component, vertical cutter assembly, Bidirectional slide component, erecting bed and fixed station;Cross cutting component is fixedly mounted on erecting bed, vertical cutter assembly is fixedly mounted on erecting bed, cross cutting component is equipped with transverse cuts mould group, transverse cuts mould group can be slided towards X-direction or Z-direction, vertical cutter assembly is equipped with vertical blanking punch group, vertical blanking punch group can be slided towards X-direction or Z-direction, Bidirectional slide component includes the first slide assemblies and the second slide assemblies, first slide assemblies are fixedly mounted on erecting bed, second slide assemblies are mounted on the first slide assemblies, the second slide assemblies can be made to slide towards Y direction by the first slide assemblies, fixed station is mounted on the second slide assemblies, fixed station can be made to slide towards X-direction by the second slide assemblies;Three axis cutter structure proposed by the present invention is simple, and manufacturing cost is low, facilitates maintenance.
Description
Technical field
The present invention relates to Machine automated fields, more particularly to a kind of three axis cutters.
Background technique
Carry out industrial upgrading energetically with country with the development of science and technology, the structure of three traditional axis cutters is extremely complex,
Complicated structure promotes the assembly cost of three traditional axis cutters, improves the manufacturing cost of three axis cutters;Once hair
When raw mechanical breakdown needs to repair operation, the internal structure of three traditional axis cutter complexity can be brought huge to maintenance activity
The cost of big challenge, maintenance activity is very high.
Summary of the invention
To solve the above-mentioned problems, the three axis cutting that the present invention proposes that a kind of structure is simple, can manually, electrically adjust
Machine.
What the invention is realized by the following technical scheme:
The present invention proposes a kind of three axis cutters, the three axis cutter include cross cutting component, vertical cutter assembly,
Bidirectional slide component, erecting bed and fixed station;The cross cutting component is fixedly mounted on the erecting bed, described vertically to cut
It cuts component to be fixedly mounted on the erecting bed, the cross cutting component is equipped with transverse cuts mould group, the transverse cuts
Mould group can be slided towards X-direction or Z-direction, and the vertical cutter assembly is equipped with vertical blanking punch group, described vertical
Blanking punch group can be slided towards X-direction or Z-direction, and the Bidirectional slide component includes that the first slide assemblies and second are sliding
Dynamic component, first slide assemblies are fixedly mounted on the erecting bed, and second slide assemblies are mounted on described first
On slide assemblies, second slide assemblies can be made to slide towards Y direction by first slide assemblies, the fixed station
It is mounted on second slide assemblies, the fixed station can be made to slide towards X-direction by second slide assemblies.
Further, the cross cutting component further includes the first mounting plate, the first drive block, the first screw rod and the first peace
It shelves;First mounting plate is equipped with first sliding groove, and first mounting rack is set in outside first mounting plate, and described the
One drive block is fixedly connected with first mounting rack and is housed in the first sliding groove, and first screw rod is through described the
One mounting plate extends in the first sliding groove, first screw rod through first drive block and with first drive block
It is threadedly coupled.
Further, the cross cutting component further includes the second screw rod, the second mounting plate and the second drive block;Described
One mounting rack is equipped with second sliding slot, and second mounting plate is set on first mounting rack, and second drive block is received
Hold in the second sliding slot and be fixedly connected with second mounting plate, second screw rod prolongs through first mounting rack
It extending in the second sliding slot, second screw rod is threadedly coupled through second drive block and with second drive block,
The transverse cuts mould group is fixedly mounted on second mounting plate, and the transverse cuts mould group is equipped with transverse cutting machine.
Further, the vertical cutter assembly further includes third mounting plate, third drive block, third screw rod and the second peace
It shelves;The third mounting plate is equipped with third sliding slot, and second mounting rack is set in outside the third mounting plate, and described the
Three drive blocks are fixedly connected with first mounting rack and are housed in the third sliding slot, and the third screw rod is through described the
Three mounting plates extend in the third sliding slot, the third screw rod through the third drive block and with the third drive block
It is threadedly coupled.
