CN206393199U - Multifunctional numerical control lathe - Google Patents
Multifunctional numerical control lathe Download PDFInfo
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- CN206393199U CN206393199U CN201621360316.2U CN201621360316U CN206393199U CN 206393199 U CN206393199 U CN 206393199U CN 201621360316 U CN201621360316 U CN 201621360316U CN 206393199 U CN206393199 U CN 206393199U
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Abstract
The utility model discloses a kind of Multifunctional numerical control lathe, the purpose with efficient feed system is reached, its drip irrigation device is:Including lathe bed, the lathe bed includes the main spindle box of the clamping device of clamping embryo material, the rotation of control clamping device and clamping, the lathe bed includes the milling slide and turning head for being separately positioned on clamping device pivot center both sides, has reached the technique effect for improving operating efficiency.
Description
Technical field
The utility model is related to a kind of lathe, more specifically, it relates to a kind of Multifunctional numerical control lathe.
Background technology
Numerically controlled lathe, turning center, are a kind of high accuracy, efficient automated machine tool.It is equipped with multistation knife tower or dynamic
Power knife tower, lathe just have extensive process industrial art performance, can processing linear cylinder, oblique line cylinder, circular arc and various screw threads,
The complexity embryo material such as groove, worm screw, with linear interpolation, the various compensation functions of circular interpolation.With the development of modern technologies, Hen Duoling
Part not only needs turnery processing to also need to Milling Process, therefore numerically controlled lathe can be provided with truning fixture and milling attachment.
Multifunctional numerical control lathe of the prior art, as shown in Figure 1, 2, including bed body 1, one end of bed body 1 is provided with band
The main spindle box 2 of clamping device 3, the other end is provided with the feed system 4 moved along the length direction of bed body 1, the correspondence of feed system 4
The one end of main spindle box 2 is provided with Multifunctional knife rack 5, and the top of Multifunctional knife rack 5 is provided with the milling cutter 51 of correspondence main spindle box simultaneously
Bottom is provided with the turning cutting tool 52 positioned at the side of main spindle box 2, and bed body 1, which is provided with, allows the hanging down along bed body 1 of Multifunctional knife rack 5
The knife rest feed system 41 of straight and width motion, knife rest feed system 41 can make the rotation of milling cutter 51.It is many using this
During functional digital control lathe process cylindrical shape part, embryo material 6 to be processed is fixed on main spindle box 2 first with clamping device 3, borrowed
Main spindle box 2 is helped so that the rotation of embryo material 6.As shown in figure 3, reuse knife rest processing embryo material 6, step one, Multifunctional knife rack 5 follow into
Close to embryo material 6 to system 4, knife rest feed system 41 makes turning cutting tool 52 be moved upward to the position of embryo material 6, uses turning cutting tool
The 52 leveling end faces of embryo material 6;Step 2, withdrawing after the completion of turning cutting tool 52 works is moved down into while adjusting milling cutter 51
Operating position, then milling cutter 51 is proceeded into the end of embryo material 6, cut out one in the facing cut of embryo material 6 by milling cutter 51
Groove, machines rear withdrawing;Step 3, recycles milling cutter 51 to process cylindric part in groove, machines
Withdrawing again afterwards, while turning cutting tool 52 is adjusted to operating position by Multifunctional knife rack 5, then feed flattens the end face of embryo material 6, afterwards
Above-mentioned operation is repeated until embryo material can not be reprocessed.
Although this Multifunctional numerical control lathe has reached the effect of turning operation integrated with milling, milling can only be directed to
Embryo material end face is operated, and in the cylindric part of production, milling, which completes embryo material end face after a part, can not reprocess, meeting
The problem of there is inefficiency.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of with efficient feed system
Multifunctional numerical control lathe.
To achieve the above object, the utility model uses technical scheme as described below:A kind of Multifunctional numerical control lathe, bag
Lathe bed is included, the lathe bed includes the main spindle box of the clamping device of clamping embryo material, the rotation of control clamping device and clamping, the lathe bed
Milling slide and turning head including being separately positioned on clamping device pivot center both sides, the lathe bed include driving car respectively
The feed system that sharpener frame and milling slide are moved along lathe width, the lathe bed is provided with driving turning head along lathe
The turning transmission device that length is moved with short transverse, the lathe bed is provided with driving milling slide along lathe length and height side
To mobile milling transmission device, the milling transmission device is provided with the cutter of the milling cutter rotation on driving milling slide
From transfer part.
