CN101959639A - Complex machining center - Google Patents

Complex machining center Download PDF

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Publication number
CN101959639A
CN101959639A CN2009801079395A CN200980107939A CN101959639A CN 101959639 A CN101959639 A CN 101959639A CN 2009801079395 A CN2009801079395 A CN 2009801079395A CN 200980107939 A CN200980107939 A CN 200980107939A CN 101959639 A CN101959639 A CN 101959639A
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CN
China
Prior art keywords
locating piece
compositions
metal
working machines
directions
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
CN2009801079395A
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Chinese (zh)
Inventor
金福仁
Original Assignee
金福仁
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority to KR10-2008-0008248 priority Critical
Priority to KR1020080008248A priority patent/KR100977837B1/en
Priority to KR1020080008247A priority patent/KR100977836B1/en
Priority to KR10-2008-0008247 priority
Priority to KR1020080057463A priority patent/KR100910590B1/en
Priority to KR1020080057464A priority patent/KR100911764B1/en
Priority to KR10-2008-0057463 priority
Priority to KR10-2008-0057464 priority
Priority to KR10-2008-0069548 priority
Priority to KR1020080069548A priority patent/KR100925038B1/en
Priority to KR1020080100776A priority patent/KR100928288B1/en
Priority to KR10-2008-0100776 priority
Priority to KR1020080134886A priority patent/KR100928287B1/en
Priority to KR10-2008-0134887 priority
Priority to KR10-2008-0134886 priority
Priority to KR1020080134887A priority patent/KR100927207B1/en
Priority to KR1020080137429A priority patent/KR100926342B1/en
Priority to KR10-2008-0137429 priority
Application filed by 金福仁 filed Critical 金福仁
Priority to PCT/KR2009/000390 priority patent/WO2009093877A2/en
Publication of CN101959639A publication Critical patent/CN101959639A/en
Pending legal-status Critical Current

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Abstract

The present invention relates to a complex machining center in which at least one machining unit is mounted on one or more X-direction positioning blocks which are fixed or movable about a base frame, one or more Y-direction positioning blocks arranged on at least one side of the X-direction positioning block, and a Z-direction positioning block connected to the Y-direction positioning block in such a manner that the Z-direction positioning block is movable in the upward and downward directions. The complex machining center is capable of performing carving, precision cutting, V-shape cutting and groove forming work.

Description

Compositions of metal-working machines
Technical field
The present invention relates to a kind of Compositions of metal-working machines, it is constructed so that engraving, precision cutting, V-arrangement cutting and grooving work can be by single machining center enforcements.
Background technology
Usually, CNC milling machine comprises the Z axle slide block with single main shaft.When editing objective, having not, the various cutters of same-action must be fixed to knife rest successively according to the order of processing technology.
When finishing each technology, cutter must replace with another required cutter of technology subsequently by swivelling tool-holder.After this, a series of numerical control operatings are operated and implemented to Z axle slide block and main shaft according to pre-set programs.
And the operation of editing objective needs cutting operation repeatedly usually, rather than process operation is finished by a single cutting operation.When implementing each cutting operation, cutter perhaps distinguishingly, needs to change machine generally by another replacement.
About this machine, Korean Utility Model registration No.331503 has proposed a kind of milling machine.As illustrated in fig. 1 and 2, main shaft equipment 10 is installed on the Z axle slide block 30.Main shaft equipment 10 replacedly blocks on the swivelling tool-holder 50 automatically and is in one of each cutter of stand-by state.Auxilliary axle equipment 20 is located at the position of contiguous main shaft equipment 10 on the Z axle 30.
Main shaft equipment 10 and auxilliary axle equipment 20 comprise main shaft 11 and 21 respectively.Be used to keep the chuck 15 and 25 of specular process tool 73 and cutter 70 to be located at respectively below main shaft 11 and 21.
The chuck 25 that keeps cutter and be mounted to auxilliary axle equipment 20 lower ends than chuck 15 layouts that are mounted to main shaft equipment 10 further from the workbench 60 that is used for supporting target 60.
Yet in conventional milling machine, main shaft equipment 10 and auxilliary axle equipment 20 all are mounted to Z axle slide block 30.Thereby, when operation axis equipment 10, can not operate auxilliary axle equipment 20, therefore can not implement several operations simultaneously; Auxilliary axle equipment 20 only can be operated after main shaft equipment 10 is finished.Thereby processing work is complicated, and needs a large amount of artificial and a large amount of time.Thereby the productivity ratio of machine significantly reduces.