Further, the vertical cutter assembly further includes that the 4th mounting plate, the 4th screw rod, the 4th drive block and third are sliding
Dynamic component;Second mounting rack is equipped with the 4th sliding slot, and the 4th mounting plate is set on second mounting rack, described
4th drive block is fixedly connected with the 4th mounting plate and is housed in the 4th sliding slot, and the 4th screw rod is through described
Second mounting rack simultaneously extends in the 4th sliding slot, and the 4th screw rod is passed through the 4th drive block and with the described 4th
Motion block is threadedly coupled, and the third slide assemblies are fixedly mounted on the 4th mounting plate.
Further, the third slide assemblies include the first sliding rail, first motor, the 5th drive block, the 5th screw rod, the
One belt, the 5th mounting plate and the first driver plate;First sliding rail is fixedly connected with the 4th mounting plate, and described first is sliding
The 5th sliding slot is equipped in rail, one end of first sliding rail is fixedly connected with the 5th mounting plate, the first motor and institute
It states the 5th mounting plate to be fixedly connected, the 5th screw rod sequentially passes through the 5th mounting plate and first sliding rail extends to institute
It states in the 5th sliding slot, the 5th screw rod with the 5th drive block through the 5th drive block and being threadedly coupled, and described the
Five drive blocks are housed in the 5th sliding slot, and first driver plate is set in outside first sliding rail and passes with the described 5th
Motion block is fixedly connected, and first belt is set in the first motor and the 5th screw rod, the vertical blanking punch group
It is fixedly mounted on first driver plate, the vertical blanking punch group is equipped with vertical cutting machine.
Further, first slide assemblies include the second sliding rail, the second motor, the 6th drive block, the 6th screw rod, the
Two belts, the 6th mounting plate and the second driver plate;Second sliding rail is fixedly mounted on the erecting bed, second sliding rail
Inside be equipped with the 6th sliding slot, one end of second sliding rail is fixedly connected with the 6th mounting plate, second motor with it is described
6th mounting plate is fixedly connected, the 6th screw rod sequentially passes through the 6th mounting plate and second sliding rail extend to it is described
In 6th sliding slot, the 6th screw rod is through the 6th drive block and is threadedly coupled with the 6th drive block, the described 6th
Drive block is housed in the 6th sliding slot, and second driver plate is set in outside second sliding rail and is driven with the described 6th
Block is fixedly connected, and second belt is set on second motor and the 6th screw rod, and second slide assemblies are solid
Dingan County is on second driver plate.
Further, second slide assemblies include third sliding rail, third motor, the 7th drive block, the 7th screw rod,
Three belts, the 7th mounting plate and third driver plate;Described sliding rail is fixedly mounted on second driver plate, and the third is sliding
The 7th sliding slot is equipped in rail, one end of the third sliding rail is fixedly connected with the 7th mounting plate, the third motor and institute
It states the 7th mounting plate to be fixedly connected, the 7th screw rod sequentially passes through the 7th mounting plate and the third sliding rail extends to institute
It states in the 7th sliding slot, the 7th screw rod with the 7th drive block through the 7th drive block and being threadedly coupled, and described the
Seven drive blocks are housed in the 7th sliding slot, and the third driver plate is set in outside the third sliding rail and passes with the described 7th
Motion block is fixedly connected, and the third belt is set on the 7th screw rod and the third motor, the fixed peace of the fixed station
On the third driver plate.
Further, the three axis cutter further includes fixture, and the fixture is fixedly mounted on the fixed station.
Further, the three axis cutter further includes fuel tank, and the fuel tank is fixedly connected with the erecting bed, the oil
Case is equipped with the filter screen being fixedly connected with the fuel tank.
Beneficial effects of the present invention:
1. three axis cutter proposed by the present invention can manual, electric separate regulation, meet making for user to greatest extent
Use demand.
2. three axis cutter structure proposed by the present invention is simple, manufacturing cost is low, facilitates maintenance.
