CN101664943A - Three-dimensional computerized numerical control sawing machine - Google Patents

Abstract

The invention discloses a three-dimensional computerized numerical control sawing machine, which mainly comprises a frame (1), longitudinal guide rails (2), an upper machine box (3), a lower machine box (4), transverse guide rails (5), a worktable support (6), an electrical control system (7), a transmission system (8) and other parts, wherein the upper machine box (3) and the lower machine box (4) are arranged on rigid frame (1) to move along the longitudinal guide rails (2) under control and move together with the frame (1) as a whole along the transverse guide rails (5) under control; a power box (401) performs a reciprocating motion to draw a tightened saw blade (301) and rotates under control to ensure a saw cutting edge direction is consistent with a saw cutting operation direction;and three-dimensional motions are monitored by a displacement sensor and fed back to the electrical control system (7) to be treated by a computer in real time, and saw cutting tracks may be various complex plane geometrical curves.

Description

Three-dimensional computerized numerical control sawing machine

Affiliated technical field

The present invention relates to a kind of sawing machinery, particularly relate to a kind of three-dimensional computerized numerical control sawing machine.

Background technology

As everyone knows, saw blade moves back and forth and processing object can be cut, and sawing can obtain the saw kerf of different shape along the desired trajectory operation.But traditional manual sawing operates that not only labour intensity is big, and crudy depends on the level of manual skill to a great extent.99126412.6 the Pneumatic saw of a kind of electric saw of patent disclosure, the multi-purpose cutting-sawing machine of 02111758.6 patent disclosure, 02132230.9 patent disclosure etc., this class sawing machinery is handheld tool; 95213641.4 carpenter's curvilinear cut machine of patent disclosure, the woodenware Figure sawing machine of 99245197.3 patent disclosures, the Winding saw bed of 01239242.1 patent disclosure, the module cutting machine of 01268623.9 patent disclosure etc., this class sawing machinery are hand steered processed object, artificial feeding advances; Known sawing machinery only is that machinery replaces manual dragsaw action, is not automation truly, still is subjected to the constraint of manual skill, can not break away from artificial factor.

Summary of the invention

Purpose of the present invention aims to provide a kind of three-dimension numerical controlled automatic sawing, cutting lathe.

The present invention partly is made up of framework 1, longitudinal rail 2, upper case 3, lower case 4, cross slide way 5, Working gantry 6, electric-control system 7 and transmission system 8 etc.

Technical scheme of the present invention is: headstock 401 produces and moves back and forth, and pulling saw blade 301 is finished stock removal action; Longitudinally guide rail 2 is controlled mobile synchronously with lower case 4 for upper case 3, upper case 3 is installed on the framework 1 with lower case 4 and longitudinal rail 2, whole along cross slide way 5 controlled moving, saw blade 301 is loaded between the following dop 410 of the upper chuck 302 of upper case 3 and lower case 4 and is tensioned, saw blade 301 is controlled rotation in reciprocal sawing, makes saw sword direction consistent with the sawing traffic direction all the time.

Framework 1 is a rigid unitary, can form by shaped steel welding or fastening connection, but also casting; Longitudinal rail 2 on the framework 1 is divided into two pairs up and down, and the longitudinal rail on top is installed cabinet 3, and the longitudinal rail of bottom is installed lower case 4; Cross slide way 5 relative ground are fixed, bearing frame 1 and dress all parts thereon; The hollow space frame that Working gantry 6 strides across framework 1 is fixed in relative ground between upper case 3 and the lower case 4, processed object 9 is fixed on the Working gantry 6, electric-control system 7 is loaded on a side of framework 1, and transmission system 8 passes upper case 3 respectively and lower case 4 is loaded on the framework 1.