And, although different cutter is mounted to main shaft equipment 10 and auxilliary axle equipment 20 respectively, but only can implement the operation that fixed cutting tool allows.Therefore, if when editing objective, need various special operationals, may need to prepare to have the independent machine of required cutter.
Summary of the invention
[technical problem]
Therefore, make under the problems referred to above that the present invention occurs in considering prior art, and target of the present invention provides a kind of Compositions of metal-working machines, it is constructed so that cutting, engraving, use the precision cutting of plasma or laser, the one or more of V-arrangement cutting and grooving work can be implemented by this single machining center, thereby solve the problem of the routine techniques that needs independent engraving machine or cutting machines etc., and it can use individual equipment that target is accurately carved or is cut to desired depth and optionally implements engraving, cutting etc., thus increase work efficiency.
Another target of the present invention provides a kind of Compositions of metal-working machines, and wherein each machining cell is installed on the single basic framework and can operates simultaneously, thereby improves working (machining) efficiency.
[technical scheme]
In order to realize above target, the invention provides a kind of Compositions of metal-working machines, it comprises: have the basic framework that target is arranged workbench thereon; Be located at the directions X locating piece on the basic framework; Be bonded to the Y direction locating piece of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And a plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and Z direction locating piece is equipped with machining cell separately.
In yet another aspect, the invention provides a kind of Compositions of metal-working machines, it comprises: have the basic framework that target is arranged workbench thereon; A plurality of directions X locating pieces that are located at the position that is spaced apart from each other on the basic framework; Be located at the Y direction locating piece at least one side of each directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And a plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and Z direction locating piece is equipped with machining cell separately.
In yet another aspect, the invention provides a kind of Compositions of metal-working machines, it comprises: have the basic framework that target is arranged workbench thereon; Be located at the directions X locating piece on the basic framework; A plurality of Y direction locating pieces that are located at the position, upper and lower that is spaced apart from each other at least one side of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And a plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and Z direction locating piece is equipped with machining cell separately.
In yet another aspect, the invention provides a kind of Compositions of metal-working machines, it comprises: have the basic framework that target is arranged workbench thereon; A plurality of directions X locating pieces that are located at the position that is spaced apart from each other on the basic framework; A plurality of Y direction locating pieces that are located at the position, upper and lower that is spaced apart from each other at least one side of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And a plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and Z direction locating piece is equipped with machining cell separately.
[advantageous effects]
According to the present invention, cutting, engraving, the precision cutting of using plasma or laser, V-arrangement cutting and grooving processing can be implemented by single Compositions of metal-working machines.Thereby the present invention can solve the problem of the routine techniques that needs independent engraving machine or cutting machines etc.In addition, Compositions of metal-working machines of the present invention can use individual equipment that target is accurately carved or is cut to desired depth and optionally implements engraving, cutting etc., thereby increases work efficiency.
And various machining cells are mounted to Compositions of metal-working machines and can operate simultaneously.Thereby the working (machining) efficiency of Compositions of metal-working machines can improve.
Description of drawings
Fig. 1 is the front view of conventional milling machine;
Fig. 2 is the front view of the key component of milling machine shown in Figure 1;
Fig. 3 is the perspective view of Compositions of metal-working machines according to an embodiment of the invention;
Fig. 4 is the perspective view of another stationary table in this Compositions of metal-working machines shown in Figure 3;
Fig. 5 is the side view that Compositions of metal-working machines shown in Figure 3 is shown;
Fig. 6 is the front view that the machining cell of Compositions of metal-working machines shown in Figure 3 is shown;
Fig. 7 is the perspective view that the workbench of Compositions of metal-working machines shown in Figure 3 is shown;
Fig. 8 is the perspective view of Compositions of metal-working machines according to another embodiment of the present invention;
Fig. 9 is the perspective view that the machining cell of Compositions of metal-working machines shown in Figure 8 is shown;
Figure 10 is the front view according to the Compositions of metal-working machines of further embodiment of this invention;
Figure 11 is the perspective view according to the Compositions of metal-working machines of further embodiment of this invention;
Figure 12 is the view that illustrates according to the operation of the Compositions of metal-working machines of further embodiment of this invention;
Figure 13 is the front view according to the Compositions of metal-working machines that is equipped with machining cell of further embodiment of this invention;
Figure 14 is the front view that illustrates according to the machining cell of the Compositions of metal-working machines of further embodiment of this invention;
Figure 15 to 20 is the views according to the Compositions of metal-working machines that is equipped with machining cell of further embodiment of this invention;
Figure 21 to 23 is the views according to the Compositions of metal-working machines that is equipped with machining cell of further embodiment of this invention;
Figure 24 to 26 is the views that illustrate according to the delivery unit of Compositions of metal-working machines of the present invention; And
Figure 27 and 28 illustrates according to the directions X locating piece of Compositions of metal-working machines of the present invention and the installation view of workbench.