By using above-mentioned technical proposal, embryo material is assembled on main spindle box using clamping device, due to milling slide and
Turning head is located at main spindle box both sides respectively, and milling slide can be processed with turning head in embryo material side.By feeding system
Milling cutter on milling slide is moved near embryo material by system, and milling cutter is adjusted to place of working using milling transmission device
Point, cutter drives milling cutter rotation, milling cutter to use milling cutter after embryo material side is flattened again in the embryo of leveling from transfer part
Material side is processed after the completion of part, Milling Process, and main spindle box can drive embryo material to turn an angle, and same section of embryo material is not added
The side of work turns to the position of correspondence milling slide, repeats above-mentioned operation, until same section of embryo material can not be reprocessed, reuses
Turning cutting tool on turning frame separates waste material, now continues to process latter section of embryo material, until embryo material is using finishing.Contrast is existing
Technology, milling cutter processing embryo material side can thus mill out the part that four parts just need cut-out not process, existing
Have and often processed in technology after a part, embryo material just needs the part that cut-out can not be processed, and therefore, milling cutter is placed on folder
The number of times of turning embryo material can be reduced by holding device side, so as to reach the beneficial effect for improving lathe operating efficiency;Due to milling
Knife rest and turning head are respectively arranged with milling transmission device and turning transmission device, therefore milling slide and turning head can be with
Simultaneously mobile, milling cutter is in processing, and turning cutting tool can be moved to operating position next time, and milling slide can also be
Turning head is moved to next job site when working, and has reached while the beneficial effect for the reduction work period that works;It is existing
It can all be carried out when being processed in technology to embryo material in same side, to causing embryo material to occur a setting after being processed for a long time to embryo material
Become, turning head is located at main spindle box side respectively with milling slide, will not be so that embryo material only has when being processed to embryo material side
Side operationally can also be caused the bad deformation that embryo material is produced with milling slide by active force, turning head to process before
Certain correction is made, it is accurate during control processing, achieve the effect for reducing mismachining tolerance.
Preferably, the milling that the feed system includes with milling transmission device and turning transmission device coordinating respectively is entered
To system and turning feed system, the milling feed system and turning feed system direction of feed are generally aligned in the same plane.
By using above-mentioned technical proposal, the direction of feed of turning feed system and milling feed system is located at same put down
Face so that feed system will not occupy excessive numerically controlled lathe space, while both working spaces are in same plane so that both
Positioning datum also can be identical, user can quickly be positioned to the knife rest in feed system, it is to avoid two knife rests point
Open the problem of positioning brought is complicated cumbersome.
Preferably, the bed body is provided with scrap collection portion below main spindle box, the scrap collection portion includes main receive
Case and secondary receiver, the main receiver are located at immediately below main spindle box, and the secondary receiver is separately positioned on main receiver two
Side.
By using above-mentioned technical proposal, because milling attachment and truning fixture are separately positioned on main spindle box both sides, cutter
All it is that power is acted to embryo material side when being processed to embryo material, the iron filings produced during tool sharpening can collide embryo material and knife
Tool, iron filings by embryo material and cutter active force just can not it is vertical fall to below main spindle box, so as to fall in the both sides of main spindle box, and
The part and embryo material leftover pieces of production all can directly drop immediately below main spindle box.The receiver in scrap collection portion is set to be located at
The secondary receiver of main receiver and both sides immediately below main spindle box, so that the iron filings produced largely fall into secondary receiver,
The part of generation falls into main receiver with embryo material leftover pieces, and Fast Classification iron filings and zero have been reached using the processing mode of this lathe
The purpose of part, has reached the beneficial effect for improving this lathe operating efficiency.
Preferably, the main receiver is formed with opening, opening to clamping device direction and is hinged with lid, main storage
The tumbler that driving lid opens and closes opening is provided with box.
By using above-mentioned technical proposal, when embryo material is processed, lid is covered in opening by tumbler, prevented
Iron filings enter main receiver;When part will be machined, lid is opened so that part can be fallen into main receiver,
Iron filings are prevented to fly into main receiver.
