CN205967432U - Double knives turning machine constructs - Google Patents
Double knives turning machine constructs Download PDFInfo
- Publication number
- CN205967432U CN205967432U CN201620911954.2U CN201620911954U CN205967432U CN 205967432 U CN205967432 U CN 205967432U CN 201620911954 U CN201620911954 U CN 201620911954U CN 205967432 U CN205967432 U CN 205967432U
- Authority
- CN
- China
- Prior art keywords
- slide
- turning
- positioning seat
- actuating unit
- servomotor
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Multi-Process Working Machines And Systems (AREA)
Abstract
The utility model discloses a double knives turning machine constructs, including frame, conveyer, first positioning seat, second positioning seat, feed mechanism, turning elevating system, turning power unit, first lathe tool power unit and second lathe tool power unit, the machined part is carried extremely to the conveyer the feed mechanism tip, feed mechanism will process in proper order and to carry to first positioning seat and the second positioning seat on, by the drive of turning elevating system turning power unit moves to the machined part upper end, turning power unit drive first positioning seat with machined part on the second positioning seat is rotatory, by first lathe tool power unit with second lathe tool power unit to complete the processing of spare lathe work. Consequently, realize autoloading to two work piece simultaneous processing have improved machining efficiency.
Description
Technical field
This utility model is related to mechanical field, and in particular to a kind of double-pole turning mechanism.
Background technology
Turnery processing is the basis of machining, and traditional turning machine, only unit head complete single part processing, and
Artificial clamping parts are needed, it is extremely low to thus result in working (machining) efficiency, in view of disadvantages described above, is necessary to design a kind of double-pole turning machine in fact
Structure.
Utility model content
Technical problem to be solved in the utility model is:A kind of double-pole turning mechanism is provided, solves existing car
Cut the low problem of machining efficiency.
For solving above-mentioned technical problem, the technical solution of the utility model is:A kind of double-pole turning mechanism, including frame,
Conveyer, the first positioning seat, the second positioning seat, feed mechanism, turning elevating mechanism, turning actuating unit, the first lathe tool power
Mechanism and the second lathe tool actuating unit, the conveyer, the first positioning seat, feed mechanism and the second positioning seat are sequentially arranged in described
In frame, the turning elevating mechanism is in the frame, and the turning elevating mechanism is located at first positioning seat and institute
State above the second positioning seat, the turning actuating unit is located on the turning elevating mechanism, the first lathe tool actuating unit
The first positioning seat side is located at, the second lathe tool actuating unit is located at the second positioning seat side, the conveyer
Conveying workpiece to the feed mechanism end, will process and be delivered to the first positioning seat and second successively calmly by the feed mechanism
On the seat of position, the turning actuating unit is driven to move to workpiece upper end, the turning engine by the turning elevating mechanism
Structure drives the workpiece rotation on the first positioning seat and second positioning seat, by the first lathe tool actuating unit and described the
Two lathe tool actuating units complete workpiece turnery processing.
Further, sweeping machine structure is additionally provided with the frame, and the sweeping machine structure removes the detritus after workpiece processing.
Further, the feed mechanism include the first cylinder, installing plate, first support bar, second support bar, without thick stick gas
Cylinder, guide rail, connecting plate and positioning mould, in the frame, the installing plate is located at first cylinder to first cylinder
On, the first support bar and the second support bar are respectively mounted plate upper end both sides, and the no bar cylinder is located at described second
On support bar, the guide rail is located at the guide rail located at the first support bar and the no bar cylinder upper end, the connecting plate
Upper end, the positioning modulus amount are several, and the positioning mould is uniformly distributed on the connecting plate.
Further, the turning elevating mechanism includes:Second cylinder, guide rod and mounting seat, second cylinder and described
In the frame, the mounting seat is placed on the guide rod guide rod, and described in second air cylinder driven, mounting seat is along described
Guide rod slides.