Detailed description of the invention
Fig. 1 is the perspective view of three axis cutters of the invention;
Fig. 2 is the perspective view of the vertical cutter assembly of three axis cutters of the invention;
Fig. 3 is the perspective view of the cross cutting component of three axis cutters of the invention;
Fig. 4 is the partial perspective view of the first slide assemblies of three axis cutters of the invention;
Fig. 5 is the partial perspective view of the third slide assemblies of three axis cutters of the invention;
Fig. 6 is the partial perspective view of the second slide assemblies of three axis cutters of the invention.
Specific embodiment
In order to it is clearer, completely illustrate technical solution of the present invention, the present invention is made with reference to the accompanying drawing further
Explanation.
Fig. 1 to Fig. 6 is please referred to, the present invention proposes a kind of three axis cutters, and the three axis cutter includes cross cutting group
Part 10, vertical cutter assembly 20, Bidirectional slide component 30, erecting bed 40 and fixed station 50;The cross cutting component 10 is fixed
It is mounted on the erecting bed 40, the vertical cutter assembly 20 is fixedly mounted on the erecting bed 40, the cross cutting
Component 10 is equipped with transverse cuts mould group 11, and the transverse cuts mould group 11 can be slided towards X-direction or Z-direction, institute
Vertical cutter assembly 20 is stated equipped with vertical blanking punch group 21, the vertical blanking punch group 21 can be towards X-direction or Z axis side
To sliding, the Bidirectional slide component 30 includes the first slide assemblies 31 and the second slide assemblies 32, first slide assemblies
31 are fixedly mounted on the erecting bed 40, and second slide assemblies 32 are mounted on first slide assemblies 31, pass through
First slide assemblies 31 can be such that second slide assemblies 32 slide towards Y direction, and the fixed station 50 is mounted on institute
It states on the second slide assemblies 32, the fixed station 50 can be made to slide towards X-direction by second slide assemblies 32.
In the present embodiment, the transverse cuts mould group 11 and the vertical blanking punch group 21, which are used to cut, is mounted on institute
State the article to be cut on fixed station 50;The transverse cuts mould group 11 can be slided towards X-direction or Z-direction, is described
Vertical blanking punch group 21 can be slided towards X-direction or Z-direction, so as to adjust the transverse cuts mould group 11 and institute
Position of the vertical blanking punch relative to the fixed station 50 is stated, so that the three axis cutter be made to can satisfy different shape, big
The cutting demand of small article to be cut;Second slide assemblies 32 are mounted on first slide assemblies 31, pass through institute
Stating the first slide assemblies 31 can be such that second slide assemblies 32 slide towards Y direction, and the fixed station 50 is mounted on described
On second slide assemblies 32, the fixed station 50 can be made to slide towards X-direction by second slide assemblies 32, pass through institute
The fixed station 50 can be adjusted relative to the transverse cuts mould by stating the first slide assemblies 31 and second slide assemblies 32
Group 11 and vertical 21 position of blanking punch group, so that the three axis cutter be made to be able to carry out three X-axis, Y-axis and Z axis directions
Adjustment;The three axis cutter structure is simple, and manufacturing cost is low, facilitates maintenance.
Further, the cross cutting component 10 further includes the first mounting plate 12, the first drive block 13, the first screw rod 14
With the first mounting rack 15;First mounting plate 12 is equipped with first sliding groove 121, and first mounting rack 15 is set in described the
Outside one mounting plate 12, first drive block 13 is fixedly connected with first mounting rack 15 and is housed in the first sliding groove
In 121, first screw rod 14 extends in the first sliding groove 121 through first mounting plate 12, first screw rod
14 run through first drive block 13 and are threadedly coupled with first drive block 13.
In the present embodiment, first screw rod 14 extends to the first sliding groove through first mounting plate 12
In 121, first screw rod 14 is flexibly connected with first mounting plate 12, and first screw rod 14 can be relative to described
The rotation of one mounting plate 12;When needing to adjust position of first mounting rack 15 relative to first mounting plate 12, rotation
First screw rod 14, first drive block 13 start to slide and then drive described first under first screw rod 14 rotation
Mounting rack 15 slides, and the glide direction of first drive block 13 is X-direction.
