CN202640491U - Numerical control woodworking lathe and engraving integrated machine - Google Patents
Numerical control woodworking lathe and engraving integrated machine Download PDFInfo
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- CN202640491U CN202640491U CN 201220310701 CN201220310701U CN202640491U CN 202640491 U CN202640491 U CN 202640491U CN 201220310701 CN201220310701 CN 201220310701 CN 201220310701 U CN201220310701 U CN 201220310701U CN 202640491 U CN202640491 U CN 202640491U
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Abstract
The utility model relates to a numerical control woodworking lathe and engraving integrated machine and belongs to the technical field of woodworking machinery. The numerical control woodworking lathe and engraving integrated machine comprises a machine frame, a transverse beam, a vertical driving mechanism, a cutter device, a transverse driving mechanism, a longitudinal driving mechanism and a workpiece clamping driving mechanism, wherein the transverse beam is arranged at the upper part of the machine frame; the vertical driving mechanism is arranged on the transverse beam and comprises a driving motor I, a motor fixed base I, a sliding block I, a vertical guide rail, a screw rod I, a connecting block I, a vertical guide rail mounting plate and a vertical carriage plate; the cutter device comprises a cutter frame, a lathe tool frame, an engraving cutter, a lathe tool, a lathe tool fixed plate, an adjusting screw and a motor; the longitudinal driving mechanism comprises a longitudinal workbench, a longitudinal guide rail, a sliding block IV, a driving motor III, a motor fixed pedestal III, a screw rod III, a connecting block III and a bearing supporting block III; and the transverse driving mechanism comprises a transverse workbench, a transverse guide rail, a sliding block III, a driving motor II, a motor fixed base II, a screw rod II, a connecting block II and a bearing supporting block II.
Description
Technical field
The utility model relates to a kind of numerical-control wood processing lathe, engraving all-in-one machine, belong to the woodworking machinery technical field.
Background technology
In the prior art, if carpenter's workpiece need to be realized the processing of turning and engraving, need on wood-turning machine and wood-worker engraving machine, successively to finish separately respectively, because wood-turning machine and engraving machine all need workpiece is carried out accurate fixed point location, in the situation of existing manual positioning, can't realize accurate fusion, reduce the machining accuracy of carpenter's workpiece.Existing wood-turning machine only has one to two processing stations in addition, because the workpiece of some wooden part for producing in enormous quantities, or standard component, therefore the hardness ag(e)ing rate is lower, simultaneously most lathes adopt manual operations or regulate the position of processing work, automaticity is lower, the wood-turning machine of existing two stations such as Chinese patent 200720158288.0, its disclosed two machining position designs for vertical direction, be not easy to install carpenter's workpiece, if and the processing that landing or fracture will affect the workpiece of following station occurs the carpenter's workpiece on the top station, cause fluctuation of service.
Summary of the invention
The purpose of this utility model is for above-mentioned the deficiencies in the prior art part, provides that a kind of efficient is higher, automaticity is high, easy operating, stable numerical-control wood processing lathe, engraving all-in-one machine.It has the energy multistation simultaneously by the axle center rotational workpieces, and can finish simultaneously in batches turning and the engraving process of carpenter's workpiece.
The utility model numerical-control wood processing lathe, engraving all-in-one machine are to be achieved through the following technical solutions:
A kind of numerical-control wood processing lathe, engraving all-in-one machine comprise frame, crossbeam, vertical driving mechanism, cutter arrangement, transversal driving mechanism, longitudinal driving mechanism, piece-holder driving mechanism.
Crossbeam is installed in upper rack, and vertical driving mechanism is installed on the crossbeam.Described vertical driving mechanism comprises drive motors one, motor fixing seat one, slide block one, perpendicular guide rail, screw mandrel one, contiguous block one, perpendicular guide rails assembling plate and perpendicular planker, perpendicular guide rails assembling plate is installed on the crossbeam, perpendicular guide rails assembling is on perpendicular guide rails assembling plate, on the perpendicular guide rail slide block one is installed, drive motors one is installed on the perpendicular guide rails assembling plate by motor fixing seat one, screw mandrel one is installed on the perpendicular guide rails assembling plate by bearings piece one, screw mandrel one links to each other with drive motors one output shaft, contiguous block one is installed in screw mandrel one, can move around along screw mandrel one; Perpendicular planker is installed on the slide block one, links to each other with contiguous block one.