Further, the turning actuating unit includes:Motor, mounting shell, drivewheel, driven pulley and transmission belt, the electricity
, on the turning elevating mechanism, the drivewheel and the driven pulley are located on the mounting shell for machine and the mounting shell,
The transmission belt is wound on the drivewheel and the driven pulley, drivewheel rotation described in the Motor drive so that described
Driven pulley and transmission belt rotation.
Further, the first lathe tool actuating unit includes:First track base, first slide, the first servomotor, first
Screw mandrel, second slide, the second servomotor, the second screw mandrel, knife rest, first track base in the frame, described the
, on first track base, first screw mandrel is located to be slided through described first for one slide and first servomotor
Seat, and first servomotor drives first screw mandrel rotation so that first slide is slided being provided with the first track base,
, in the first slide, second screw mandrel is located at and runs through described second for the second slide and second servomotor
Slide, and second servomotor drives second screw mandrel rotation so that second slide is slided being provided with first slide,
The knife rest is in the second slide.
Further, the second lathe tool actuating unit includes:Second track base, the 3rd slide, the 3rd servomotor, the 3rd
Screw mandrel, the 4th slide, the 4th servomotor, the 4th screw mandrel, the second knife rest, second track base are located in the frame, institute
The 3rd slide and the 3rd servomotor are stated on second track base, the 3rd screw mandrel is located at and runs through the described 3rd
Slide, and the 3rd servomotor drives the 3rd screw mandrel rotation so that the 3rd slide is being provided with cunning on the second track base
Move, on the 3rd slide, the 4th screw mandrel is located at through described for the 4th slide and the 4th servomotor
4th slide, and the 4th servomotor drives the 4th screw mandrel rotation so that the 4th slide is on the 3rd slide
Slide.
Further, the sweeping machine structure includes:Installing rack, the 3rd cylinder, the second installing plate, the second motor, belt pulley,
Two transmission belts, the 3rd motor and cleaning brush, in the frame, the 3rd cylinder is located at the installing rack to the installing rack
On, second installing plate is placed on the installing rack, the second installing plate motion described in the 3rd air cylinder driven, and described second
, on second installing plate, second transmission belt is placed on the belt pulley for motor and the belt pulley, and described the
Belt pulley described in two Motor drives and second transmission belt rotation, the 3rd motor are located on second installing plate, institute
State cleaning brush rotation described in the 3rd Motor drive.
Further, the conveyer is chain wheel conveyor.
Compared with prior art, workpiece is transported to feed mechanism end by conveyer by the double-pole turning mechanism, then by
Feed mechanism is transported to workpiece on the first positioning seat and the second positioning seat, drives turning actuating unit as turning rises general who has surrendered
Down move and contact with workpiece, therefore, turning actuating unit drives workpiece to rotate at a high speed, then by the first lathe tool engine
Structure and the second lathe tool actuating unit complete turnery processing simultaneously, so as to improve working (machining) efficiency.
Description of the drawings
Fig. 1 is the axonometric drawing of this utility model double-pole turning mechanism;
Fig. 2 is the axonometric drawing of feed mechanism described in this utility model double-pole turning mechanism;
Fig. 3 is the axonometric drawing of turning elevating mechanism described in this utility model double-pole turning mechanism;
Fig. 4 is the front view of this turning actuating unit described in practical new double-pole turning mechanism;
Fig. 5 is the upward view of this turning actuating unit described in practical new double-pole turning mechanism;
Fig. 6 is that the axle of this first lathe tool actuating unit described in practical new double-pole turning mechanism is regarded;
Fig. 7 is the internal structure view of this first track base described in practical new double-pole turning mechanism;
Fig. 8 is the internal structure view of this first slide track seat described in practical new double-pole turning mechanism;
Fig. 9 is that the axle of this second lathe tool actuating unit described in practical new double-pole turning mechanism is regarded;
Figure 10 is the internal structure view of this second track base described in practical new double-pole turning mechanism;
Figure 11 is the internal structure view of this second slide track seat described in practical new double-pole turning mechanism;
Figure 12 is the front view of this sweeping machine structure described in practical new double-pole turning mechanism.