The specific embodiment
Describe embodiments of the invention below with reference to accompanying drawings in detail.
Compositions of metal-working machines according to the present invention comprises basic framework 400, be installed on directions X locating piece 130 on the basic framework 400, be located at least one the Y direction locating piece 150 at least one side of directions X locating piece 130 and at least one the Z direction locating piece 610,650 that is located at Y direction locating piece 150 fronts.
Workbench 433 is arranged on the basic framework 400.
Be arranged on the basic framework 400 workbench 433 can by delivery unit 700 basic framework vertically on move back and forth.
In one exemplary embodiment, the turntable 450 that is connected to second rotary unit 470 can be arranged on the workbench 433.
Second rotary unit 470 comprises by the driving gear 473 of motor rotation and the driven gear 471 that is bonded to turntable 450 and is meshed with driving gear 473.
Be located on the basic framework 400 directions X locating piece 130 by delivery unit 700 basic framework 400 vertically on move back and forth.
Directions X locating piece 130 can comprise a plurality of directions X locating pieces 130, and delivery unit 700 also can comprise a plurality of delivery units 700 that are spaced apart from each other and are bonded to corresponding directions X locating piece 130, so that directions X locating piece 130 can move respectively.
The Y direction locating piece 150 that is bonded to a side of directions X locating piece 130 is moved back and forth along directions X locating piece 130 by delivery unit 700.
Y direction locating piece 150 can comprise a plurality of Y direction locating pieces 150, and delivery unit 700 also can comprise the upper-lower position place on a plurality of described sides that are located at directions X locating piece 130 and be bonded to the delivery unit 700 of Y direction locating piece 150, so that Y direction locating piece 150 can move respectively.
But directions X locating piece 130 comprises a plurality of being connected to each other so that first and second variable-blocks 131 and 133 that in the vertical direction separates.First and second variable-blocks 131 and 133 are connected to hydraulic cylinder 131-1.
And at least one knife rest 500 is located on the described side of directions X locating piece 130.
Knife rest 500 comprises a plurality of support chuck 550 that corresponding cutter is fixed thereon.Each support chuck 550 is made of plastics and is separable with tool holder body.
Knife rest 500 can be moved in the horizontal and vertical directions by delivery unit 700.
The CD-ROM drive motor of control module 300 control operation delivery units, but so that CD-ROM drive motor reverse rotation.
Workbench 433 has in the surface thereon and a plurality ofly is connected to the suction pump (not shown) so that support the SS 410 of target M reliably.
In a further exemplary embodiment, workbench 433 can be configured to have network to minimize contact area and the heat radiation effectively between workbench 433 and the target M.For example, workbench 433 can comprise a plurality of support blades 430, and they are fitted in the slot 435 in the framework that is formed at workbench 433.
Simultaneously, machining cell can directly be fixed to the Y direction locating piece 150 with above-mentioned structure.Alternatively, machining cell can preferably be fixed to the Z direction locating piece 610,650 that is bonded to Y direction locating piece 150.
Machining cell can comprise at least one in main process tool 170, laser processing tool bit 270, plasma process cutter 290, multiaxis process tool 280, V-notch forming tool 250, grooving cutter 210 and the multi-direction V-notch forming tool 220.
In one exemplary embodiment, main process tool 170 is fixed to any one in the Z direction locating piece 610 and 650 that is bonded to Y direction locating piece 150 front ends.Z direction locating piece 610 and 650 can be moved up or down by delivery unit 700.
And main process tool 170 is provided with main shaft, and the cutting tool that is supported by the support chuck 550 of knife rest 500 is fixed to described main shaft.
In one exemplary embodiment, laser processing tool bit 270 can comprise laser beam generator 205 that is installed in the basic framework 400 and the reflector element 230 that is connected to laser beam generator 205, so that the laser beam that is produced by laser beam generator 205 is fed on the target M by reflector element 230.
Reflector element 230 comprises extensible bellows and is located at speculum 279 in each turning of extensible bellows.
Laser processing tool bit 270 can be connected to the fixed block 277 that is bonded to Y direction locating piece 150 by lift unit 273.Be used to prevent that dust collection cover 457 that dust scatters is located at the lower end of laser processing tool bit 270.