Preferably, the lid includes the cover plate that two panels is respectively articulated with opening two ends, when cover plate is covered, the cover plate
Contact position is higher than the articulated position of cover plate.
By using above-mentioned technical proposal, when embryo material is processed, cover plate draws close the lid to be formed higher than receiver, processing
During the iron filings that produce can be due to self gravitation along lid the gradient into the secondary receiver of main receiver both sides.When zero
When part will depart from from embryo material, tumbler can control cover plate to be turned to both sides up to above secondary receiver, two cover plates shape
The inclined gradient of Cheng Xiangzhu receivers, now when part drops from embryo material, just can fall into main receiver, partly can bullet
It can also fall on the cover board to the embryo material of secondary receiver, embryo material will continue to fall into main receiver along cover plate, effectively enhance receipts
The classification effect of case.
Preferably, being provided with sealing gasket between the lid and opening.
By using above-mentioned technical proposal, in the higher embryo material of workhardness, it is necessary to which lathe is operationally constantly in embryo
Coolant is sprayed on material, iron filings can fall on lid along coolant, and lid edge adds sealing ring, prevent coolant from lid
On gap enter main receiver, further prevent iron filings be cooled liquid band become owner of receiver.
Preferably, being provided with the first screen pack, the second screen pack, described first in the main receiver and secondary receiver
It is provided with screen pack and hinders embryo material leftover pieces to pass through while allowing the first filter bores that part passes through with iron filings, second mistake
It is provided with filter screen and hinders part to pass through while allowing the second filter bores that iron filings pass through.
By using above-mentioned technical proposal, embryo material leftover pieces and part can all fall into main receiver, when lathe works, cutter
Active force between embryo material is very complicated, and iron filings, part and embryo material leftover pieces etc. have part and fall into not corresponding receiver, therefore
Two layers of screen pack is set to may be such that iron filings, embryo material leftover pieces and part are separated in receiver, so that part is collected
On second screen pack, convenient use person takes out part.
Preferably, the scrap collection portion is provided with vibrating device.
By using above-mentioned technical proposal, object accumulation will reduce effect of screen pack to a certain extent on screen pack,
Hence in so that receiver obtains the ability of vibration so that the object in receiver can be moved constantly, so as to strengthen the mistake of receiver
Filter effect.
Preferably, the port for taking out the second screen pack is provided with the main receiver and secondary receiver, it is described
The baffle plate for opening and closing opening is provided with port.
By using above-mentioned technical proposal, the second screen pack for collecting part can be taken out rapidly by port, can
The part on the second screen pack is taken away with facilitating, while can also convenient use person's cleaning screen pack.Second screen pack is placed on
When in receiver, baffle plate is just placed on port and blocks port, prevents part when scrap collection portion works in receiver from departing from
Receiver.
Preferably, the main receiver and secondary receiver are equipped with retractable cover plate below port.
By using above-mentioned technical proposal, due to being placed with screen pack in main receiver and secondary receiver, therefore it is located at
The iron filings inconvenience of receiver bottom is collected, and retractable baffle plate is provided with receiver bottom, when scrap collection portion works, will be covered
The main receiver of plate closing and secondary receiver, you can prevent iron filings from flying out scrap collection portion, it is necessary to when iron filings are taken out, open baffle plate
It can be taken off iron filings in main receiver and secondary receiver.
In summary, prior art is contrasted, milling cutter processing embryo material side can thus mill out four parts
Often processed after a part in the part for needing cut-out not process, prior art, embryo material just needs what cut-out can not be processed
Part, therefore, milling cutter, which is placed on clamping device side, can reduce the number of times of turning embryo material, so as to reach raising turner
Make the beneficial effect of efficiency.
Brief description of the drawings
Fig. 1 is the front view of Multifunctional numerical control lathe in the prior art;
Fig. 2 is the side view of Multifunctional numerical control lathe in the prior art;
Fig. 3 is embryo material schematic diagram after Multifunctional numerical control lathe processing in the prior art;
Fig. 4 is the Multifunctional numerical control lathe structural representation of embodiment 1;
Fig. 5 is the schematic internal view of embodiment 1;
Fig. 6 is the scrap collection portion structural representation of embodiment 1;
Fig. 7 is the diagrammatic cross-section of the scrap collection portion of embodiment 1 along its length;
Fig. 8 is the diagrammatic cross-section below the scrap collection portion of embodiment 1 in the width direction;
Fig. 9 be embodiment 1 Multifunctional numerical control lathe processing after embryo material schematic diagram;
Figure 10 is the diagrammatic cross-section at the scrap collection portion baffle plate of embodiment 2.