Specific embodiment
Following specific embodiment will be further illustrated in conjunction with above-mentioned accompanying drawing.
Hereinafter, multiple specific details are elaborated, to provide the saturating of the concept to constituting described embodiment basis
Thorough understanding.However, it will be apparent to those skilled in the art that described embodiment can not have these specific details
In some or all in the case of putting into practice.In other cases, well-known process step is not specifically described.
As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4, Fig. 5, Fig. 6, Fig. 7, Fig. 8, Fig. 9, Figure 10, Figure 11, Figure 12, a kind of double-pole turning
Mechanism, moves including frame 1, conveyer 2, the first positioning seat 3, the second positioning seat 4, feed mechanism 5, turning elevating mechanism 6, turning
Force mechanisms 7, the first lathe tool actuating unit 8 and the second lathe tool actuating unit 9, the conveyer 2, the first positioning seat 3, feed mechanism
5 and second positioning seat 4 be sequentially arranged in the frame 1, the turning elevating mechanism 6 is in the frame 1, and the turning liter
Descending mechanism 6 is located above first positioning seat 3 and second positioning seat 4, and the turning actuating unit 7 is located at the turning
On elevating mechanism 6, the first lathe tool actuating unit 8 is located at 3 side of the first positioning seat, the second lathe tool actuating unit
9 are located at 4 side of the second positioning seat, and the conveyer 2 conveys workpiece to 5 structure end of the feeder, the feeder
Structure 5 will be processed and is delivered on the first positioning seat 3 and the second positioning seat 4 successively, drive the turning by the turning elevating mechanism 6
Actuating unit 7 moves to workpiece upper end, and the turning actuating unit 7 drives the first positioning seat 3 and second positioning seat 4
On workpiece rotation, completed workpiece turning and added by the first lathe tool actuating unit 8 and the second lathe tool actuating unit 9
Work.Therefore, realize completing two work pieces process simultaneously, and instead of artificial clamping, so as to improve working (machining) efficiency.
Further, sweeping machine structure 10 is additionally provided with the frame 1, and the sweeping machine structure 10 is removed residual after workpiece is processed
Bits.Accordingly, it is capable to ensure clean surface after workpiece processing.
Further, the feed mechanism 5 includes that the first cylinder 501, installing plate 502, first support bar 503, second are supported
Bar 504, no bar cylinder 505, guide rail 506, connecting plate 507 and positioning mould 508, first cylinder 501 are located at the frame 1
Interior, the installing plate 502 on first cylinder 501,504 points of the first support bar 503 and the second support bar
502 upper end both sides of other installing plate, in the second support bar 504, the guide rail 506 is located at institute to the no bar cylinder 505
505 upper end of first support bar 503 and the no bar cylinder is stated, the connecting plate 507 is located at 506 upper end of the guide rail, described fixed
Position 507 quantity of mould is several, and the positioning mould 508 is uniformly distributed on the connecting plate 507.Therefore, during feeding, by first
501 connecting plate 507 of cylinder is up pushed up so that positioning 508 workpiece of mould is up supported, then by 505 company of promotion of no bar cylinder
Fishplate bar 507 slides on guide rail 506 so that workpiece is in the first positioning seat 3,10 upper end of the second positioning seat 4 and sweeping machine structure,
So as to realize automatic charging.
Further, the turning elevating mechanism 6 includes:Second cylinder 601, guide rod 602 and mounting seat 603, described second
, in the frame 1, the mounting seat 603 is placed on the guide rod 602, second gas for cylinder 601 and the guide rod 602
Cylinder 601 drives the mounting seat 603 to slide along the guide rod 602.Therefore realize promoting turning actuating unit 7 to move up and down.
