CN101961813B - Integrated planar & cylindrical plasma cutting machine - Google Patents
Integrated planar & cylindrical plasma cutting machine Download PDFInfo
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- CN101961813B CN101961813B CN2010105117954A CN201010511795A CN101961813B CN 101961813 B CN101961813 B CN 101961813B CN 2010105117954 A CN2010105117954 A CN 2010105117954A CN 201010511795 A CN201010511795 A CN 201010511795A CN 101961813 B CN101961813 B CN 101961813B
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- dividing head
- tailstock
- plasma cutting
- numerical control
- lathe bed
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Abstract
The invention relates to a planar plasma cutting machine, in particular to an integrated planar & cylindrical plasma cutting machine. The cutting machine of the invention comprises a numerical control (NC) plasma cutting machine (1), a tailstock (3), a tailstock centre (2), dividing head components (7), a dividing head lathe bed (5), an auxiliary support (6), a tailstock sliding rail (4) and a connecting jackstay (8), wherein the dividing head components (7) comprise a dividing head chuck (7-1) and dividing head seat (7-2); the dividing head lathe bed (5) is arranged above the auxiliary support (6), the tailstock sliding rail (4) and the dividing head components (7) are all arranged above the auxiliary support (6), the tailstock (3) is movably arranged at the tailstock sliding rail (4), the auxiliary support (6) is connected with a lathe bed frame (1-6), and a beam (1-1) and a horizontal guide rail (1-2) are arranged above a workbench (1-5) and the dividing head lathe bed (5). The machine of the invention is simple in structure and wide in application range, and can realize planar cutting and cylindrical cutting.
Description
Technical field
The present invention relates to a kind of plane CUT, particularly a kind of plane and cylinder plasma cutting all-in-one machine.Belong to welding and cutting technique equipment and equipment technical field.
Background technology
CUT is the machinery of metal material being processed by plasma cutting technique.Plasma cutting is a kind of novel thermal cutting, and it is to be working gas with the high compressed air, is thermal source with the plasma arc of high temperature and high speed, with the metal local melting that is cut, and blows away with high velocity air molten metal simultaneously, forms narrow joint-cutting.Numerical control plasma cutting machine employing ion cutting power supply/flame combines with Digit Control Machine Tool, and numerical control plasma cutting machine can cut out figure or literal arbitrarily in the plane through computer programming, therefore also is called plane numerical controlled CUT.CUT cooperates different working gas can cut the metal that various oxygen cuttings are difficult to cut; Especially better for non-ferrous metal such as stainless steel, aluminium, copper, titanium, nickel cutting effect, numerical control plasma cutting machine is applicable to the cutting of all conductive metallic materials such as stainless steel, aluminium, copper, cast iron, carbon steel.The adoptable working gas of CUT is the conducting medium of plasma arc; Be again to take hot body; Also to get rid of the motlten metal in the otch simultaneously; Therefore the cutting characteristic of article on plasma arc and cut quality, speed all have tangible influence, and plasma arc working gas commonly used has argon, hydrogen, nitrogen, oxygen, air, steam and some mist.CUT extensively applies to industries such as automobile, locomotive, pressure vessel, chemical machinery, nuclear industry, universal machine, engineering machinery, steel construction.When the numerical control plasma cutting machine major advantage is the little metal of cutting thickness; Like cuts sheet material or thickness at 6mm during with lower thin sheet; Have that cutting speed is fast, operating procedure is simple, operating cost is low, need not advantages such as preheating, particularly have the good advantages of cut quality such as joint-cutting is narrow, otch is smooth, the heat affected area is little, the workpiece deformation degree is low.But numerical control plasma cutting machine also exists defective: (1) numerical control plasma cutting machine is mainly used in plane cutting figure etc., is not suitable for the on-plane surface cutting, thereby restricted application; (2) cutting cost is high.Numerical control plasma cutting machine includes crossbeam, cross slide way, transverse slider, numerical control working head, workbench, frame, longitudinal rail and longitudinal sliding block, and cross slide way is arranged on the crossbeam, and the numerical control working head is arranged on the transverse slider; Transverse slider and cross slide way flexibly connect; Longitudinal rail is arranged on the frame, and longitudinal sliding block and longitudinal rail flexibly connect, and longitudinal sliding block is connected with crossbeam; Crossbeam is that numerical control plasma cutting machine provides firm stable machining platform; Cross slide way, transverse slider realize that the numerical control working head laterally moves, and longitudinal rail and longitudinal sliding block realize that the numerical control working head vertically moves, and the numerical control working head is a cutting member; Existing numerical control plasma cutting machine equipment cost is higher, and the relative cutting processing cost of product is also higher.