Cutter arrangement comprises toolframe, tool holder, engraving cutter, lathe tool, lathe tool fixed head, set screw and motor, and toolframe is installed on the perpendicular planker, and motor is installed on the toolframe, and the engraving cutter is installed on the motor output shaft.Lathe tool is installed on the tool holder by the lathe tool fixed head, and tool holder is installed on the toolframe by set screw, has set screw on the tool holder regulating tank is installed, and can fix and regulate the upper-lower position of tool holder on toolframe.
Drive motors one drives screw mandrel one rotation, drives contiguous block one and moves up and down, and the perpendicular planker of drive moves up and down again, thereby drives the engraving cutter bottom and top feed motion by the motor-driven High Rotation Speed on the toolframe, carves carpenter's workpiece.
Drive motors one drives screw mandrel one rotation, drives contiguous block one and moves up and down, and the perpendicular planker of drive moves up and down again, thereby drives the lathe tool bottom and top feed motion on the tool holder, comes turning carpenter workpiece.
Longitudinal driving mechanism comprises vertical workbench, vertical guide rail, slide block four, drive motors three, motor firm banking three, screw mandrel three, contiguous block three and bearings piece three.Vertical guide rails assembling is on frame, vertically workbench is installed on the vertical guide rail by slide block four, screw mandrel three is installed on the frame by bearings piece three, contiguous block three is installed in vertical workbench bottom and matches with screw mandrel three, can do along screw mandrel three and vertically move, drive motors three is fixedly mounted on the frame by motor fixing seat three, and screw mandrel three links to each other with the output shaft of drive motors three.Described vertical guide rail adopts rectangular guideway.
Because vertically workbench is installed on the vertical guide rail by slide block four, contiguous block three is installed in vertical workbench bottom and matches with screw mandrel three, when drive motors three drives screw mandrel three rotation, will drive vertical workbench by contiguous block three and vertically slidably reciprocate along vertical guide rail.
Transversal driving mechanism comprises horizontal work level, cross rail, slide block three, drive motors two, motor fixing seat two, screw mandrel two, contiguous block two, bearings piece two.Cross rail is installed on vertical workbench, horizontal work level is installed on the cross rail by slide block three, screw mandrel two is installed on vertical workbench by bearings piece two, and drive motors two is installed on vertical workbench by motor fixing seat two, and screw mandrel two is connected with drive motors two output shafts.
Because horizontal work level is installed on the cross rail by slide block three, screw mandrel two is installed on vertical workbench by bearings piece two, when drive motors two drives screw mandrel two rotation, will drive horizontal work level by contiguous block two and pass through slide block three along the cross rail transverse shifting.
The piece-holder driving mechanism comprises piece-holder guide rail, cushion block two, slide block two, top installing plate, top, cushion block one, Workpiece clamping head installing plate, Workpiece clamping head assembly, drive motors four, decelerator, shaft joint, turning motor and driving belt.Cushion block two is installed in horizontal work level top, and the piece-holder guide rails assembling is on cushion block two tops, and slide block two is fixed on top installing plate bottom, and top installing plate is installed on the piece-holder guide rail by slide block two, can move around along the piece-holder guide rail.The Workpiece clamping head installing plate is fixed on cushion block two tops by cushion block one, the Workpiece clamping head assembly is installed on the Workpiece clamping head installing plate by decelerator, several decelerators are in series by shaft joint, drive motors four is installed in Workpiece clamping head installing plate one side, and the power shaft of the decelerator of close drive motors four links to each other with the output shaft of drive motors four.The turning motor is installed in Workpiece clamping head installing plate bottom, and the turning motor is by belt pulley, driving belt transmission Workpiece clamping head assembly.
Described Workpiece clamping head assembly comprises belt pulley, drive flange, plane bearing, reducer output shaft, bearing one, bearing two, Workpiece clamping head, set bolt and switching bolt.Drive flange, plane bearing are fixedly mounted on the reducer output shaft, at belt pulley one end bearing one are housed, and the other end is equipped with bearing two, and belt pulley is installed on the reducer output shaft, and the belt pulley front end is equipped with Workpiece clamping head and adopts set bolt to fix.