In figure, 10, lathe;1st, lathe bed;2nd, main spindle box;3rd, clamping device;4th, feed system;41st, milling feed system;
42nd, turning feed system;51st, milling slide;52nd, turning head;61st, milling transmission device;62nd, turning transmission device;610、
Cutter is from transfer part;7th, embryo material;8th, scrap collection portion;81st, main receiver;82nd, secondary receiver;810th, it is open;811st, lid;
813rd, rotary electric machine;821st, cover plate;814th, sealing gasket;815th, the first screen pack;816th, the second screen pack;825th, the first filtering
Hole;826th, the second filter bores;817th, vibrating device;818th, port;819th, baffle plate;820th, chute;701st, working face;702nd, it is recessed
Groove;703rd, cylindrical component;Milling cutter 704 for cut-out;822nd, shield.
Embodiment
The utility model is described in further detail below in conjunction with accompanying drawing.
This specific embodiment is only to explain of the present utility model, and it is not to limitation of the present utility model, ability
Field technique personnel can make the modification without creative contribution to the present embodiment as needed after this specification is read, but
As long as all being protected in right of the present utility model by Patent Law.
Embodiment 1:As shown in Figure 4,5, a kind of Multifunctional numerical control lathe 10, including lathe bed 1, lathe bed 1 includes clamping embryo material 7
Clamping device 3, control clamping device 3 rotate and clamping main spindle box 2 and be separately positioned on the pivot center both sides of clamping device 3
Milling slide 51 and turning head 52, lathe bed 1 include respectively driving turning head 52 and milling slide 51 along perpendicular to main shaft
The feed system 4 of the axis direction of case 2 motion, the lower section of clamping device 3 is provided with scrap collection portion 8.
As shown in figure 5, main spindle box 2 is located at the left side of lathe bed 1, main spindle box 2 is using Application No. " 201110104912.X "
Main spindle box 2 disclosed in patent, main spindle box 2 belongs to prior art, will not be described here.Clamping device 3 uses scroll chuck knot
Structure, scroll chuck belongs to prior art, will not be described here.Connection milling slide 51 is provided with the left of the pivot center of main spindle box 2
Milling feed system 41, milling feed system 41 driving milling slide 51 do close along perpendicular to the direction of the axis of main spindle box 2
With the action away from embryo material 7, the car disclosed in patent of the milling feed system 41 using Application No. " 201220536752.6 "
Bed feeding hydraulic system, lathe feeding hydraulic system belongs to prior art, will not be described here.Being provided with milling slide 51 makes
Milling cutter completes the milling transmission device 61 of milling, and milling transmission device 61 is using Application No. " 201220536752.6 "
Patent disclosed in lathe feeding hydraulic system, pass through the composition milling that hydraulic system is fed to the lathe of two vertical direction
Transmission device 61 so that milling transmission device 61 can drive milling slide 51 to be moved along the length direction of main spindle box 2 and along level
Direction is moved to clamping device 3, and being additionally provided with milling slide 51 makes the cutter of milling cutter rotation from transfer part 610, cutter from
Transfer part 610 includes that the rotating shaft of milling cutter rotation can be made, and milling cutter belongs to prior art by itself rotation to be processed,
It will not be described here.Cutter on milling slide 51 is vertically emitted on the side of the correspondence main spindle box 2 of milling slide 51.
As shown in figure 5, the right side of clamping device 3 is provided with the turning feed system 42 of connection turning head 52, turning feeding
System 42 drives turning head 52 to do the action close to and away from embryo material 7, turning feeding along the direction perpendicular to the axis of main spindle box 2
System 42 is identical with the structure of milling feed system 41, and turning transmission device 62 is identical with the structure of milling transmission device 61, herein not
Repeat, the cutter on turning head 52 is vertically emitted on the side of the correspondence main spindle box 2 of turning head 52.Milling transmission device
61 are in same plane, milling transmission device 61 and turning with turning transmission device 62 to the close motion process of clamping device 3
Motion process of the transmission device 62 along the axis direction of main spindle box 2 is similarly in same plane, therefore both benchmark are in same
Plane.