The casing 305 fixed installation bevel gear mount pad 309 and the main shaft mount pads 311 of upper case 3, main shaft horizontal bevel gear 306 is right with main shaft vertically-arranged bevel gear 307 formation bevel gears, be rotatably assorted with gear mount pad 309 respectively, main shaft vertically-arranged bevel gear 307 is rotated synchronously with pinion 308, pinion 308 and gear wheel 313 engagements, gear wheel 313 rotates synchronously with main shaft 314, and main shaft 314 is rotatably assorted with main shaft mount pad 311; Main shaft cylinder 312 is loaded on main shaft mount pad 311 tops, upper chuck pull bar 303 is slidingly matched with main shaft 314 and rotates synchronously with main shaft 314, between upper chuck pull bar 303 and the main shaft 314 tensioning spring 310 is housed, but main shaft cylinder 312 ejection upper chuck pull bars 303 move in main shaft 314, and tensioning spring 310 resets upper chuck pull bar 303; Upper chuck 302 is loaded on the head of upper chuck pull bar 303, and saw blade 301 is locked by upper chuck 302 and is subjected to the tension force of tensioning spring 310 and tensioning; Machinery bar 315 is fixed on the casing 305, machinery handrail sliding sleeve lid 320 is fixed on mechanical handrail sliding sleeve 322 tops, the mechanical handrail sliding sleeve 322 of built-in spring is slidingly matched with mechanical bar 315 and casing 305, and mechanical handrail pressing plate 323 is fixed on mechanical handrail sliding sleeve 322 heads; One side of machinery bar 315 is installed mechanical handrail locating piece 316, and the locating piece axle 318 that is fixed on the mechanical handrail locating piece 316 is rotatably assorted with casing 305; Connecting rod 319 is hinged with mechanical handrail locating piece 316 and mechanical handrail pull bar 321 respectively, and mechanical handrail pull bar 321 is slidingly matched with casing 305; Spacing adjusting rod 317 1 ends are fixed on the casing 305, and the other end withstands on the mechanical handrail locating piece 316; Translation bearing 304 is installed in casing 305 both sides, and upper case 3 is controlled parallel mobile on longitudinal rail 2 with translation bearing 304.

Lower case 4 is installed with upper case 3 symmetries, gear mount pad 309 and main shaft mount pad 311 are separately fixed on the casing 305, main shaft horizontal bevel gear 306 is rotatably assorted with 307 engagements of main shaft vertically-arranged bevel gear and with gear mount pad 309, main shaft vertically-arranged bevel gear 307 is rotated synchronously with pinion 308, pinion 308 and gear wheel 313 engagements, gear wheel 313 rotates synchronously with main shaft 314, main shaft 314 is rotatably assorted with main shaft mount pad 311, following dop pull bar 404 is slidingly matched with main shaft 314 and rotates synchronously with main shaft 314, translation bearing 304 is installed in casing 305 both sides, and lower case 4 is controlled parallel mobile on longitudinal rail 2 with translation bearing 304; Following dop 410 is loaded on down dop pull bar 404 heads lockings saw blade 301, and the built-in tensioning spring 310 of the main shaft of lower case 4 and upper case 3 314 is jointly with saw blade 301 tensionings; Following dop ejection ring 411 is loaded on down dop 410 bottoms, and ejection ring guide rod 418 is uniform and fixing with following dop ejection ring 411, and ejection ring guide rod 418 is slidingly matched with ejection ring guide rod cover for seat 416, and ejection ring guide rod cover for seat 416 is fixed on the casing 305; Ejection connecting rod 414 is hinged with ejection lever 412 and following dop ejection ring 411 respectively, and the middle part of ejection lever 412 is rotatably assorted with ejection lever support 417 and connects, and ejection lever support 417 is fixed on the casing 305; The end of ejection lever 412 is rotatably assorted with an end of locking cylinder 415 and connects, and the other end of locking cylinder 415 is installed cylinder axis 413, and cylinder axis 413 is rotatably assorted with casing 305 and connects; Four jiaos of casing 305 tops plate supporting frame 407 is installed, supporting plate 406 is installed on the plate supporting frame 407, and processed object 9 is suitably compressed between plate supporting frame 407 and mechanical handrail pressing plate 323; Suction box 408 is installed between supporting plate 406 times and the plate supporting frame 407, and drilling equipment 405 is loaded on a side of lower case 4, and drilling equipment mount pad 406 is fixed on (drilling equipment also can be loaded on upper case) on the casing 305; The bottom of the casing 305 headstock installing rack 403 that is fixedly connected, headstock installing rack 403 headstock 401 that is fixedly connected, headstock power transmission shaft 402 connects the motor input torques, and the output transmission that following dop pull bar 404 connects headstocks 401 moves back and forth.