When the utility model numerical-control wood processing lathe, engraving all-in-one machine need to carry out carpenter's workpiece engraving, by set screw tool holder is moved up first, in order to do not affect the work of graver, then switching bolt is installed is connected belt pulley with drive flange, drive motors four gearing speed-reducers 39 drive drive flange, belt pulley rotates jointly, thereby drive the Workpiece clamping head rotation so that carpenter's workpiece is finished the rotation engraving.Turning this moment motor quits work, and the utility model numerical-control wood processing lathe, engraving all-in-one machine only carry out Carving Machining to carpenter's workpiece and do not carry out turning processing.
The utility model numerical-control wood processing lathe, when engraving all-in-one machine need to carry out the turning of carpenter's workpiece, by set screw tool holder is moved down, guarantee that the engraving cutter on the toolframe does not affect cutting, then switching bolt is unloaded, drive flange will separate with belt pulley, at this moment start the turning motor by the rotation of driving belt driving pulley, thereby drive the Workpiece clamping head rotation so that carpenter's workpiece is finished rotation turning.
At horizontal work level carpenter's workpiece is installed, by Workpiece clamping head and top clamping, drive motors four gearing speed-reducers, decelerator drives the Workpiece clamping head assembly and rotates, thereby so that the carpenter's workpiece that is installed on the Workpiece clamping head rotate synchronously.
Described drive motors 1, drive motors 2 26, drive motors 3 24 and drive motors 4 36 all adopt commercially available servomotor.
In above-mentioned numerical-control wood processing lathe, the engraving all-in-one machine, described turning motor, drive motors one, drive motors two, drive motors three and drive motors four all are connected with the electronic numerical control system.Each drive motors is controlled by the electronic numerical control system.The electronic numerical control system here all can buy from the market, under the control of electronic numerical control system, the perpendicular planker of step control, horizontal work level and vertical movable workbench according to programming, with the rotation of control Workpiece clamping head assembly, realize that engraving cutter, lathe tool carry out four-dimensional stereo carving and turning to carpenter's workpiece.
Above-mentioned four-dimensional stereo carving and turning refer to, vertical driving mechanism drives perpendicular planker and moves up and down along perpendicular guide rail, realize the engraving cutter, movement on the lathe tool vertical direction, transversal driving mechanism drives horizontal work level and realizes that carpenter's workpiece is with respect to the engraving cutter, the lathe tool transverse shifting, longitudinal driving mechanism drives vertical workbench and realizes that carpenter's workpiece is with respect to the engraving cutter, lathe tool movement in the vertical, it is relative and carve cutter that the piece-holder driving mechanism drives carpenter's workpiece of Workpiece clamping head and top clamping, lathe tool rotates, thereby has realized four-dimensional stereo carving and turning to carpenter's workpiece.
In above-mentioned numerical-control wood processing lathe, the engraving all-in-one machine, described engraving cutter, lathe tool, top, decelerator and Workpiece clamping head assembly all arrange 2 at least, and quantity is corresponding one by one.
The utility model numerical-control wood processing lathe, engraving all-in-one machine compared with prior art advantage are as follows:
1, the utility model numerical-control wood processing lathe, engraving all-in-one machine, integrate numerical-control wood processing lathe and digital controlled stereo engraving all-in-one machine technology, carpenter's workpiece that it has the turning treated and engraving carries out synchronous pinpoint location, after finishing, the turning step need not again clamping workpiece, directly at numerical-control wood processing lathe on the same stage, the enterprising line number control engraving of engraving all-in-one machine, improve the machining accuracy of carpenter's workpiece, reduced human cost and the equipment cost of enterprise.
2, the utility model numerical-control wood processing lathe, engraving all-in-one machine have the energy multistation simultaneously by the axle center rotational workpieces, and can finish the in batches turning process of carpenter's workpiece.Change the present situation that existing wood-turning machine only has 1 to 2 station, the processing stations of at least 3 carpenter's workpiece has been set, greatly improved the efficient of carpenter's workpiece processing, saved manpower and the cost of electric energy, played energy-saving and cost-reducing effect.
3, the utility model numerical-control wood processing lathe, engraving all-in-one machine adopt horizontal direction design station, are convenient to install a plurality of carpenter's workpiece, and each station horizontal direction independent operating, so that the turning operation is more stable.
Description of drawings
The utility model is described in further detail below with reference to accompanying drawing:
Fig. 1 is that the master of the utility model numerical-control wood processing lathe, engraving all-in-one machine looks perspective view.
Fig. 2 is the rear perspective structural representation of the utility model numerical-control wood processing lathe, engraving all-in-one machine.