As shown in Figures 6 and 7, scrap collection portion 8 includes main receiver 81, secondary receiver 82.The main top of receiver 81 is set
There is opening 810, opening 810 is hinged with two cover plates 821 controlled by rotary electric machine 813, and rotary electric machine 813 drives cover plate
821 draw close the lid 811 that laminating forms closing opening 810 to the top of main receiver 81, rotary electric machine 813 drive cover plate 821 to
The main both sides of receiver 81, which are rotated, will open opening 810, and the edge of cover plate 821 is provided with for strengthening the bullet of the sealing of cover plate 821
Property sealing gasket 814.The secondary top of receiver 82 is again provided with opening 810, and side of the secondary receiver 82 away from main receiver 81 is high
The second screen pack 816 is fixedly installed in the side close to main receiver 81, in secondary receiver 82.
As shown in fig. 7, being provided with the first screen pack 815 and the second screen pack 816, the first screen pack in main receiver 81
815 be placed on the top of the second screen pack 816, the first screen pack 815 be provided with obstruction leftover pieces by and meanwhile allow part with
It is provided with the first filter bores 825 that iron filings pass through, the second screen pack 816 and hinders part to pass through while allowing that iron filings pass through
Two filter bores 826.As shown in figure 8, the main outer layer of receiver 81 is provided with the port 818 that can take out the second screen pack 816, lead to
Mouth 818 is provided with the baffle plate 819 of cooperation, and baffle plate 819 is fixedly connected with the second screen pack 816, and main receiver 81 is provided with cooperation
The chute 820 of second screen pack 816, user can take out the second screen pack in chute 820 by pull baffle plate 819
816.The main lower section of receiver 81 is fixedly installed vibrating device 817, and vibrating device 817 uses Application No.
Electromagnetic shaker disclosed in the patent of " 201420606672.2 ", electromagnetic shaker belongs to prior art, will not be described here, vibrating device
It constantly can vertically move back and forth to drive the main receiver 81 and secondary receiver 82 that are secured to connect during 817 work
Move together.Main receiver below secondary receiver with being provided with retractable shield 822.
Use process:In the cylindric finding of production, first by the turning needed to use and milling cutter assembling corresponding
On knife rest, recycle clamping device 3 that embryo material 7 is fixed on main spindle box 2, switch on power, correspondence is set on numerical control device
Parameter, you can start processing.
The driving milling slide 51 of milling feed system 41 positioned at the left side of embryo material 7 is close from initial position to embryo material 7, simultaneously
The cutter rotation that the driving milling cutter of milling transmission device 61 on milling slide 51 is moved on operating position, milling slide 51
Portion 610 drives the milling cutter rotation needed to use.As shown in figure 8, milling cutter mills out working face in the side of embryo material 7
701, after the completion of withdrawing adjust milling cutter position simultaneously, after the completion of adjustment, milling feed system 41 drives milling cutter again
Close to embryo material 7, the driving milling cutter of milling transmission device 61 mills out an edge and cylindrical component on working face 701
703 inner surface identical grooves 702, after the completion of withdrawing adjust milling cutter position, after the completion of adjustment, milling feed system simultaneously
41 drive milling cutter close to embryo material 7, and the driving milling cutter of milling transmission device 61 mills out cylindrical shape zero around groove 702
Part 703.Rear withdrawing is machined, the milling cutter 704 for cut-out is placed into operating position by adjustment milling cutter position,
Milling feed system 41 drives the milling cutter 704 for cut-out to cut off cylindrical component 703 from embryo material, after machining
Withdrawing.Main spindle box 2 drive embryo material 7 rotate 90 degree so that on embryo material 7 machined side leave correspondingly milling cutter position it is same
When undressed side correspondence milling cutter, the process that cylindrical component 703 is processed before now repeating processes a circle again
Cylindrical part 703, main spindle box 2 drives embryo material 7 to rotate 90 degree again, repeatedly above-mentioned operation, therefore same section of embryo material 7 can be with
Process four parts.After this section of embryo material 7 can not be reprocessed, turning feed system 42 drives turning head 52 close to embryo material 7,
Turning transmission device 62 adjusts turning cutting tool and cut off to the embryo material 7 that reprocessing is will be unable to behind operating position, can now obtain again
To machinable side of embryo material 7, the process of above-mentioned processing part is repeated, until whole embryo material 7 can not be reprocessed.