It is right with the synchronous horizontal bevel gear 804 engagement formation bevel gears of main shaft that the synchronous vertically-arranged bevel gear 803 of main shaft is installed on main shaft Synchronous Transmission vertical shaft 801 tops, the synchronous horizontal bevel gear 804 of main shaft is fixed on the end that main shaft is gone up transverse axis 807 synchronously, main shaft is gone up transverse axis 807 synchronously and main shaft horizontal bevel gear 306 is slidingly matched and rotation synchronously, main shaft horizontal bevel gear 306 and 307 engagements of main shaft vertically-arranged bevel gear, main shaft vertically-arranged bevel gear 307 is rotated synchronously with pinion 308, pinion 308 and gear wheel 313 engagements, gear wheel 313 rotates synchronously with main shaft 314; The bottom installation of main shaft Synchronous Transmission vertical shaft 801 and the identical bevel gear in top are to descending synchronously transverse axis 812 with main shaft, and electric-control system 7 rotates institute's control by main shaft Synchronous Transmission vertical shaft 801 and passes to identical mechanical drive train up and down.

Vertically Synchronous Transmission vertical shaft 802 up and down each install by vertical transmission vertically-arranged bevel gear 820 with and vertically 819 engagements of transmission horizontal bevel gear to constitute bevel gear right, vertically transmission horizontal bevel gear 804 is fixed on an end of vertically going up leading screw 808 synchronously, vertically go up leading screw 808 synchronously and vertically go up screw 809 threaded engagement synchronously, vertically go up casing 305 1 sides that screw 809 is fixed on upper case 3 synchronously; It is right that vertically synchronously down leading screw 811 is installed same bevel gear, vertically synchronously down screw 810 same with vertical leading screw 811 threaded engagement down synchronously, vertically synchronously down screw 810 be fixed on casing 305 1 sides of lower case 4 equally; Electric-control system 7 with institute control power by vertical Synchronous Transmission vertical shaft 802 pass to identical bevel gear up and down to, leading screw and screw up and down, drag the complete same moved further of lower case.

Main shaft Synchronous Transmission vertical shaft 801, vertically Synchronous Transmission vertical shaft 802, main shaft go up synchronously transverse axis 807, main shaft descend synchronously transverse axis 812, vertically go up synchronously leading screw 808 and vertically synchronous under leading screw 811 be installed on transmission installing rack 806 and the framework 1 by power transmission shaft bearing 805.

The laterally synchronous driving wheel 813 of horizontal Synchronous Transmission axle 815 two ends fixed installation, laterally synchronous driving wheel 813 meshes with the horizontal tooth bar synchronously 818 that is fixed on above the cross slide way 5, and laterally driven pulley 814 and cross slide way 5 coincide synchronously; Driving wheel mount pad 816 and driven pulley mount pad 817 are fixedly connected with framework 1, and laterally driving wheel 813 is rotatably assorted with driving wheel mount pad 816 synchronously, and laterally driven pulley 814 is rotatably assorted with driven pulley mount pad 817 synchronously; Electric-control system 7 connects with horizontal Synchronous Transmission axle 815, and horizontal parallel amount of movement precisely transmits execution.

Translation is rotated sawing and is constituted three-dimension numerical controlled processing, and displacement transducer is monitored feedback in real time, the accurate processing of computer.

Beneficial effect of the present invention is:

Supermatic three-dimension numerical controlled sawing processing, comprise lift saw, wear saw, fixing and tensioning saw blade finishes by computer control automatically up to a series of actions such as sawings, operating personnel change workpiece, change saw blade and the input Processing Curve except dress, and remaining work just monitors process.