Lift unit 273 comprises air pressure or hydraulic cylinder.
In one exemplary embodiment, multiaxis process tool 280 can be fixed at least one Z direction locating piece 610,650 by first rotary unit 657.
First rotary unit 657 comprises the driving gear 657-2 that is connected to CD-ROM drive motor 657-1, and is meshed with driving gear 657-2 and is bonded to the driven gear 657-3 of multiaxis process tool 280.
Multiaxis process tool 280 is constructed so that a plurality of cutters are rotated by single CD-ROM drive motor.Multiaxis process tool 280 can be provided with the many cutting knifes 285 that are constructed so that revolving force transmits with different angles.
In one exemplary embodiment, V-notch forming tool 250 can be mounted to the Z direction locating piece 610 that is connected to Y direction locating piece 150 front ends by delivery unit.V-notch forming tool 250 comprises a plurality of first V-arrangement cutting knifes 255 that can be moved, to the right, up and down by delivery unit left.
In one exemplary embodiment, multi-direction V-notch forming tool 220 can be mounted to the front end of Y direction locating piece 150 or Z direction locating piece 610,650 by delivery unit, and Z direction locating piece 610,650 is connected to Y direction locating piece 150.
Multi-direction V-notch forming tool 220 can comprise a plurality of be located on the L shaped Y direction locating piece 150 the second V-arrangement cutting knife 255 so that processing technology can implement and they can be moved up or down along guide groove 225 by air pressure or hydraulic cylinder 223 with different angles.
In one exemplary embodiment, grooving cutter 210 can be located on the L shaped Y direction locating piece 150 so that implement processing technology with different angles.Grooving cutter 210 can be moved up or down along guide groove 225 by air pressure or hydraulic cylinder 223.
Grooving cutter 210 can be fixed to the front end of Y direction locating piece 150 or Z direction locating piece 610,650 by delivery unit, and Z direction locating piece 610,650 is connected to Y direction locating piece 150.
Grooving cutter 210 can comprise a plurality of spaced apart and rotatably be located at blade on the Z direction locating piece 610 with regular spaces to each other.
Grooving cutter 210 can comprise that a plurality of being bonded to is located at the shift unit 360 on the Z direction locating piece 610 and is arranged in grooving cutter 210 on the circumferencial direction.Distance between the blade of grooving cutter 210 is different.
Shift unit 360 comprises that grooving cutter 210 arranges rotating disk 361 thereon in a circumferential direction.First gear is arranged on the side of rotating disk 361.Shift unit 360 also comprises second gear 365 that is meshed with first gear and is bonded to CD-ROM drive motor 363.
Delivery unit 700 comprises CD-ROM drive motor 703, rotating threaded shaft 705, the contiguous block 707 that is meshed with rotating threaded shaft 705 and LM guide 701.
Alternatively, delivery unit 700 can comprise hydraulic pressure or pneumatic cylinder.
CD-ROM drive motor 703 can be connected to tooth bar 713 or pinion 715.
Substitute as another, delivery unit 700 can comprise drive pulley 714, the follow-up pulley 716 that is connected to CD-ROM drive motor 703 and be connected in drive pulley 714 and follow-up pulley 716 between and be fixed to the belt 718 of workbench 433.
In the case, sprocket wheel can be used to replace each pulley, and can be used to replace belt corresponding to the chain of sprocket wheel.
To explain operation of the present invention in detail below with above-mentioned structure.
Shown in Fig. 3 to 28, target M is supported on the workbench 433 that is located on the basic framework 400.Directions X locating piece 130 by corresponding delivery unit 700 basic framework 400 vertically on move back and forth.
And the Y direction locating piece 150 that is bonded to directions X locating piece 130 moves to left side or right side by corresponding delivery unit 700.The Z direction locating piece 610,650 that is bonded to Y direction locating piece 150 moves up or down.At this moment, be located at the surface of machining cell processing (for example cutting) the target M on the Z direction locating piece 610,650.
The workbench 433 that is located on the basic framework 400 is moved back and forth by corresponding delivery unit 700.Here, when machining cell editing objective M surperficial, workbench 433 can be equal to directions X locating piece 130 moving directions or opposite direction on move.Alternatively, workbench 433 can move with respect to the directions X locating piece 130 that remains static.
Therein turntable 450 be located on the workbench 433 and can embodiment by 470 rotations of second rotary unit in, when workbench 433 was moved linearly or remains static, target M can be by turntable 450 rotations.