Further, the cross cutting component 10 further includes the second screw rod 16, the second mounting plate 17 and the second drive block
18;First mounting rack 15 is equipped with second sliding slot 151, and second mounting plate 17 is set in first mounting rack 15
On, second drive block 18 is housed in the second sliding slot 151 and is fixedly connected with second mounting plate 17, and described the
Two screw rods 16 extend in the second sliding slot 151 through first mounting rack 15, and second screw rod 16 is through described the
Two drive blocks 18 are simultaneously threadedly coupled with second drive block 18, and the transverse cuts mould group 11 is fixedly mounted on second peace
In loading board 17, the transverse cuts mould group 11 is equipped with transverse cutting machine 111.
In the present embodiment, second screw rod 16 extends to the second sliding slot through first mounting rack 15
In 151, second screw rod 16 is flexibly connected with first mounting rack 15, and second screw rod 16 can be relative to described
The rotation of one mounting rack 15;When needing to adjust position of second mounting plate 17 relative to first mounting rack 15, rotation
Second screw rod 16, second drive block 18 start to slide and then drive described second under second screw rod 16 rotation
Mounting plate 17 slides, so that the transverse cutting machine 111 be driven to slide, the glide direction of second drive block 18 is Z axis side
To.
Further, the vertical cutter assembly 20 further includes third mounting plate 22, third drive block 23, third screw rod 24
With the second mounting rack 25;The third mounting plate 22 is equipped with third sliding slot 221, and second mounting rack 25 is set in described the
Outside three mounting plates 22, the third drive block 23 is fixedly connected with first mounting rack 15 and is housed in the third sliding slot
In 221, the third screw rod 24 extends in the third sliding slot 221 through the third mounting plate 22, the third screw rod
24 run through the third drive block 23 and are threadedly coupled with the third drive block 23.
In the present embodiment, the third screw rod 24 extends to the third sliding slot through the third mounting plate 22
In 221, the third screw rod 24 is flexibly connected with the third mounting plate 22, and the third screw rod 24 can be relative to described
The rotation of three mounting plates 22;When needing to adjust position of second mounting rack 25 relative to the third mounting plate 22, rotation
The third screw rod 24, the third drive block 23 start to slide and then drive described second under the third screw rod 24 rotation
Mounting rack 25 slides, and the glide direction of the third drive block 23 is X-direction.
Further, the vertical cutter assembly 20 further includes the 4th mounting plate 27, the 4th screw rod 28, the 4th drive block 29
With third slide assemblies 201;Second mounting rack 25 is equipped with the 4th sliding slot 26, and the 4th mounting plate 27 is set in described
On second mounting rack 25, the 4th drive block 29 is fixedly connected with the 4th mounting plate 27 and is housed in the 4th sliding slot
In 26, the 4th screw rod 28 is through second mounting rack 25 and extends in the 4th sliding slot 26, the 4th screw rod
28 run through the 4th drive block 29 and are threadedly coupled with the 4th drive block 29, the fixed peace of the third slide assemblies 201
On the 4th mounting plate 27.
In the present embodiment, the 4th screw rod 28 through second mounting rack 25 and extends to the 4th sliding slot
In 26, the 4th screw rod 28 is flexibly connected with second mounting rack 25, and the 4th screw rod 28 can be relative to described
The rotation of two mounting racks 25;When needing to adjust position of the third slide assemblies 201 relative to second mounting rack 25, turn
Move the 4th screw rod 28, the 4th drive block 29 starts to slide under the 4th screw rod 28 rotation and then drives described the
The sliding of three Slide Groups, the glide direction of the 4th drive block 29 are Z-direction.