Summary of the invention
The objective of the invention is to overcome the deficiency of prior art, a kind of simple in structure, applied widely, plane and cylinder plasma cutting all-in-one machine with two kinds of functions of plane cutting and cylinder cutting is provided.
Realize that the above-mentioned purpose technical scheme is: a kind of plane and cylinder plasma cutting all-in-one machine, comprise numerical control plasma cutting machine, numerical control plasma cutting machine includes crossbeam, cross slide way, transverse slider, numerical control working head, workbench, frame, longitudinal rail and longitudinal sliding block; Cross slide way is arranged on the crossbeam; The numerical control working head is arranged on the transverse slider, and transverse slider and cross slide way flexibly connect, and longitudinal rail is arranged on the frame; Longitudinal sliding block and longitudinal rail flexibly connect; Longitudinal sliding block is connected with crossbeam, also includes tailstock, tailstock center, dividing head assembly, dividing head lathe bed, auxiliary stand, tailstock slide rail and is connected strut, and the dividing head assembly includes dividing head chuck and calibration headstock; The dividing head lathe bed is arranged on above the auxiliary stand; Tailstock slide rail and dividing head assembly all are arranged on above the dividing head lathe bed, and tailstock is movably arranged on the tailstock slide rail, and the longitudinal axis center line a of tailstock center overlaps with the longitudinal axis center line b of dividing head chuck; Auxiliary stand is connected with frame, crossbeam and cross slide way be arranged on workbench and dividing head lathe bed above.
Further, described auxiliary stand is connected through being connected strut with frame.
Further, described longitudinal sliding block is connected with crossbeam through connecting rod.
Further, described dividing head chuck is a scroll chuck.
Further, described calibration headstock is connected with the dividing head lathe bed.
After adopting technique scheme, have a lot of benefits: (1) is simple in structure, and is applied widely, has two kinds of functions of plane cutting and cylinder cutting.The present invention is the improvement innovation of on the basis of existing numerical control plasma cutting machine, carrying out; To have CUT dexterously now and increase the auxiliary ligand complete equipment that to accomplish the cylinder cutting; Make the present invention both keep all advantages such as existing numerical control plasma cutting machine cutting speed is fast, cut quality is good; When high-quality is accomplished plane cutting, also have both another kind of function, promptly realized the cylinder cutting; The scope of application of existing numerical control plasma cutting machine is widened greatly, therefore of the present invention applied widely; (2) reduced cost.The plane and the cylinder cutting processing that need two kinds of equipment to accomplish in the prior art just can be accomplished in the present invention, and the present invention has realized dual-use, reduce greatly and have practiced thrift equipment cost, and the relative cutting processing cost of product is reduced greatly.
Description of drawings
Fig. 1 is a structural representation of the present invention;
Fig. 2 is the side view of Fig. 1.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the present invention is done further detailed explanation.