When part is processed, the vibrating device 817 of the lower section iron scrap collector of main spindle box 2 will start working, vibrating device
The 817 main receivers 81 of driving are vertically moved back and forth with secondary receiver 82.When lathe 10 works, rotary electric machine 813 drives
Move two cover plates 821 and draw close to form lid 811 and close main receiver 81 opening 810 so that the iron filings produced in process are suitable
The cover plate 821 constantly vibrated to fall into the secondary receiver 82 of the main both sides of receiver 81, iron filings are fallen into will after secondary receiver 82
Fall on the second screen pack 816 in secondary receiver 82, then the continuous vibration of secondary receiver 82 can drive the continuous displacement of iron filings
The secondary bottom of receiver 82 is fallen into from the second filter bores 826.When the last feed of milling cutter is to mill out cylindrical component 703,
Rotary electric machine 813 controls two cover plates 821 to be rotated to the main both sides of receiver 81 so as to the opening 810 of the main receiver 81 of exposure, makes
Obtaining can enter in main receiver 81 when cylindrical component 703 drops from embryo material 7.Cylindrical component 703 falls into main receiver 81
After can fall on the first screen pack 815 or directly fallen by the first filter bores 825 on the second screen pack 816, if cylinder
Shape part 703 falls meeting continuous displacement because of the continuous vibration of main receiver 81 on the first screen pack 815, works as cylindrical component
703 will drop to when being moved to the first filter bores 825 on second screen pack 816, the second filter bores on the second screen pack 816
826 can hinder part to continue to fall the cassette bottom to main receiver 81.After milling cutter completes processing and withdrawing, rotary electric machine 813
Cover plate 821 will be controlled to draw close the lid 811 to form closing opening 810 again.Turning cutting tool is in car cut edge corner material, cover plate
821 can equally open, and guide the leftover pieces dropped from embryo material 7 to fall on the first screen pack 815 in main receiver 81, and first
The first filter bores 825 on screen pack 815 can hinder leftover pieces to continue through the first screen pack 815.When cover plate 821 is opened
Wait, iron filings can be fallen into main receiver 81, with the continuous vibration of main receiver 81, and iron filings can pass through the He of the first screen pack 815
Fall after second screen pack 816 in the main bottom of receiver 81.After whole embryo material 7 is machined, user is by main receiver 81
Baffle plate 819 pull out, the second screen pack 816 being fixedly connected with baffle plate 819 will follow baffle plate 819 to be left from chute 820
Main receiver 81, user just can take out the cylindrical component 703 on the second screen pack 816 in main receiver 81, use
Person again takes the cylindrical component 703 on the second screen pack 816 in secondary receiver 82 away.User is again by main receiver 81
Leftover pieces on one screen pack 815 are taken away, and user opens shield 822 and cleared up in main receiver 81 and secondary receiver 82 again afterwards
Iron filings, this time processing i.e. finishes.
Embodiment 2:A kind of Multifunctional numerical control lathe 10, including lathe bed 1, reference picture 10, the present embodiment 2 and embodiment 1
Difference is that baffle plate 819 is rotated with main receiver 81 by hinge and is connected, after user opens baffle plate 819, directly by second
Cylindrical component 703 on screen pack 816 takes out, and part again resets baffle plate 819 after taking.
Claims (10)
1. a kind of Multifunctional numerical control lathe, including lathe bed (1), clamping device (3) of the lathe bed (1) including clamping embryo material (7),
Clamping device (3) is controlled to rotate the main spindle box (2) with clamping, it is characterised in that:The lathe bed (1) includes being separately positioned on clamping
The milling slide (51) and turning head (52) of device (3) pivot center both sides, the lathe bed (1) include driving turning knife respectively
The feed system (4) that frame (52) and milling slide (51) are moved along lathe width, the lathe bed (1) is provided with driving turning
The turning transmission device (62) that knife rest (52) is moved along lathe length and short transverse, the lathe bed (1) is provided with driving milling
The milling transmission device (61) that knife rest (51) is moved along lathe length and short transverse, the milling transmission device (61) is provided with
The cutter of milling cutter rotation on milling slide (51) is driven from transfer part (610).