Further, the third slide assemblies 201 include the first sliding rail 202, first motor 203, the 5th drive block
204, the 5th screw rod 205, the first belt 206, the 5th mounting plate 207 and the first driver plate 208;First sliding rail 202 and institute
It states the 4th mounting plate 27 to be fixedly connected, is equipped with the 5th sliding slot 209, one end of first sliding rail 202 in first sliding rail 202
It being fixedly connected with the 5th mounting plate 207, the first motor 203 is fixedly connected with the 5th mounting plate 207, and described
Five screw rods 205 sequentially pass through the 5th mounting plate 207 and first sliding rail 202 extends in the 5th sliding slot 209, institute
The 5th screw rod 205 is stated through the 5th drive block 204 and is threadedly coupled with the 5th drive block 204, the 5th transmission
Block 204 is housed in the 5th sliding slot 209, first driver plate 208 be set in first sliding rail 202 it is outer and with it is described
5th drive block 204 is fixedly connected, and first belt 206 is set in the first motor 203 and the 5th screw rod 205
On, the vertical blanking punch group 21 is fixedly mounted on first driver plate 208, and the vertical blanking punch group 21 is equipped with perpendicular
To cutting machine 211.
In the present embodiment, the first motor 203 is fixedly connected and described first with the 5th mounting plate 207
The transmission shaft of motor 203 runs through the 5th mounting plate 207, the transmission shaft of the first motor 203 and the 5th screw rod 205
One end on be designed with gear, first belt 206 is set in the transmission shaft and the 5th screw rod of the first motor 203
On 205, first belt 206 connection is engaged with gear to make the 5th screw rod 205 and the first motor 203 formation
Transmission connection, the 5th screw rod 205 run through the 5th mounting plate 207, the 5th screw rod 205 and the 5th mounting plate
207 are flexibly connected, and the 5th screw rod 205 can be rotated relative to the 5th mounting plate 207;It is described vertical when needing to adjust
When position of the cutting machine 211 relative to first sliding rail 202, starts the rotation of first motor 203 and drive the 5th spiral shell
Bar 205 rotates, and the 5th screw rod 205 rotation drives the 5th drive block 204 to slide and then drives first driver plate
208 slidings, to adjust position of the vertical cutting machine 211 relative to first sliding rail 202, the 5th drive block
204 glide direction is Z-direction.
Further, first slide assemblies 31 include the second sliding rail 311, the second motor 312, the 6th drive block 313,
6th screw rod 314, the second belt 315, the 6th mounting plate 316 and the second driver plate 317;Second sliding rail 311 is fixedly mounted
On the erecting bed 40, the 6th sliding slot 3111, one end of second sliding rail 311 and institute are equipped in second sliding rail 311
It states the 6th mounting plate 316 to be fixedly connected, second motor 312 is fixedly connected with the 6th mounting plate 316, the 6th spiral shell
Bar 314 sequentially passes through the 6th mounting plate 316 and second sliding rail 311 extends in the 6th sliding slot 3111, described
6th screw rod 314 is through the 6th drive block 313 and is threadedly coupled with the 6th drive block 313, the 6th drive block
313 are housed in the 6th sliding slot 3111, second driver plate 317 be set in second sliding rail 311 it is outer and with it is described
6th drive block 313 is fixedly connected, and second belt 315 is set in second motor 312 and the 6th screw rod 314
On, second slide assemblies 32 are fixedly mounted on second driver plate 317.
In the present embodiment, second motor 312 is fixedly connected and described second with the 6th mounting plate 316
The transmission shaft of motor 312 runs through the 5th mounting plate 207, the transmission shaft of second motor 312 and the 6th screw rod 314
One end on be designed with gear, second belt 315 is set in the transmission shaft and the 6th screw rod of second motor 312
On 314, second belt 315 connection is engaged with gear to make the 6th screw rod 314 and second motor 312 formation
Transmission connection, the 6th screw rod 314 is through the 6th mounting plate 316 and is flexibly connected with the 6th mounting plate 316, institute
Stating the 6th screw rod 314 can rotate relative to the 6th mounting plate 316;When needing to adjust, second slide assemblies 32 are opposite
When the position of second sliding rail 311, starts second motor 312 and the 6th screw rod 314 is driven to rotate, the described 6th
The rotation of screw rod 314 drives the 6th drive block 313 to slide and then second driver plate 317 is driven to slide, to adjust institute
Position of second slide assemblies 32 relative to second sliding rail 311 is stated, the glide direction of the 6th drive block 313 is Y-axis
Direction.