Further, the first lathe tool actuating unit 8 includes:First track base 801, first slide 802, the first servo electricity
Machine 803, the first screw mandrel 804, second slide 805, the second servomotor 806, the second screw mandrel 807, knife rest 808, described first leads
In the frame 1, the first slide 802 and first servomotor 803 are located at first track base to rail chair 801
On 801, first screw mandrel 804 is located at running through the first slide 802, and first servomotor 803 drives described the
One screw mandrel 804 rotates so that first slide 802 is slided being provided with the first track base 801, the second slide 805 and described
In the first slide 802, second screw mandrel 807 is located at and runs through the second slide 805 second servomotor 806,
And second servomotor 806 drives second screw mandrel 807 to rotate so that second slide 805 is being provided with first slide 802
Upper slip, the knife rest 808 is in the second slide 805.Accordingly, it is capable to realize promoting complete turning installed in knife rest 808
Processing.
Further, the second lathe tool actuating unit 9 includes:Second track base 901, the 3rd slide 902, the 3rd servo electricity
Machine 903, the 3rd screw mandrel 904, the 4th slide 905, the 4th servomotor 906, the 4th screw mandrel 907, the second knife rest 908, described
Two track bases 901 in the frame 1, lead located at described second by the 3rd slide 902 and the 3rd servomotor 903
On rail chair 901, the 3rd screw mandrel 904 is located at and runs through the 3rd slide 902, and the 3rd servomotor 903 drives institute
State the 3rd screw mandrel 904 to rotate so that the 3rd slide 902 is being provided with slip, 905 He of the 4th slide on the second track base 901
, on the 3rd slide 902, the 4th screw mandrel 907 is located at through the 4th slide for 4th servomotor 906
905, and the 4th servomotor 906 drives the 4th screw mandrel 907 to rotate so that the 4th slide 905 is slided the described 3rd
Slide on seat 902.Accordingly, it is capable to realize promoting complete turnery processing installed in the second knife rest 908.
Further, the second lathe tool actuating unit 9 includes:Second track base 901, second slide 902, the second servo electricity
Machine 903, the second drive mechanism 904 and the second knife rest 905, second track base 901 are located in the frame 1, and described second
, in the second slide 901, second drive mechanism 904 is provided with for slide 902 and second servomotor 903
Between two servomotors 903 and the second slide 902, second servomotor 903 passes through second drive mechanism 904
The second slide 902 is driven to slide in second track base 901, second knife rest 905 is located at the second slide 902
On.Therefore, lathe tool can be installed on the second knife rest 905, and drives second slide 902 to move by the second servomotor 903, from
And complete turnery processing.
Further, the sweeping machine structure 10 includes:Installing rack 1001, the 3rd cylinder 1002, the second installing plate 1003, second
Motor 1004, belt pulley 1005, the second transmission belt 1006, the 3rd motor 1007 and cleaning brush 1008, the installing rack 1001 set
In the frame 1, on the installing rack 1001, second installing plate 1003 is placed on described the 3rd cylinder 1002
On installing rack 1001, the 3rd cylinder 1002 drives second installing plate 1003 to move, second motor 1004 and institute
Belt pulley 1005 is stated on second installing plate 1003, second transmission belt 1006 is placed on the belt pulley 1005
On, second motor 1004 drives the belt pulley 1005 and second transmission belt 1006 to rotate, the 3rd motor
1007 on second installing plate 1003, and the 3rd motor 1007 drives the cleaning brush 1008 to rotate.Therefore, can lead to
Crossing the second motor 1004 drives the second transmission belt 1006 to rotate so that work pieces process rotates, then is driven clearly by the 3rd motor 1007
1008 rotations are scrubbed, realizes considering clearly workpiece to be worth doing.
Further, the conveyer 2 is chain wheel conveyor.Therefore, in workpiece course of conveying, workpiece can be positioned, is protected
Demonstrate,prove workpiece to convey in order.
This utility model is not limited to above-mentioned specific embodiment, and one of ordinary skill in the art is visualized from above-mentioned
Send out, without performing creative labour, a variety of conversion that is made, all fall within protection domain of the present utility model.