Fig. 3 is the perspective view of removing toolframe, tool holder and clamping device of the utility model numerical-control wood processing lathe, engraving all-in-one machine.
Fig. 4 is the Workpiece clamping head modular construction schematic diagram of the utility model numerical-control wood processing lathe, engraving all-in-one machine.
Among the figure, 1, crossbeam, 2, frame, 3, perpendicular guide rails assembling plate, 4, perpendicular planker, 5, slide block one, 6, drive motors one, 7, motor fixing seat one, 8, perpendicular guide rail, 9, bearings piece one, 10, screw mandrel one, 11, contiguous block one, 12, bearings piece two, 13, contiguous block two, 14, slide block three, 15, cross rail, 16, vertical workbench, 17, screw mandrel two, 18, horizontal work level, 19, bearings piece three, 20, contiguous block three, 21, screw mandrel three, 22, slide block four, 23, vertical guide rail, 24, drive motors three, 25, motor fixing seat three, 26, drive motors two, 27, motor fixing seat two, 28, the piece-holder guide rail, 29, slide block two, 30, toolframe, 31, the Workpiece clamping head installing plate, 32, top installing plate, 33, top, 34, the Workpiece clamping head assembly, 34-1, bearing one, 34-2, plane bearing, 34-3, drive flange, 34-4, reducer output shaft, 34-5, belt pulley, 34-6, switching bolt, 34-7, bearing two, 34-8, set bolt, 34-9, Workpiece clamping head, 35, motor, 36, drive motors four, 37, cushion block one, 38, cushion block two, 39, reductor, 40, shaft joint, 41, the engraving cutter, 42, tool holder, 43, lathe tool, 44, the lathe tool fixed head, 45, set screw, 46, driving belt, 47, the turning motor.
The specific embodiment
With reference to accompanying drawing 1,2,3,4, a kind of numerical-control wood processing lathe, engraving all-in-one machine comprise frame, crossbeam, vertical driving mechanism, cutter arrangement, transversal driving mechanism, longitudinal driving mechanism, piece-holder driving mechanism.
Crossbeam 1 is installed in frame 2 tops, and vertical driving mechanism is installed on the crossbeam 1.Described vertical driving mechanism comprises drive motors 1, motor fixing seat 1, slide block 1, perpendicular guide rail 8, screw mandrel 1, contiguous block 1, perpendicular guide rails assembling plate 3 and perpendicular planker 4, perpendicular guide rails assembling plate 3 is installed on the crossbeam 1, perpendicular guide rail 8 is installed on the perpendicular guide rails assembling plate 3, on the perpendicular guide rail 8 slide block 1 is installed, drive motors 1 is installed on the perpendicular guide rails assembling plate 3 by motor fixing seat 1, screw mandrel 1 is installed on the perpendicular guide rails assembling plate 3 by bearings piece 1, screw mandrel 1 links to each other with drive motors one 6 output shafts, contiguous block 1 is installed in screw mandrel 1, can move around along screw mandrel 1; Perpendicular planker 4 is installed on the slide block 1, links to each other with contiguous block 1.
Cutter arrangement comprises toolframe 30, tool holder 42, engraving cutter 41, lathe tool 43, lathe tool fixed head 44, set screw 45 and motor 35, toolframe is installed on the perpendicular planker 4, motor 35 is installed on the toolframe 30, and engraving cutter 41 is installed on motor 35 output shafts.Lathe tool 43 is installed on the tool holder 42 by lathe tool fixed head 44, and tool holder 42 is installed on the toolframe 30 by set screw 45, has set screw 45 on the tool holder 42 regulating tank is installed, and can fix and regulate the upper-lower position of tool holder 42 on toolframe 30.
Longitudinal driving mechanism comprises vertical workbench 16, vertical guide rail 23, slide block 4 22, drive motors 3 24, motor firm banking 3 25, screw mandrel 3 21, contiguous block 3 20 and bearings piece 3 19.Vertical guide rail 23 is installed on the frame 2, vertically workbench 16 is installed on the vertical guide rail 23 by slide block 4 22, screw mandrel 3 21 is installed on the frame 2 by bearings piece 3 19, contiguous block 3 20 is installed in vertical workbench 16 bottoms and matches with screw mandrel 3 21, can do along screw mandrel 3 21 and vertically move, drive motors 3 24 is fixedly mounted on the frame 2 by motor fixing seat 3 25, and screw mandrel 3 21 links to each other with the output shaft of drive motors 3 24.Described vertical guide rail 23 adopts rectangular guideway.