Further, second slide assemblies 32 include third sliding rail 321, third motor 322, the 7th drive block 323,
7th screw rod 324, third belt 325, the 7th mounting plate 326 and third driver plate 327;Described sliding rail is fixedly mounted on described
On second driver plate 317, be equipped with the 7th sliding slot 3211 in the third sliding rail 321, one end of the third sliding rail 321 with it is described
7th mounting plate 326 is fixedly connected, and the third motor 322 is fixedly connected with the 7th mounting plate 326, the 7th screw rod
324 sequentially pass through the 7th mounting plate 326 and the third sliding rail 321 extends in the 7th sliding slot 3211, and described
Seven screw rods 324 are through the 7th drive block 323 and are threadedly coupled with the 7th drive block 323, the 7th drive block 323
It is housed in the 7th sliding slot 3211, it is outer and with the described 7th that the third driver plate 327 is set in the third sliding rail 321
Drive block 323 is fixedly connected, and the third belt 325 is set on the 7th screw rod 324 and the third motor 322, institute
Fixed station 50 is stated to be fixedly mounted on the third driver plate 327.
In the present embodiment, the third motor 322 is fixedly connected and the third with the 7th mounting plate 326
The transmission shaft of motor 322 runs through the 5th mounting plate 207, the transmission shaft of the third motor 322 and the 7th screw rod 324
One end on be designed with gear, the third belt 325 is set in the biography of the 7th screw rod 324 and the third motor 322
On moving axis, the third belt 325 connection is engaged with gear to make the third motor 322 and 324 shape of the 7th screw rod
At transmission connection, the 7th screw rod 324 is flexibly connected through the 7th mounting plate 326 and with the 7th mounting plate 326,
7th screw rod 324 can be rotated relative to the 7th mounting plate 326;When needing to adjust the fixed station 50 relative to institute
When stating the position of third sliding rail 321, starts the rotation of third motor 322 and the 7th screw rod 324 is driven to rotate, the described 7th
The rotation of screw rod 324 drives the 7th drive block 323 to slide and then the third driver plate 327 is driven to slide, to adjust institute
Position of the fixed station 50 relative to the third sliding rail 321 is stated, the glide direction of the 7th drive block 323 is X-direction;Institute
State three axis cutters can manual, electric separate regulation, meet the use demand of user to greatest extent.
Further, the three axis cutter further includes fixture 60, and the fixture 60 is fixedly mounted on the fixed station 50
On.
In the present embodiment, the fixture 60 is for clamping cutting article.
Further, the three axis cutter further includes fuel tank 70, and the fuel tank 70 is fixedly connected with the erecting bed 40,
The fuel tank 70 is equipped with the filter screen 71 being fixedly connected with the fuel tank 70.
In the present embodiment, the fuel tank 70 is used to store the cutting oil for the three axis cutter, when described three
When axis cutter works, cutting oil flows to the filter screen 71 with impurity, and contaminant filter is fallen it by the filter screen 71
Cutting oil stream enters afterwards is reused in the fuel tank 70.
Certainly, the present invention can also have other numerous embodiments, be based on present embodiment, those skilled in the art
Obtained other embodiments under the premise of not making any creative work belong to the range that the present invention is protected.