Claims (9)
1. a kind of double-pole turning mechanism, it is characterised in that:Including frame, conveyer, the first positioning seat, the second positioning seat, feeding
Mechanism, turning elevating mechanism, turning actuating unit, the first lathe tool actuating unit and the second lathe tool actuating unit, the conveyer,
First positioning seat, feed mechanism and the second positioning seat are sequentially arranged in the frame, and the turning elevating mechanism is located at the machine
On frame, and the turning elevating mechanism is located above first positioning seat and second positioning seat, the turning actuating unit
On the turning elevating mechanism, the first lathe tool actuating unit is located at the first positioning seat side, second car
Knife actuating unit is located at the second positioning seat side, and the conveyer conveying workpiece is to the feed mechanism end, described
Feed mechanism will be processed and is delivered on the first positioning seat and the second positioning seat successively, drive the car by the turning elevating mechanism
Cut actuating unit and move to workpiece upper end, the turning actuating unit is driven on the first positioning seat and second positioning seat
Workpiece rotates, and completes workpiece turnery processing by the first lathe tool actuating unit and the second lathe tool actuating unit.
2. double-pole turning mechanism as claimed in claim 1, it is characterised in that be additionally provided with sweeping machine structure in the frame, described
Sweeping machine structure removes the detritus after workpiece processing.
3. double-pole turning mechanism as claimed in claim 1 or 2, it is characterised in that the feed mechanism includes the first cylinder, peace
Dress plate, first support bar, second support bar, no bar cylinder, guide rail, connecting plate and positioning mould, first cylinder is located at described
In frame, on first cylinder, the first support bar and the second support bar are respectively mounted plate to the installing plate
Upper end both sides, in the second support bar, the guide rail is located at the first support bar and the nothing for the no bar cylinder
Thick stick cylinder upper end, the connecting plate are located at the guide rail upper end, and the positioning modulus amount is several, and the positioning mould is uniformly distributed
On the connecting plate.
4. double-pole turning mechanism as claimed in claim 1, it is characterised in that the turning elevating mechanism includes:Second cylinder,
, in the frame, the mounting seat is placed on the guide rod, institute for guide rod and mounting seat, second cylinder and the guide rod
State mounting seat described in the second air cylinder driven to slide along the guide rod.
5. the double-pole turning mechanism as described in claim 1 or 4, it is characterised in that the turning actuating unit includes:Motor,
Mounting shell, drivewheel, driven pulley and transmission belt, the motor and the mounting shell are on the turning elevating mechanism, described
, on the mounting shell, the transmission belt is wound on the drivewheel and the driven pulley for drivewheel and the driven pulley,
Drivewheel rotation described in the Motor drive so that the driven pulley and transmission belt rotation.
6. the double-pole turning mechanism as described in claim 1 or 4, it is characterised in that the first lathe tool actuating unit includes:The
One track base, first slide, the first servomotor, the first screw mandrel, second slide, the second servomotor, the second screw mandrel, knife rest,
In the frame, the first slide and first servomotor are located at first track base to first track base
On, first screw mandrel is made located at the first slide, and first servomotor driving the first screw mandrel rotation is run through
Obtain first slide and be provided with slip on the first track base, the second slide and second servomotor are located at the described first cunning
On seat, second screw mandrel is located at and runs through the second slide, and second servomotor drives the second screw mandrel rotation,
So that second slide is being provided with slip in first slide, the knife rest is in the second slide.
7. the double-pole turning mechanism as described in claim 1 or 4, it is characterised in that the second lathe tool actuating unit includes:The
Two track bases, the 3rd slide, the 3rd servomotor, the 3rd screw mandrel, the 4th slide, the 4th servomotor, the 4th screw mandrel, the second knife
Frame, second track base in the frame, lead located at described second by the 3rd slide and the 3rd servomotor
On rail chair, the 3rd screw mandrel is located at and runs through the 3rd slide, and the 3rd servomotor drives the 3rd screw mandrel rotation
Turn so that the 3rd slide is being provided with slip on the second track base, and the 4th slide and the 4th servomotor are located at described
On 3rd slide, the 4th screw mandrel is located at and runs through the 4th slide, and the 4th servomotor driving is described 4th
Bar rotates so that the 4th slide slides on the 3rd slide.