Precisely reliable Synchronous Transmission, what identical driving-chain made lower case has machine tool accuracy synchronously, mechanically operated accuracy and speed make the efficient and precision of sawing have hardware to guarantee, the real-time monitoring feedback of three-dimensional motion makes the processing instruction system not have accumulated error.

Saw track can be continuously, plane geometric figure interrupted and that make up arbitrarily, and processing dimension, material, saw blade specification etc. are unrestricted, and product development, kind are changed convenient and swift.

Energy-conserving and environment-protective, power consumption are less than 1/10th of Laser Processing, and negative pressure suction drilling cuttings is sawed powder, clean operation environment.

Standard component, shaped steel assembling, making is easy, cost is low, is convenient to maintenance, simple to operate.

Description of drawings

Fig. 1: three-dimensional computerized numerical control sawing machine is always schemed

Fig. 2: upper case three-dimensional structure diagram

Fig. 3: lower case three-dimensional structure diagram

Fig. 4: transmission system stereogram

Among the figure:

404 times dop pull bars of 1 framework

2 longitudinal rails, 405 drilling equipments

3 upper cases, 406 drilling equipment mount pads

4 lower cases, 407 plate supporting frames

5 cross slide waies, 408 suction boxs

6 Working gantries, 409 supporting plates

410 times dops of 7 electric-control systems

411 times dop ejections of 8 transmission systems ring

9 processed object 412 ejection levers

301 saw blades, 413 cylinder axis

302 upper chucks, 414 ejection connecting rods

303 upper chuck pull bars, 415 locking cylinders

304 translation bearings, 416 ejection ring guide rod cover for seat

305 casings, 417 ejection lever supports

306 main shaft horizontal bevel gears, 418 ejection ring guide rods

307 main shaft vertically-arranged bevel gears, 801 main shaft Synchronous Transmission vertical shafts

308 pinions, 802 vertical Synchronous Transmission vertical shafts

The synchronous vertically-arranged bevel gear of 309 bevel gear mount pads, 803 main shafts

The synchronous horizontal bevel gear of 310 tensioning springs, 804 main shafts

311 main shaft mount pads, 805 power transmission shaft bearings

312 main shaft cylinders, 806 transmission installing racks

313 gear wheels, 807 main shafts are gone up transverse axis synchronously

314 main shafts 808 are vertically gone up leading screw synchronously

315 mechanical bars 809 are vertically gone up screw synchronously

The vertically synchronous screw down of 316 mechanical handrail locating pieces 810

The vertically synchronous leading screw down of 317 spacing adjusting rods 811

318 locating piece axles, 812 main shafts descend transverse axis synchronously

319 connecting rods, 813 laterally synchronous driving wheels

320 mechanical handrail sliding sleeve lid 814 laterally synchronous driven pulleys

321 mechanical handrail pull bar 815 horizontal Synchronous Transmission axles

322 mechanical handrail sliding sleeve 816 driving wheel mount pads

323 mechanical handrail pressing plate 817 driven pulley mount pads

401 headstocks, 818 laterally synchronous tooth bars

402 headstock power transmission shafts, 819 vertical transmission horizontal bevel gears

403 headstock installing racks, 820 vertical transmission vertically-arranged bevel gears

The specific embodiment

The invention will be further described with by way of example below in conjunction with accompanying drawing.

It is a rigid unitary (also can cast and form) that framework 1 is connected by shaped steel, and longitudinal rail 2 is installed in the both sides of framework 1, and cross slide way 5 relative ground fixedly are loaded under the framework 1; Upper case 3 and lower case 4 are loaded on respectively on the longitudinal rail 2, the hollow space frame that Working gantry 6 strides across framework 1 is fixed (cross slide way 5 can combine as a whole with Working gantry 6) in relative ground between upper case 3 and the lower case 4, processed object 9 is fixed on the Working gantry 6, and saw blade 301 is loaded between the following dop 410 of the upper chuck 302 of upper case 3 and lower case 4 and is tensioned; Electric-control system 7 is loaded on a side of framework 1, and transmission system 8 passes upper case 3 respectively and lower case 4 is loaded on the framework 1.