Workbench 433 can have different shape, and uses its shape and the corresponding workbench 433 of machining cell.
Under the situation of general objectives M, employed workbench 433 has lip-deep SS 410 formed thereon and supports target M.In the case, target M can be remained on the workbench 433 more reliably by the suction force that suction pump produced that is connected to SS 410.
Simultaneously, have network so that support blade 430 is fitted under the situation of slot 435 at workbench 433, can be easy to the heat that removes dust or when using main process tool 170, laser processing tool bit 270 or plasma process cutter 290 editing objectives, produce.
Directions X locating piece 130 is constructed so that among first and second variable-blocks 131 and 133 embodiment connected to one another therein, the Y direction locating piece 150 and the Z direction locating piece 610,650 that are bonded to directions X locating piece 130 can be regulated height by operation hydraulic cylinder 131-1.
A plurality of therein directions X locating pieces 130 are located under the situation of the position that is spaced apart from each other on the basic framework 400, and directions X locating piece 130 can be moved on identical or rightabout by the delivery unit 700 that is connected to corresponding directions X locating piece 130.
In the case, Y direction locating piece 150 and Z direction locating piece 610,650 are located on each the directions X locating piece 130 that is fixed to or is located at movably on the basic framework 400.
Simultaneously, Y direction locating piece 150 can comprise the Y direction locating piece 150 of the position, upper and lower on a plurality of at least one sides that are located at directions X locating piece 130.In the case, Y direction locating piece 150 can be moved on identical or rightabout by the delivery unit 700 that is connected to corresponding Y direction locating piece 150.
Machining cell can be connected to Y direction locating piece 150.Alternatively, machining cell can be connected to the Z direction locating piece 610,650 that is bonded to Y direction locating piece 150 by delivery unit 700.
Described at least one knife rest 500 with support chuck 550 be located on the directions X locating piece 130 so that knife rest 500 can be left, to the right, move up or down.Thereby the cutter of expectation can be easy to be mounted to the main shaft of main process tool 170.
Support chuck 550 is made of plastics and is bonded to tool holder body removedly, so support chuck 550 has enough elasticity and can be easy to when needs are replaced with new replacement, for example when damaging.
Below explanation is mounted to the machining cell of the front end of Y direction locating piece 150 or Z direction locating piece 610,650.
In one exemplary embodiment of the present invention, machining cell is constructed so that main process tool 170 and another process tool are mounted to Z direction locating piece 610,650 together.Thereby various process operations can be implemented by single Compositions of metal-working machines.
Alternatively, machining cell can be mounted to the directions X locating piece 130 that is located at the position that is spaced apart from each other on the basic framework 400 respectively.Substitute as another, machining cell can be mounted to the Y direction locating piece 150 that is located at the position that is spaced apart from each other on the directions X locating piece 130 respectively.In these cases, single Compositions of metal-working machines also can be implemented various process operations.
Each machining cell can be by the directions X that moves above basic framework 400 and Y direction locating piece 130 and 150 and mobile around target M by the Z direction locating piece 610,650 that is bonded to Y direction locating piece 150 in three dimensions.Thereby, the process operation of energy expectation easy to implement.
Simultaneously, laser processing tool bit 270 utilizes laser beam generator 205 that is mounted to basic framework 400 and the reflector element 230 that is connected to laser beam generator 205 that laser beam is applied on the target so that it is processed.Under the situation of using laser processing tool bit 270, the generation of energy minimization dust or cutting swarf.
Reflector element 230 is constructed so that speculum 279 is located in each turning of bellows.Thereby, even bellows with different shape and various angular bend, the laser element that is produced by laser beam generator 205 also can be applied on the target reliably.
Simultaneously, multiaxis process tool 280 is mounted to the front end of at least one Z direction locating piece 610,650 by first rotary unit 657, so that multiaxis process tool 280 is arranged in the upper surface top of target M and can implements inclined-plane processing.
Multiaxis process tool 280 can optionally be implemented milling machine operation, cutting operation etc., or uses by many cutting knifes 285 of CD-ROM drive motor operation and implement several operations simultaneously.
Be bonded to Y direction locating piece 150 or be bonded to by corresponding delivery unit 700 under the situation of Z direction locating piece 610 of Y direction locating piece 150 at V-notch forming tool 250, the first V-arrangement cutting knife 255 of V-notch forming tool 250 is implemented in the operation that forms several V-notch among the target M simultaneously.