Claims (10)
1. a kind of three axis cutters, which is characterized in that the three axis cutter include cross cutting component, vertical cutter assembly,
Bidirectional slide component, erecting bed and fixed station;The cross cutting component is fixedly mounted on the erecting bed, described vertically to cut
It cuts component to be fixedly mounted on the erecting bed, the cross cutting component is equipped with transverse cuts mould group, the transverse cuts
Mould group can be slided towards X-direction or Z-direction, and the vertical cutter assembly is equipped with vertical blanking punch group, described vertical
Blanking punch group can be slided towards X-direction or Z-direction, and the Bidirectional slide component includes that the first slide assemblies and second are sliding
Dynamic component, first slide assemblies are fixedly mounted on the erecting bed, and second slide assemblies are mounted on described first
On slide assemblies, second slide assemblies can be made to slide towards Y direction by first slide assemblies, the fixed station
It is mounted on second slide assemblies, the fixed station can be made to slide towards X-direction by second slide assemblies.
2. three axis cutter according to claim 1, which is characterized in that the cross cutting component further includes the first installation
Plate, the first drive block, the first screw rod and the first mounting rack;First mounting plate is equipped with first sliding groove, first installation
Frame is set in outside first mounting plate, and first drive block is fixedly connected with first mounting rack and is housed in described
In one sliding slot, first screw rod extends in the first sliding groove through first mounting plate, and first screw rod runs through
First drive block is simultaneously threadedly coupled with first drive block.
3. three axis cutter according to claim 2, which is characterized in that the cross cutting component further includes the second spiral shell
Bar, the second mounting plate and the second drive block;First mounting rack is equipped with second sliding slot, and second mounting plate is set in institute
It states on the first mounting rack, second drive block is housed in the second sliding slot and is fixedly connected with second mounting plate,
Second screw rod extends in the second sliding slot through first mounting rack, and second screw rod is passed through described second
Motion block is simultaneously threadedly coupled with second drive block, and the transverse cuts mould group is fixedly mounted on second mounting plate, institute
Transverse cuts mould group is stated equipped with transverse cutting machine.
4. three axis cutter according to claim 1, which is characterized in that the vertical cutter assembly further includes third installation
Plate, third drive block, third screw rod and the second mounting rack;The third mounting plate is equipped with third sliding slot, second installation
Frame is set in outside the third mounting plate, and the third drive block is fixedly connected with first mounting rack and is housed in described
In three sliding slots, the third screw rod extends in the third sliding slot through the third mounting plate, and the third screw rod runs through
The third drive block is simultaneously threadedly coupled with the third drive block.
5. three axis cutter according to claim 4, which is characterized in that the vertical cutter assembly further includes the 4th installation
Plate, the 4th screw rod, the 4th drive block and third slide assemblies;Second mounting rack is equipped with the 4th sliding slot, the 4th peace
Loading board is set on second mounting rack, and the 4th drive block is fixedly connected with the 4th mounting plate and is housed in described
In 4th sliding slot, the 4th screw rod is through second mounting rack and extends in the 4th sliding slot, the 4th screw rod
It is threadedly coupled through the 4th drive block and with the 4th drive block, the third slide assemblies are fixedly mounted on described
On four mounting plates.
6. three axis cutter according to claim 5, which is characterized in that the third slide assemblies include the first sliding rail,
First motor, the 5th drive block, the 5th screw rod, the first belt, the 5th mounting plate and the first driver plate;First sliding rail and institute
It states the 4th mounting plate to be fixedly connected, the 5th sliding slot, one end of first sliding rail and the described 5th is equipped in first sliding rail
Mounting plate is fixedly connected, and the first motor is fixedly connected with the 5th mounting plate, and the 5th screw rod sequentially passes through described
5th mounting plate and first sliding rail extend in the 5th sliding slot, and the 5th screw rod runs through the 5th drive block simultaneously
It is threadedly coupled with the 5th drive block, the 5th drive block is housed in the 5th sliding slot, the first transmission sleeve-board
It is outer and be fixedly connected with the 5th drive block to be located at first sliding rail, first belt be set in the first motor and
On 5th screw rod, the vertical blanking punch group is fixedly mounted on first driver plate, in the vertical blanking punch group
Equipped with vertical cutting machine.