It is right that upper case 3 interior installations constitute bevel gear by main shaft horizontal bevel gear 306 and main shaft vertically-arranged bevel gear 307, main shaft horizontal bevel gear 306 goes up with main shaft that transverse axis 807 is slidingly matched and rotation synchronously synchronously, main shaft vertically-arranged bevel gear 307 is rotated synchronously with pinion 308, pinion 308 and gear wheel 313 engagements, gear wheel 313 rotates synchronously with main shaft 314, and upper chuck pull bar 303 is slidingly matched with main shaft 314 and rotates synchronously; It is right that lower case 4 interior same installations constitute bevel gear by main shaft horizontal bevel gear 306 and main shaft vertically-arranged bevel gear 307, main shaft horizontal bevel gear 306 descends transverse axis 812 to be slidingly matched synchronously with main shaft, following dop pull bar 404 is slidingly matched with main shaft 314, and main shaft descends transverse axis 812 rotating spindle horizontal bevel gears 306, main shaft vertically-arranged bevel gear 307, pinion 308, gear wheel 313, main shaft 314 to reach dop pull bar 404 down synchronously; Identical up and down driving-chain connects with the power output of electric-control system 7 by same main shaft Synchronous Transmission vertical shaft 801, upper chuck pull bar 303 and following dop pull bar 404 are rotated fully synchronously, the saw blade 301 that guarantees the two clamping is in reciprocal sawing, and the sawing direction is consistent with translation direction all the time.

The screw that is fixed in lower case respectively with vertically go up leading screw 808 and vertical leading screw 811 threaded engagement down synchronously synchronously, up and down leading screw by by vertical transmission horizontal bevel gear 819 and vertically transmission vertically-arranged bevel gear 820 constitute bevel gear and pair connect with vertical Synchronous Transmission vertical shaft 802, vertically Synchronous Transmission vertical shaft 802 connects with electric-control system 7, and longitudinally guide rail 2 is parallel mobile with translation bearing 304 identical ground to drag lower case.

Framework is laid cross slide way 51 time, laterally synchronous driving wheel 813 and horizontal driven pulley 814 synchronously are installed on the cross slide way 5, laterally driving wheel 813 is fixed on horizontal Synchronous Transmission axle 815 two ends and laterally tooth bar 818 engagements synchronously that are fixed on above the cross slide way 5 synchronously, laterally driven pulley 814 coincide with cross slide way 5 synchronously, and electric-control system 7 connects horizontal Synchronous Transmission axle 815 and drags control framework 1 all the time along cross slide way 5 parallel moving.

Last lower case vertically moves and the whole plane motion of laterally moving the formation sawing of framework synchronously, and last lower case main shaft rotates synchronously and makes the sawing direction consistent all the time with the translation direction; The three-dimensional motion that sawing translation and rotation thereof are constituted feeds back to electric-control system 7 by the displacement transducer monitoring, and machine is handled in real time as calculated, sends sawing processing instruction, guarantees that each step action is accurate.