Because vertically workbench 16 is installed on the vertical guide rail 23 by slide block 4 22, contiguous block 3 20 is installed in vertical workbench 16 bottoms and matches with screw mandrel 3 21, when drive motors 3 24 drives screw mandrel 3 21 rotation, will drive vertical workbench 16 by contiguous block 3 20 and vertically slidably reciprocate along vertical guide rail 23.
Transversal driving mechanism comprises horizontal work level 18, cross rail 15, slide block 3 14, drive motors 2 26, motor fixing seat 2 27, screw mandrel 2 17, contiguous block 2 13, bearings piece 2 12.Cross rail 15 is installed on vertical workbench 16, horizontal work level 18 is installed on the cross rail 15 by slide block 3 14, screw mandrel 2 17 is installed on vertical workbench 16 by bearings piece 2 12, drive motors 2 26 is installed on vertical workbench 16 by motor fixing seat 2 27, and screw mandrel 2 17 is connected with drive motors 2 26 output shafts.
Because horizontal work level 18 is installed on the cross rail 15 by slide block 3 14, screw mandrel 2 17 is installed on vertical workbench 16 by bearings piece 2 12, when drive motors 2 26 drives screw mandrel 2 17 rotation, will drive horizontal work level 18 by contiguous block 2 13 and pass through slide block 3 14 along cross rail 15 transverse shiftings.
The piece-holder driving mechanism comprises piece-holder guide rail 28, cushion block 2 38, slide block 2 29, top installing plate 32, top 33, cushion block 1, Workpiece clamping head installing plate 31, Workpiece clamping head assembly 34, drive motors 4 36, decelerator 39, shaft joint 40, turning motor 47 and driving belt 46.Cushion block 2 38 is installed in horizontal work level 18 tops, piece-holder guide rail 28 is installed in cushion block 2 38 tops, slide block 2 29 is fixed on top installing plate 32 bottoms, and top installing plate 32 is installed on the piece-holder guide rail 28 by slide block 2 29, can move around along piece-holder guide rail 28.Workpiece clamping head installing plate 31 is fixed on cushion block 2 38 tops by cushion block 1, Workpiece clamping head assembly 34 is installed on the Workpiece clamping head installing plate 31 by decelerator 39, several decelerators 39 are in series by shaft joint, drive motors 4 36 is installed in Workpiece clamping head installing plate 31 1 sides, and the power shaft of the decelerator 39 of close drive motors 4 36 links to each other with the output shaft of drive motors 4 36.Turning motor 47 is installed in Workpiece clamping head installing plate 31 bottoms, and turning motor 47 is by belt pulley 34-5, driving belt 46 transmission Workpiece clamping head assemblies 34.
Described Workpiece clamping head assembly 34 comprises belt pulley 34-5, drive flange 34-3, plane bearing 34-2, reducer output shaft 34-4, bearing one 34-1, bearing two 34-7, Workpiece clamping head 34-9, set bolt 34-8 and switching bolt 34-6.Drive flange 34-3, plane bearing 34-2 are fixedly mounted on the reducer output shaft 34-4, at belt pulley 34-5 one end bearing one 34-1 is housed, the other end is equipped with bearing two 34-7, belt pulley 34-5 is installed on the reducer output shaft 34-4, and belt pulley 34-5 front end is equipped with Workpiece clamping head 34-9 and adopts set bolt 34-8 to fix.
When the utility model numerical-control wood processing lathe, engraving all-in-one machine need to carry out carpenter's workpiece engraving, by set screw 45 tool holder 42 is moved up first, in order to do not affect the work of graver, then switching bolt 34-6 is installed is connected belt pulley 34-5 with drive flange 34-3, drive motors 4 36 gearing speed-reducers 39 drive drive flange 34-3, belt pulley 34-5 and jointly rotate, thereby drive Workpiece clamping head 34-9 rotation so that carpenter's workpiece is finished the rotation engraving.Turning this moment motor 47 quits work, and the utility model numerical-control wood processing lathe, engraving all-in-one machine only carry out Carving Machining to carpenter's workpiece and do not carry out turning processing.