Multi-direction V-notch forming tool 220 is constructed so that the V-notch forming tool is crooked at a predetermined angle.When the operation of multi-direction V-notch forming tool 220 by hydraulic pressure or pneumatic cylinder 223 along guide groove 225 upwards or when moving up, the second V-arrangement cutting knife 253 is implemented in the operation that forms V-notch among the target M apace on identical or different direction.
Grooving cutter 210 comprises a plurality of blades that can rotate freely.Be bonded to Y direction locating piece 150 by corresponding delivery unit 700 or be bonded under the situation of Z direction locating piece 610 of Y direction locating piece 150 at grooving cutter 210, it can form the grid groove in target M.
In one exemplary embodiment, grooving cutter 210 can comprise that a plurality of being bonded to is located at the shift unit 360 on the Z direction locating piece 610 and is arranged in a plurality of grooving cutters 210 on the circumferencial direction.Distance between the blade of grooving cutter 210 is different.In the case, only will not be replaced by the groove that new just forming apace has the expectation interval by grooving cutter 210 by rotation displacement unit 360.
Here, shift unit 360 is constructed so that in operation during CD-ROM drive motor 363, and rotating disk 361 rotations are provided with of expectation in the grooving cutter 210 of various blades and can be arranged in correct Working position apace so that have different interval.
In having the Compositions of metal-working machines of above-mentioned structure, can by single Compositions of metal-working machines implement to use the process operation of plasma, laser and various cutters and form V-notch or the operation of groove in one or more.Like this, single Compositions of metal-working machines can be implemented various operations and thereby maximization operating efficiency.
[industrial applicibility]
The invention provides a kind of Compositions of metal-working machines, it is constructed so that when carrying out the work of timber processing or processing plastic or metal engraving, precision cutting, V-arrangement cut and grooving processing can optionally be implemented or several operations can be implemented simultaneously by single machining center.

Claims (38)

1. Compositions of metal-working machines, it comprises:
Basic framework with workbench of arranging target in the above;
Be located at the directions X locating piece on the basic framework;
Be bonded to the Y direction locating piece of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And
A plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and described Z direction locating piece is equipped with machining cell separately.
2. according to the Compositions of metal-working machines of claim 1, wherein workbench be located on the basic framework in case can by delivery unit basic framework vertically on move back and forth.
3. according to the Compositions of metal-working machines of claim 1 or 2, wherein turntable is located on the workbench and by second rotary unit and rotates,
Second rotary unit comprises that driven gear is meshed with driving gear by motor operated driving gear and the driven gear that is bonded to turntable.
4. according to the Compositions of metal-working machines of claim 1, wherein the directions X locating piece comprise at least one by delivery unit basic framework vertically on reciprocating directions X locating piece.
5. according to the Compositions of metal-working machines of claim 1, wherein Y direction locating piece comprises the Y direction locating piece of the position, upper and lower on a plurality of at least one sides that are located at the directions X locating piece, and each Y direction locating piece is moved back and forth by delivery unit and has at least one machining cell.
6. according to the Compositions of metal-working machines of claim 1 or 4, wherein the directions X locating piece comprises at least one knife rest that is located on the one side,
Described knife rest comprises a plurality of support chuck that cutter is installed, each support chuck be made of plastics and can with the body portion of knife rest from.
7. according to the Compositions of metal-working machines of claim 1 or 5, wherein Y direction locating piece comprises and being connected to each other so that first and second variable-blocks that can in the vertical direction separate, and first and second variable-blocks are connected to hydraulic cylinder.
8. according to the Compositions of metal-working machines of claim 1, wherein workbench has a plurality of SSs to keep described target on the surface thereon, and SS is connected to suction pump.
9. according to the Compositions of metal-working machines of claim 1, wherein workbench comprises a plurality of support blades that are fitted in the slot that is formed in the workbench, is used to reduce the contact area between workbench and the described target and be beneficial to heat radiation so that have network.
10. according to the Compositions of metal-working machines of claim 1, wherein Z direction locating piece has the main process tool and another process tool that is selected from machining cell for one of machining cell.
11. according to claim 1,5 or 10 Compositions of metal-working machines, wherein each machining cell comprises at least one that is selected from the group that is made of main process tool, laser processing tool bit, plasma process cutter, multiaxis process tool, V-notch forming tool, grooving cutter and multi-direction V-notch forming tool.
12. according to the Compositions of metal-working machines of claim 11, wherein laser processing tool bit comprises laser beam generator and reflector element, reflector element comprises the bellows with extensible structure and is located at speculum in each turning of bellows.