Drilling equipment 405 is loaded on a side of lower case 4, and drilling equipment mount pad 406 is fixed on the casing 305; Spur mechanical handrail pull bar 321, mechanical handrail sliding sleeve lid 320 breaks away from the support of mechanical handrail locating piece 316, and mechanical handrail pressing plate 323 is pressed on the processed object 9 thereupon, and thrust can be by regulating the decrement that is contained in mechanical handrail sliding sleeve 322 inner springs; Electric-control system 7 keyhole devices 405 are in the punching of the precalculated position of processed object 9, one end of saw blade 301 inserts upper chuck 302 and locking, main shaft cylinder 312 ejection upper chuck pull bars 303, the upper chuck 302 that is loaded on the head of upper chuck pull bar 303 moves down, the other end of saw blade 301 passes the hole of having accomplished fluently thereupon and inserts dop 410 down, ejection lever 412 lifts dop ejection ring 411 down under the effect of locking cylinder 415, inserting down, the saw blade 301 of dop 410 is locked; The following dop pull bar 404 of dop 410 is strained saw blade 301 under the effect that is loaded on main shaft 314 internal tension springs 310 with the upper chuck pull bar 303 that connects upper chuck 302 under connecting, headstock 401 is fixing with casing 305 by headstock installing rack 403, the output of headstock 401 connects dop pull bar 404 down, and the reciprocating motion that headstock 401 produces passes to saw blade 301 and forms sawing; The supporting plate 406 that is fixed on the lower case 4 suitably compresses processed object 9 jointly with mechanical handrail pressing plate 323, auxiliary bore hole and sawing action; Lift mechanical handrail, promptly be stuck after the lower surface of mechanical handrail sliding sleeve lid 320 arrives mechanical handrail locating piece 316, mechanical handrail pressing plate 323 and the suitable distance of supporting plate 406 maintenances are so that be installed or change processed object 9 and saw blade 301.

For the situation that saw kerf need be interrupted, promptly processed object 9 needs to keep the gap bridge of some, and electric-control system 7 is according to predetermined distribution optimization procedure of passing a bridge, and each makes a call to a hole in the gap bridge both sides; When sawing ran to bridge opening, following dop 410 is decontroled saw blade 301 automatically, upper chuck 302 lifts, move on to another and cross the bridge opening place, main shaft cylinder 312 ejection upper chuck pull bars 303, upper chuck 302 moves down immediately, and saw blade 301 inserts dop 410 down once more, locking cylinder 415 is with saw blade 301 lockings, and sawing is proceeded; When running into that saw blade fractures or during other improper situation, following dop 410 can be decontroled saw blades 301 equally automatically, upper chuck 302 saw blade to be replaced such as lifts or fixes a breakdown, and sawing is proceeded then.

Casing 305 relative saw blade 301 symmetries of last lower case, drilling equipment 405 also can be loaded on upper case 3, is convenient to observe the boring result but be loaded on lower case 4, also is convenient to cleaning boring overlap and burr; Supporting plate 406 and be fixed on suction box 408 is installed between the plate supporting frame 407 on the casing 305, supporting plate 406 and suction box 408 form the negative pressure space of sealing, and in time row takes out drilling cuttings and saw powder, keeps clean operation environment.

The translation rotation three-dimensional motion of electric-control system 7 control sawings, the reciprocal sawing of headstock 401 pulling saw blade 301 high frequencies, saw track can be set at various complex plane geometrical curves, realizes supermatic three-dimension numerical controlled sawing processing.

Claims (7)

1. a three-dimensional computerized numerical control sawing machine comprises: framework (1), longitudinal rail (2), upper case (3), lower case (4), cross slide way (5), Working gantry (6), electric-control system (7) and transmission system parts such as (8), it is characterized in that: the framework of rigid structure (1) is gone up two pairs of longitudinal rails of parallel installation (2), upper case (3) is installed in longitudinal rail (2) with lower case (4), and upward and synchronously longitudinally guide rail (2) is controlled mobile, framework (1) and dress all parts thereon move along cross slide way (5) is controlled as a whole, headstock (401) is loaded on lower case (4) and produces the saw blade (301) that the reciprocating motion pulling is tensioned, upper case (3) and the interior controlled synchronous rotation of adorning of main shaft (314) of lower case (4), the sawing plane is consistent with the sawing direction all the time, and three-dimensional motion feeds back to electric-control system (7) by the displacement transducer monitoring and handles in real time.