7. three axis cutter according to claim 1, which is characterized in that first slide assemblies include the second sliding rail,
Second motor, the 6th drive block, the 6th screw rod, the second belt, the 6th mounting plate and the second driver plate;Second sliding rail is fixed
It is mounted on the erecting bed, the 6th sliding slot, one end of second sliding rail and the 6th peace is equipped in second sliding rail
Loading board is fixedly connected, and second motor is fixedly connected with the 6th mounting plate, and the 6th screw rod sequentially passes through described
Six mounting plates and second sliding rail extend in the 6th sliding slot, the 6th screw rod through the 6th drive block and with
6th drive block is threadedly coupled, and the 6th drive block is housed in the 6th sliding slot, and second driver plate is arranged
It is fixedly connected outside second sliding rail and with the 6th drive block, second belt is set in second motor and institute
It states on the 6th screw rod, second slide assemblies are fixedly mounted on second driver plate.
8. three axis cutter according to claim 7, which is characterized in that second slide assemblies include third sliding rail,
Third motor, the 7th drive block, the 7th screw rod, third belt, the 7th mounting plate and third driver plate;The fixed peace of described sliding rail
On second driver plate, the 7th sliding slot, one end of the third sliding rail and the described 7th are equipped in the third sliding rail
Mounting plate is fixedly connected, and the third motor is fixedly connected with the 7th mounting plate, and the 7th screw rod sequentially passes through described
7th mounting plate and the third sliding rail extend in the 7th sliding slot, and the 7th screw rod runs through the 7th drive block simultaneously
It is threadedly coupled with the 7th drive block, the 7th drive block is housed in the 7th sliding slot, and the third is driven sleeve-board
It is outer and be fixedly connected with the 7th drive block to be located at the third sliding rail, the third belt be set in the 7th screw rod and
On the third motor, the fixed station is fixedly mounted on the third driver plate.
9. three axis cutter according to claim 1, which is characterized in that the three axis cutter further includes fixture, described
Fixture is fixedly mounted on the fixed station.
10. three axis cutter according to claim 1, which is characterized in that the three axis cutter further includes fuel tank, described
Fuel tank is fixedly connected with the erecting bed, and the fuel tank is equipped with the filter screen being fixedly connected with the fuel tank.
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CN201910671975.XA CN110340432A (en) | 2019-07-24 | 2019-07-24 | A kind of three axis cutters |
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CN201910671975.XA CN110340432A (en) | 2019-07-24 | 2019-07-24 | A kind of three axis cutters |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN112207358A (en) * | 2020-10-13 | 2021-01-12 | 东莞市恩耐尔金属科技有限公司 | Cutting machining device and method for radiating fin parts |
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KR20000015817A (en) * | 1997-03-25 | 2000-03-15 | 이토 히사오 | Road cutting machine |
KR101543305B1 (en) * | 2014-10-22 | 2015-08-25 | 김성기 | Horizontal cutting machine |
CN107775697A (en) * | 2017-11-21 | 2018-03-09 | 常州市新创智能科技有限公司 | One kind cutting pulling apparatus |
CN109759651A (en) * | 2019-03-29 | 2019-05-17 | 东莞市中明精密五金电子科技有限公司 | A kind of PCB milling cutter cutting mechanism |
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KR20000015817A (en) * | 1997-03-25 | 2000-03-15 | 이토 히사오 | Road cutting machine |
KR101543305B1 (en) * | 2014-10-22 | 2015-08-25 | 김성기 | Horizontal cutting machine |
CN107775697A (en) * | 2017-11-21 | 2018-03-09 | 常州市新创智能科技有限公司 | One kind cutting pulling apparatus |
CN109759651A (en) * | 2019-03-29 | 2019-05-17 | 东莞市中明精密五金电子科技有限公司 | A kind of PCB milling cutter cutting mechanism |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN112207358A (en) * | 2020-10-13 | 2021-01-12 | 东莞市恩耐尔金属科技有限公司 | Cutting machining device and method for radiating fin parts |
CN112207358B (en) * | 2020-10-13 | 2021-09-14 | 东莞市恩耐尔金属科技有限公司 | Cutting machining device and method for radiating fin parts |
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