The utility model numerical-control wood processing lathe, when engraving all-in-one machine need to carry out the turning of carpenter's workpiece, by set screw 45 tool holder 42 is moved down, guarantee that the engraving cutter 41 on the toolframe 30 does not affect cutting, then switching bolt 34-6 is unloaded, drive flange 34-3 will separate with belt pulley 34-5, at this moment start turning motor 47 by driving belt 46 driving pulley 34-5 rotation, thereby drive Workpiece clamping head 34-9 rotation so that carpenter's workpiece is finished rotation turning.
Carpenter's workpiece is installed on the horizontal work level 18, clamp by Workpiece clamping head 34-9 and top 33, drive motors 4 36 gearing speed-reducers 39, decelerator 39 drive Workpiece clamping head assemblies 34 and rotate, thereby so that the carpenter's workpiece that is installed on the Workpiece clamping head 34-9 rotate synchronously.
Described drive motors 1, drive motors 2 26, drive motors 3 24 and drive motors 4 36 all adopt commercially available servomotor.
In above-mentioned numerical-control wood processing lathe, the engraving all-in-one machine, described turning motor 47, drive motors 1, drive motors 2 26, drive motors 3 24 and drive motors 4 36 all are connected with the electronic numerical control system.Each drive motors is controlled by the electronic numerical control system.The electronic numerical control system here all can buy from the market, under the control of electronic numerical control system, the perpendicular planker 4 of step control, horizontal work level 18 and vertical workbench 16 according to programming move, with the rotation of control Workpiece clamping head assembly 34, realize that engraving cutter 41,43 pairs of carpenter's workpiece of lathe tool carry out four-dimensional stereo carving and turning.
Above-mentioned four-dimensional stereo carving and turning refer to, vertical driving mechanism drives perpendicular planker 4 and moves up and down along perpendicular guide rail 8, realize engraving cutter 41, movement on lathe tool 43 vertical direction, transversal driving mechanism drives horizontal work level 18 and realizes that carpenter's workpiece is with respect to engraving cutter 41, lathe tool 43 transverse shiftings, longitudinal driving mechanism drives vertical workbench 16 and realizes that carpenter's workpiece is with respect to engraving cutter 41, lathe tool 43 movement in the vertical, it is relative and carve cutter 41 that the piece-holder driving mechanism drives carpenter's workpiece of Workpiece clamping head 34-9 and top 33 clampings, lathe tool 43 rotates, thereby has realized four-dimensional stereo carving and turning to carpenter's workpiece.
In above-mentioned numerical-control wood processing lathe, the engraving all-in-one machine, described engraving cutter 41, lathe tool 43, top 33, decelerator 39 and Workpiece clamping head assembly 34 all arrange 2 at least, and quantity is corresponding one by one.
Claims (9)
1. a numerical-control wood processing lathe, engraving all-in-one machine is characterized in that: comprise frame, crossbeam, vertical driving mechanism, cutter arrangement, transversal driving mechanism, longitudinal driving mechanism and piece-holder driving mechanism;
Crossbeam is installed in upper rack, vertical driving mechanism is installed on the crossbeam, described vertical driving mechanism comprises drive motors one, motor fixing seat one, slide block one, perpendicular guide rail, screw mandrel one, contiguous block one, perpendicular guide rails assembling plate and perpendicular planker, perpendicular guide rails assembling plate is installed on the crossbeam, perpendicular guide rails assembling is on perpendicular guide rails assembling plate, on the perpendicular guide rail slide block one is installed, drive motors one is installed on the perpendicular guide rails assembling plate by motor fixing seat one, screw mandrel one is installed on the perpendicular guide rails assembling plate by bearings piece one, screw mandrel one links to each other with drive motors one output shaft, contiguous block one is installed in screw mandrel one, moves around along screw mandrel one; Perpendicular planker is installed on the slide block one, links to each other with contiguous block one;
Cutter arrangement comprises toolframe, tool holder, engraving cutter, lathe tool, lathe tool fixed head, set screw and motor, and toolframe is installed on the perpendicular planker, and motor is installed on the toolframe, and the engraving cutter is installed on the motor output shaft;
Lathe tool is installed on the tool holder by the lathe tool fixed head, and tool holder is installed on the toolframe by set screw, has set screw on the tool holder regulating tank is installed, and can fix and regulate the upper-lower position of tool holder on toolframe;
Longitudinal driving mechanism comprises vertical workbench, vertical guide rail, slide block four, drive motors three, motor firm banking three, screw mandrel three, contiguous block three and bearings piece three, vertical guide rails assembling is on frame, vertically workbench is installed on the vertical guide rail by slide block four, screw mandrel three is installed on the frame by bearings piece three, contiguous block three is installed in vertical workbench bottom and matches with screw mandrel three, can do along screw mandrel three and vertically move, drive motors three is fixedly mounted on the frame by motor fixing seat three, and screw mandrel three links to each other with the output shaft of drive motors three;