2. three-dimensional computerized numerical control sawing machine according to claim 1 is characterized in that: the relative saw blade of casing (305) (301) symmetry of upper case (3) and lower case (4), and the driving-chain of last lower case is identical; Bevel gear mount pad (309), main shaft mount pad (311), last screw (809) and following screw (810) and casing (305) fixed installation, main shaft horizontal bevel gear (306) and main shaft vertically-arranged bevel gear (307) and bevel gear mount pad (309) are rotatably assorted and install that to constitute bevel gear right, the installation that is rotatably assorted of main shaft (314) and main shaft mount pad (311), main shaft vertically-arranged bevel gear (307) is rotated synchronously with pinion (308), pinion (308) and gear wheel (313) engagement, gear wheel (313) rotates synchronously with main shaft (314), upper chuck pull bar (303) is slidingly matched with main shaft (314) and rotates synchronously with main shaft (314), dress tensioning spring (310) in the main shaft (314), upper chuck (302) is loaded on the head of upper chuck pull bar (303), following dop (302) is loaded on down the head of dop pull bar (303), main shaft is gone up transverse axis (807) synchronously and main shaft descends transverse axis (812) to be slidingly matched with main shaft horizontal bevel gear (306) respectively synchronously and rotation synchronously, transverse axis (807) gone up synchronously by main shaft and main shaft descends fixing synchronous horizontal bevel gear of main shaft (804) in transverse axis (812) end and the synchronous vertically-arranged bevel gear of main shaft (803) engagement that is fixed on the main shaft Synchronous Transmission vertical shaft (801) synchronously, last screw (809) and vertical leading screw (808) threaded engagement that goes up synchronously, following screw (810) and vertical synchronous leading screw (811) threaded engagement down, vertically go up fixing vertical transmission horizontal bevel gear (804) in leading screw (808) and vertically synchronous leading screw (811) end down and vertical transmission vertically-arranged bevel gear (818) engagement that is fixed on vertical Synchronous Transmission vertical shaft (802) synchronously, main shaft Synchronous Transmission vertical shaft (801) and vertical Synchronous Transmission vertical shaft (802) connect with electric-control system (7) respectively.

3. three-dimensional computerized numerical control sawing machine according to claim 1, it is characterized in that: framework (1) is laid cross slide way (5) down, laterally synchronous driving wheel (813) and laterally synchronous driven pulley (814) are installed on it, laterally driving wheel (813) is fixed on horizontal Synchronous Transmission axle (815) two ends and laterally tooth bar (816) engagement synchronously that is fixed on above the cross slide way (5) synchronously, laterally driven pulley (814) coincide with cross slide way (5) synchronously, and electric-control system (7) connects horizontal Synchronous Transmission axle (815).

4. three-dimensional computerized numerical control sawing machine according to claim 1, it is characterized in that: drilling equipment (405) is loaded on a side of lower case (4), drilling equipment mount pad (406) is fixed on the casing (305), and electric-control system (7) keyhole device (405) is in the punching of the precalculated position of processed object (9).

5. three-dimensional computerized numerical control sawing machine according to claim 1 is characterized in that: Working gantry (6) is loaded between upper case (3) and the lower case (4) relative ground and fixes, and processed object (9) is fixed on the Working gantry (6); The machinery handrail puts down, and the supporting plate (406) that is loaded on the lower case (4) suitably compresses processed object (9) jointly with the mechanical handrail pressing plate (323) that is loaded on lower case (3), auxiliary bore hole and sawing action; The machinery handrail lifts, and is stuck on the mechanical handrail locating piece (316), and mechanical handrail pressing plate (323) keeps suitable distance with supporting plate (406), so that install or change processed object (9) and saw blade (301).

6. three-dimensional computerized numerical control sawing machine according to claim 1 is characterized in that: suction box (408) is installed under the supporting plate (406) and forms negative pressure space, and in time row takes out drilling cuttings and saw powder.

7. three-dimensional computerized numerical control sawing machine according to claim 1, it is characterized in that: an end of saw blade (301) inserts upper chuck (302) and locking, main shaft cylinder (312) ejection upper chuck pull bar (303), the upper chuck (302) that is loaded on the head of upper chuck pull bar (303) moves down, the other end of saw blade (301) passes from the hole of having accomplished fluently thereupon and inserts dop (410) down, ejection lever (412) lifts dop ejection ring (411) down under the effect of ejection cylinder (415), saw blade (301) is locked.

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