13. according to the Compositions of metal-working machines of claim 11, wherein the multiaxis process tool is bonded to corresponding Z direction locating piece by first rotary unit,
First rotary unit comprises driving gear that is connected to CD-ROM drive motor and the driven gear that is meshed with driving gear, and driven gear is bonded to the multiaxis process tool.
14. according to the Compositions of metal-working machines of claim 13, wherein the multiaxis process tool comprises that described a plurality of cutters are configured to different angles it be transmitted revolving force by a plurality of cutters of single CD-ROM drive motor rotation.
15. according to the Compositions of metal-working machines of claim 11, wherein the V-notch forming tool is bonded to Y direction locating piece or corresponding Z direction locating piece, and comprise a plurality of by delivery unit left, to the right, the first V-arrangement cutting knife that moves up or down.
16. according to the Compositions of metal-working machines of claim 11, wherein multi-direction V-notch forming tool is bonded to Y direction locating piece or corresponding Z direction locating piece, perhaps
Multi-direction V-notch forming tool is bonded to L shaped Y direction locating piece so that implement selected process operation with different angles, and is moved up or down along guide groove by pneumatic cylinder or hydraulic cylinder.
17. according to the Compositions of metal-working machines of claim 11, wherein the grooving cutter is bonded to Y direction locating piece or corresponding Z direction locating piece, and is moved up or down along guide groove by pneumatic cylinder or hydraulic cylinder,
The grooving cutter comprises a plurality of blades that are spaced apart from each other at interval with rule, and blade can be with respect to Y direction locating piece or the rotation of Z direction locating piece.
18. Compositions of metal-working machines according to claim 17, wherein the grooving cutter comprises a plurality of grooving cutters that are bonded to Z direction locating piece by shift unit, described a plurality of grooving cutter is being arranged on the circumferencial direction and is being provided with the blade with different interval on the shift unit, and
Shift unit comprises: the grooving cutter is along its circumferential directions rotating disk thereon, second gear that rotating disk has first gear on the one side and is meshed with first gear, and second gear is bonded to CD-ROM drive motor.
19. according to claim 1,2,4,5 and 15 any one Compositions of metal-working machines, wherein delivery unit comprises: the rotating threaded shaft that is connected to CD-ROM drive motor; The contiguous block that is meshed with rotating threaded shaft; And LM guide.
20. according to claim 1,2,4,5 and 15 any one Compositions of metal-working machines, wherein delivery unit comprises hydraulic cylinder or pneumatic cylinder.
21. according to the Compositions of metal-working machines of claim 19, wherein CD-ROM drive motor is connected to one that is selected from the group that is made of rack-and-pinion.
22. according to claim 1,2,4,5 and 15 any one Compositions of metal-working machines, wherein delivery unit comprises: the drive pulley that is connected to CD-ROM drive motor; Follow-up pulley; And being connected band between drive pulley and the follow-up pulley, this band is fixed to workbench.
23. Compositions of metal-working machines according to claim 11, wherein machining cell is connected to control module, control module control directions X locating piece with respect to the motion of basic framework, Y direction locating piece with respect to the motion of the motion of directions X locating piece and Z direction locating piece with respect to Y direction locating piece.
24. a Compositions of metal-working machines, it comprises:
Basic framework with workbench of arranging target in the above;
Be located at a plurality of directions X locating pieces of the position that is spaced apart from each other on the basic framework;
Be located at the Y direction locating piece at least one side of each directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And
A plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and described Z direction locating piece is equipped with machining cell separately.
25. according to the Compositions of metal-working machines of claim 24, wherein workbench be located on the basic framework in case can by delivery unit basic framework vertically on move back and forth.
26. according to the Compositions of metal-working machines of claim 24, wherein each machining cell comprises at least one that is selected from the group that is made of main process tool, laser processing tool bit, plasma process cutter, multiaxis process tool, V-notch forming tool, grooving cutter and multi-direction V-notch forming tool.
27. according to the Compositions of metal-working machines of claim 24, wherein the directions X locating piece by delivery unit basic framework vertically on move back and forth.
28. according to claim 24,25 and 27 any one Compositions of metal-working machines, wherein delivery unit comprises: the rotating threaded shaft that is connected to CD-ROM drive motor; The contiguous block that is meshed with rotating threaded shaft; And LM guide.
29. a Compositions of metal-working machines, it comprises:
Basic framework with workbench of arranging target in the above;
Be located at the directions X locating piece on the basic framework;
Be located at a plurality of Y direction locating pieces of the position, upper and lower that is spaced apart from each other at least one side of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And
A plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and described Z direction locating piece is equipped with machining cell separately.