Transversal driving mechanism comprises horizontal work level, cross rail, slide block three, drive motors two, motor fixing seat two, screw mandrel two, contiguous block two and bearings piece two, cross rail is installed on vertical workbench, horizontal work level is installed on the cross rail by slide block three, screw mandrel two is installed on vertical workbench by bearings piece two, drive motors two is installed on vertical workbench by motor fixing seat two, and screw mandrel two is connected with drive motors two output shafts;
The piece-holder driving mechanism comprises the piece-holder guide rail, cushion block two, slide block two, top installing plate, top, cushion block one, the Workpiece clamping head installing plate, the Workpiece clamping head assembly, drive motors four, decelerator, shaft joint, turning motor and driving belt, cushion block two is installed in horizontal work level top, the piece-holder guide rails assembling is on cushion block two tops, slide block two is fixed on top installing plate bottom, top installing plate is installed on the piece-holder guide rail by slide block two, can move around along the piece-holder guide rail, the Workpiece clamping head installing plate is fixed on cushion block two tops by cushion block one, the Workpiece clamping head assembly is installed on the Workpiece clamping head installing plate by decelerator, several decelerators are in series by shaft joint, drive motors four is installed in Workpiece clamping head installing plate one side, the power shaft of the decelerator of close drive motors four links to each other with the output shaft of drive motors four, the turning motor is installed in Workpiece clamping head installing plate bottom, and the turning motor passes through belt pulley, driving belt transmission Workpiece clamping head assembly.
2. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine, it is characterized in that: described Workpiece clamping head assembly comprises belt pulley, drive flange, plane bearing, reducer output shaft, bearing one, bearing two, Workpiece clamping head, set bolt and switching bolt, drive flange, plane bearing are fixedly mounted on the reducer output shaft, at belt pulley one end bearing one is housed, the other end is equipped with bearing two, belt pulley is installed on the reducer output shaft, and the belt pulley front end is equipped with Workpiece clamping head and adopts set bolt to fix.
3. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine, it is characterized in that: described drive motors one drives screw mandrel one rotation, driving contiguous block one moves up and down, driving perpendicular planker moves up and down again, thereby carpenter's workpiece is carved in the engraving cutter bottom and top feed motion by the motor-driven High Rotation Speed on the drive toolframe.
4. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine, it is characterized in that: drive motors one drives screw mandrel one rotation, drives contiguous block one and moves up and down, and drives perpendicular planker again and moves up and down, thereby the motion of the lathe tool bottom and top feed on the drive tool holder comes turning carpenter workpiece.
5. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine is characterized in that: when described drive motors two drives screw mandrel two rotation, will drive horizontal work level by contiguous block two and pass through slide block three along the cross rail transverse shifting.
6. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine is characterized in that: when described drive motors three drives screw mandrel three rotation, will drive vertical workbench by contiguous block three and vertically slidably reciprocate along vertical guide rail.
7. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine is characterized in that: described vertical guide rail employing rectangular guideway.
8. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine, it is characterized in that: at horizontal work level carpenter's workpiece is installed, by Workpiece clamping head and top clamping, drive motors four gearing speed-reducers, decelerator drives the Workpiece clamping head assembly and rotates, thereby so that the carpenter's workpiece that is installed on the Workpiece clamping head rotate synchronously.
9. numerical-control wood processing lathe according to claim 1, engraving all-in-one machine is characterized in that: described engraving cutter, lathe tool, top, decelerator and Workpiece clamping head assembly all arrange 2 at least, and quantity is corresponding one by one.
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CN108556086A (en) * | 2018-05-01 | 2018-09-21 | 禹荣跃 | A kind of overturning gyro production machine people |
CN108556086B (en) * | 2018-05-01 | 2020-07-28 | 温州市聚达信息科技有限公司 | Robot for producing turnover gyroscope |
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