8. double-pole turning mechanism as claimed in claim 2, it is characterised in that the sweeping machine structure includes:Installing rack, the 3rd gas
Cylinder, the second installing plate, the second motor, belt pulley, the second transmission belt, the 3rd motor and cleaning brush, the installing rack is located at described
In frame, on the installing rack, second installing plate is placed on the installing rack the 3rd cylinder, the 3rd gas
Cylinder drives the second installing plate motion, second motor and the belt pulley to be located on second installing plate, described
Second transmission belt is placed on the belt pulley, and belt pulley described in second Motor drive and second transmission belt rotate, institute
The 3rd motor is stated on second installing plate, cleaning brush described in the 3rd Motor drive rotates.
9. double-pole turning mechanism as claimed in claim 1, it is characterised in that the conveyer is chain wheel conveyor.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620911954.2U CN205967432U (en) | 2016-08-20 | 2016-08-20 | Double knives turning machine constructs |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201620911954.2U CN205967432U (en) | 2016-08-20 | 2016-08-20 | Double knives turning machine constructs |
Publications (1)
Publication Number | Publication Date |
---|---|
CN205967432U true CN205967432U (en) | 2017-02-22 |
Family
ID=58032205
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201620911954.2U Active CN205967432U (en) | 2016-08-20 | 2016-08-20 | Double knives turning machine constructs |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN205967432U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108655420A (en) * | 2018-08-02 | 2018-10-16 | 兰溪市兰发纺织机械制造有限公司 | A kind of full automatic turning machine |
-
2016
- 2016-08-20 CN CN201620911954.2U patent/CN205967432U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108655420A (en) * | 2018-08-02 | 2018-10-16 | 兰溪市兰发纺织机械制造有限公司 | A kind of full automatic turning machine |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN101392434B (en) | Hemming production line of face cloth | |
CN102790479B (en) | A kind of rotor bearing assembly machine | |
CN104384602B (en) | Double-head saw cutting circular saw | |
CN205871100U (en) | Automatic mouth of a river machine of cutting of injection molding | |
CN202772743U (en) | Motor rotor bearing assembling machine | |
CN105049561A (en) | Mobile phone film production line | |
CN204993470U (en) | Mobile phone film production line | |
CN205967432U (en) | Double knives turning machine constructs | |
CN114603360A (en) | High-speed drilling and milling machining center based on dynamic optimization and working method thereof | |
CN204183030U (en) | A kind of Double-head sawing circular sawing machine | |
CN207087461U (en) | A kind of numerically controlled lathe iron chips cleaning device | |
CN117140918B (en) | Servo high-speed machine | |
CN107363555B (en) | Energy-saving door leaf lines processingequipment | |
CN212191758U (en) | On-line synchronous laser cutting mechanism | |
CN201483609U (en) | pencil slat hexahedral processing machine | |
CN203558475U (en) | Automatic injection molding product post-processing production line matched with multiple injection molding machines | |
CN203916982U (en) | A kind of automatic paint-spraying machine | |
CN207205500U (en) | A kind of circulating pneumatic soldering mechanism | |
CN103624010B (en) | Facilitate chopsticks microcephaly's disjunctor selection equipment | |
CN106808026B (en) | Rotor cutting machine | |
CN216441286U (en) | Reed pipe through hole machine | |
CN206395289U (en) | A kind of gate-type branch feeding device | |
CN205413810U (en) | Full -automatic pipeline cleaning device | |
CN211865654U (en) | Glove dispensing processing equipment | |
CN210306708U (en) | Milling machine for processing airtight door |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CP01 | Change in the name or title of a patent holder |
Address after: No. 45, Liangbian Shihe Road, Liaobu, Dongguan, Guangdong 523000 Patentee after: Yuli Equipment (Guangdong) Co.,Ltd. Address before: No. 45, Liangbian Shihe Road, Liaobu, Dongguan, Guangdong 523000 Patentee before: DONGGUAN YULI MACHINERY Co.,Ltd. |
|
CP01 | Change in the name or title of a patent holder |