Embodiment one
Shown in Fig. 1 to 2, a kind of plane and cylinder plasma cutting all-in-one machine comprise numerical control plasma cutting machine 1, also include tailstock 3, tailstock center 2, dividing head assembly 7, dividing head lathe bed 5, auxiliary stand 6, tailstock slide rail 4 and are connected strut 8.Numerical control plasma cutting machine 1 includes crossbeam 1-1, cross slide way 1-2, transverse slider 1-3, numerical control working head 1-4, workbench 1-5, frame 1-6, longitudinal rail 1-7, longitudinal sliding block 1-8 and connecting rod 1-9.Cross slide way 1-2 is contained on the crossbeam 1-1; Numerical control working head 1-4 is contained on the transverse slider 1-3; Transverse slider 1-3 and cross slide way 1-2 flexibly connect, and transverse slider 1-3 can slide on cross slide way 1-2, and numerical control working head 1-4 can do horizontal straight line with the slip of transverse slider 1-3 and move.Longitudinal rail 1-7 is arranged on the frame 1-6; Longitudinal sliding block 1-8 and longitudinal rail 1-7 flexibly connect; Longitudinal sliding block 1-8 is connected with crossbeam 1-1 through connecting rod 1-9; Longitudinal sliding block 1-8 can slide on longitudinal rail 1-7, and crossbeam 1-1 can do vertical straight line with the slip of longitudinal sliding block 1-8 and move.Dividing head assembly 7 includes dividing head chuck 7-1 and calibration headstock 7-2, and dividing head chuck 7-1 is a scroll chuck.Dividing head lathe bed 5 is arranged on above the auxiliary stand 6, and tailstock slide rail 4 all is arranged on above the dividing head lathe bed 5 with dividing head assembly 7.Calibration headstock 7-2 and dividing head lathe bed 5 are fixed together.Tailstock 3 is movably arranged on tailstock slide rail 4, and tailstock 3 can slide on tailstock slide rail 4.The longitudinal axis center line a of tailstock center 2 overlaps with the longitudinal axis center line b of dividing head chuck 7-1, and promptly tailstock center 2 is over against the center of dividing head chuck 7-1.The longitudinal axis center line a and the cross slide way 1-2 of tailstock center 2 parallel.The frame 1-6 of said auxiliary stand 6 and numerical control plasma cutting machine 1 is fixed together through being connected strut 8, thereby makes numerical control plasma cutting machine 1 and dividing head lathe bed 5 connect into as a whole.Crossbeam 1-1 and cross slide way 1-2 be arranged on workbench 1-5 and dividing head lathe bed 5 above.Present embodiment is with the crossbeam 1-1 of existing numerical control plasma cutting machine 1 and the outside that cross slide way 1-2 all adds the outer C face that grows to dividing head lathe bed 5, to satisfy the requirement of present embodiment to crossbeam 1-1 and cross slide way 1-2 length.
Embodiment two
Shown in Fig. 1 to 2; Present embodiment and embodiment one are basic identical; Different present embodiments is that the crossbeam 1-1 and the guide rail 1-2 that have numerical control plasma cutting machine 1 now are all extended; Be existing numerical control plasma cutting machine 1 crossbeam 1-1 and beam guideway 1-2 length 1.3~1.5 times, to satisfy the requirement of present embodiment to crossbeam 1-1 and cross slide way 1-2 length.
Operation principle of the present invention is: during work; The numerical control working head 1-4 of numerical control plasma cutting machine 1 of the present invention can do horizontal straight line with the slip of transverse slider 1-3 and move; Crossbeam 1-1 can do vertical straight line with the slip of longitudinal sliding block 1-8 and move; Thereby make numerical control working head 1-4 move to the operating position; The work piece that will be placed on the workbench 1-5 through numerical control working head 1-4 then carries out plane cutting, and the work piece that perhaps top is stuck between tailstock center 2 and the dividing head chuck 7-1 carries out the cylinder cutting.Thereby make the present invention when realizing numerical control plasma cutting machine 1 plane cutting function, can also realize that the present invention has really realized the dual-use function that plane cylinder plasma cuts to the cylinder cutting function of the metal tube of various cylindrical shapes and metal bar etc.
The invention is not restricted to the foregoing description, all employings are equal to technical scheme that replacement or equivalence replacement form and all belong to the present invention and require the scope protected.