30. according to the Compositions of metal-working machines of claim 29, wherein workbench be located on the basic framework in case can by delivery unit basic framework vertically on move back and forth.
31. according to the Compositions of metal-working machines of claim 29, wherein each machining cell comprises at least one that is selected from the group that is made of main process tool, laser processing tool bit, plasma process cutter, multiaxis process tool, V-notch forming tool, grooving cutter and multi-direction V-notch forming tool.
32. according to the Compositions of metal-working machines of claim 29, wherein the directions X locating piece by delivery unit basic framework vertically on move back and forth.
33. according to claim 29,30 and 32 any one Compositions of metal-working machines, wherein delivery unit comprises: the rotating threaded shaft that is connected to CD-ROM drive motor; The contiguous block that is meshed with rotating threaded shaft; And LM guide.
34. a Compositions of metal-working machines, it comprises:
Basic framework with workbench of arranging target in the above;
Be located at a plurality of directions X locating pieces of the position that is spaced apart from each other on the basic framework;
Be located at a plurality of Y direction locating pieces of the position, upper and lower that is spaced apart from each other at least one side of directions X locating piece, Y direction locating piece is by the vertical reciprocating motion of delivery unit along the directions X locating piece; And
A plurality of Z direction locating pieces, they are bonded to Y direction locating piece so that each Z direction locating piece moves up or down individually, and described Z direction locating piece is equipped with machining cell separately.
35. according to the Compositions of metal-working machines of claim 34, wherein workbench be located on the basic framework in case can by delivery unit basic framework vertically on move back and forth.
36. according to the Compositions of metal-working machines of claim 34, wherein each machining cell comprises at least one that is selected from the group that is made of main process tool, laser processing tool bit, plasma process cutter, multiaxis process tool, V-notch forming tool, grooving cutter and multi-direction V-notch forming tool.
37. according to the Compositions of metal-working machines of claim 34, wherein each directions X locating piece by delivery unit basic framework vertically on move back and forth.
38. according to claim 34,35 and 37 any one Compositions of metal-working machines, wherein delivery unit comprises: the rotating threaded shaft that is connected to CD-ROM drive motor; The contiguous block that is meshed with rotating threaded shaft; And LM guide.
CN2009801079395A 2008-01-25 2009-01-24 Complex machining center Pending CN101959639A (en)

Priority Applications (19)

Application Number Priority Date Filing Date Title
KR10-2008-0008248 2008-01-25
KR1020080008248A KR100977837B1 (en) 2008-01-25 2008-01-25 a multipurpose carving machine with fine-cutting unit
KR1020080008247A KR100977836B1 (en) 2008-01-25 2008-01-25 a carving machine with laser cutter
KR10-2008-0008247 2008-01-25
KR1020080057464A KR100911764B1 (en) 2008-06-18 2008-06-18 A processor for both carving and cutting, V-cut
KR1020080057463A KR100910590B1 (en) 2008-06-18 2008-06-18 A multipurpose carving machine with the movement of both direction
KR10-2008-0057463 2008-06-18
KR10-2008-0057464 2008-06-18
KR10-2008-0069548 2008-07-17
KR1020080069548A KR100925038B1 (en) 2008-07-17 2008-07-17 A processor with synchronous mobile table and frame
KR10-2008-0100776 2008-10-14
KR1020080100776A KR100928288B1 (en) 2008-10-14 2008-10-14 Combined machines with individually movable cutting machines
KR10-2008-0134887 2008-12-26
KR10-2008-0134886 2008-12-26
KR1020080134887A KR100927207B1 (en) 2008-12-26 2008-12-26 A carving machine with a section blades
KR1020080134886A KR100928287B1 (en) 2008-12-26 2008-12-26 A carving machine with a double working in multidirection
KR10-2008-0137429 2008-12-30
KR1020080137429A KR100926342B1 (en) 2008-10-14 2008-12-30 A combined processing facilities with work of inclination direction
PCT/KR2009/000390 WO2009093877A2 (en) 2008-01-25 2009-01-24 Complex machining center

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CN103878534A (en) * 2012-12-19 2014-06-25 鸿准精密模具(昆山)有限公司 Metal piece machining method
CN103878535A (en) * 2012-12-19 2014-06-25 鸿准精密模具(昆山)有限公司 Metal piece machining method
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US9527174B2 (en) 2012-12-19 2016-12-27 Fu Ding Electronical Technology (Jiashan) Co.,Ltd. Method for machining metallic member using lathing and milling
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Application publication date: 20110126