2. Multifunctional numerical control lathe according to claim 1, it is characterised in that:The feed system (4) include respectively with
Milling feed system (41) and turning feed system (42) that milling transmission device (61) and turning transmission device (62) coordinate, institute
State milling feed system (41) and turning feed system (42) direction of feed is generally aligned in the same plane.
3. Multifunctional numerical control lathe according to claim 1, it is characterised in that:The lathe bed (1) is below main spindle box (2)
Scrap collection portion (8) is provided with, the scrap collection portion (8) includes main receiver (81) and secondary receiver (82), the master
Receiver (81) is located at immediately below main spindle box (2), and the secondary receiver (82) is separately positioned on main receiver (81) both sides.
4. Multifunctional numerical control lathe according to claim 3, it is characterised in that:The main receiver (81) is to clamping device
(3) direction, which is formed with to be hinged with lid (811), main receiver (81) in opening (810), opening (810), is provided with driving box
Cover the tumbler that (811) open and close opening (810).
5. Multifunctional numerical control lathe according to claim 4, it is characterised in that:The lid (811) is distinguished including two panels
The cover plate (821) at hinge openings (810) two ends, when cover plate (821) is covered, relatively described cover plate (821) contact position is higher than
The articulated position of cover plate (821).
6. Multifunctional numerical control lathe according to claim 5, it is characterised in that:The lid (811) and opening (810) it
Between be provided with sealing gasket (814).
7. Multifunctional numerical control lathe according to claim 6, it is characterised in that:The main receiver (81) and secondary receiver
(82) it is provided with the first screen pack (815), the second screen pack (816), first screen pack (815) and is provided with obstruction embryo
Material (7) leftover pieces pass through while allowing on the first filter bores (825) that part passes through with iron filings, second screen pack (816)
It is provided with and hinders part to pass through while allowing the second filter bores (826) that iron filings pass through.
8. Multifunctional numerical control lathe according to claim 7, it is characterised in that:The scrap collection portion (8), which is provided with, to be shaken
Dynamic device (817).
9. Multifunctional numerical control lathe according to claim 8, it is characterised in that:The main receiver (81) and secondary receiver
(82) it is provided with to be provided with the port (818) for taking out the second screen pack (816), the port (818) on and makes opening
(810) baffle plate (819) opened and closed.
10. Multifunctional numerical control lathe according to claim 9, it is characterised in that:The main receiver (81) and secondary storage
Box (82) is equipped with retractable shield (822) below port (818).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201621360316.2U CN206393199U (en) | 2016-12-12 | 2016-12-12 | Multifunctional numerical control lathe |
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Application Number | Priority Date | Filing Date | Title |
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CN201621360316.2U CN206393199U (en) | 2016-12-12 | 2016-12-12 | Multifunctional numerical control lathe |
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CN206393199U true CN206393199U (en) | 2017-08-11 |
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ID=59509635
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113414634A (en) * | 2021-08-24 | 2021-09-21 | 南通迪盛数控机床有限公司 | Intelligent manufacturing numerical control machine tool |
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2016
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113414634A (en) * | 2021-08-24 | 2021-09-21 | 南通迪盛数控机床有限公司 | Intelligent manufacturing numerical control machine tool |
CN113414634B (en) * | 2021-08-24 | 2021-11-12 | 南通迪盛数控机床有限公司 | Intelligent manufacturing numerical control machine tool |
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Address after: 215127 No.158, Jiama Road, Luzhi Town, Wuzhong District, Suzhou City, Jiangsu Province Patentee after: Suzhou hongquantai Hardware Technology Co.,Ltd. Address before: 215127 No.158, Jiama Road, Luzhi Town, Wuzhong District, Suzhou City, Jiangsu Province Patentee before: SUZHOU HONGQUANTAI HARDWARE PRODUCTS Co.,Ltd. |
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