Claims (4)
1. plane and cylinder plasma cutting all-in-one machine; Comprise numerical control plasma cutting machine (1); Numerical control plasma cutting machine (1) includes crossbeam (1-1), cross slide way (1-2), transverse slider (1-3), numerical control working head (1-4), workbench (1-5), frame (1-6), longitudinal rail (1-7) and longitudinal sliding block (1-8); Cross slide way (1-2) is arranged on the crossbeam (1-1), and numerical control working head (1-4) is arranged on the transverse slider (1-3), and transverse slider (1-3) flexibly connects with cross slide way (1-2); Longitudinal rail (1-7) is arranged on the frame (1-6); Longitudinal sliding block (1-8) flexibly connects with longitudinal rail (1-7), and longitudinal sliding block (1-8) is connected with crossbeam (1-1), it is characterized in that: also include tailstock (3), tailstock center (2), dividing head assembly (7), dividing head lathe bed (5), auxiliary stand (6), tailstock slide rail (4) and be connected strut (8); Dividing head assembly (7) includes dividing head chuck (7-1) and calibration headstock (7-2); Dividing head lathe bed (5) is arranged on above the auxiliary stand (6), and tailstock slide rail (4) and dividing head assembly (7) all are arranged on above the dividing head lathe bed (5), and tailstock (2) is movably arranged on tailstock slide rail (4); The longitudinal axis center line a of tailstock center (2) overlaps with the longitudinal axis center line b of dividing head chuck (7-1); Auxiliary stand (6) is connected with frame (1-6), crossbeam (1-1) and cross slide way (1-2) be arranged on workbench (1-5) and dividing head lathe bed (5) above, described auxiliary stand (6) is connected through being connected strut (8) with frame (1-6).
2. plane according to claim 1 and cylinder plasma cutting all-in-one machine is characterized in that: described longitudinal sliding block (1-8) is connected with crossbeam (1-1) through connecting rod (1-9).
3. plane according to claim 1 and cylinder plasma cutting all-in-one machine is characterized in that: described dividing head chuck (7-1) is a scroll chuck.
4. plane according to claim 1 and cylinder plasma cutting all-in-one machine is characterized in that: described calibration headstock (7-2) is connected with dividing head lathe bed (5).
Priority Applications (1)
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CN2010105117954A CN101961813B (en) | 2010-10-20 | 2010-10-20 | Integrated planar & cylindrical plasma cutting machine |
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CN2010105117954A CN101961813B (en) | 2010-10-20 | 2010-10-20 | Integrated planar & cylindrical plasma cutting machine |
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CN101961813A CN101961813A (en) | 2011-02-02 |
CN101961813B true CN101961813B (en) | 2012-07-25 |
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Families Citing this family (2)
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CN103418881B (en) * | 2013-08-09 | 2016-06-08 | 青岛东方铁塔股份有限公司 | Cantilevered mode digital control plasma torch shaped steel solid cutting problem machine |
CN108581152B (en) * | 2018-05-16 | 2020-12-01 | 魏传知 | Plasma hole cutting machine |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2688437Y (en) * | 2004-02-17 | 2005-03-30 | 王兴波 | Three coordinate cylindric crossing line cutter |
CN2695163Y (en) * | 2004-02-21 | 2005-04-27 | 深圳福斯特数控机床有限公司 | Digital controlled plasma (flame) cutter |
CN2702807Y (en) * | 2004-05-01 | 2005-06-01 | 符辰湛 | Vertical digital control perforating machine |
CN201848642U (en) * | 2010-10-20 | 2011-06-01 | 常州市新罗特数控机械有限公司 | Plane and cylinder plasma cutting integrated machine |
Family Cites Families (1)
Publication number | Priority date | Publication date | Assignee | Title |
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JPH06339771A (en) * | 1993-05-31 | 1994-12-13 | Metokoiru Kk | Cutting method for duct and device therefor |
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2010
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2688437Y (en) * | 2004-02-17 | 2005-03-30 | 王兴波 | Three coordinate cylindric crossing line cutter |
CN2695163Y (en) * | 2004-02-21 | 2005-04-27 | 深圳福斯特数控机床有限公司 | Digital controlled plasma (flame) cutter |
CN2702807Y (en) * | 2004-05-01 | 2005-06-01 | 符辰湛 | Vertical digital control perforating machine |
CN201848642U (en) * | 2010-10-20 | 2011-06-01 | 常州市新罗特数控机械有限公司 | Plane and cylinder plasma cutting integrated machine |
Non-Patent Citations (1)
Title |
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JP平6-339771A 1994.12.13 |
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