CN203401125U - Computer numerical control (CNC) full-automatic cage window milling machine - Google Patents
Computer numerical control (CNC) full-automatic cage window milling machine Download PDFInfo
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- CN203401125U CN203401125U CN201320438380.8U CN201320438380U CN203401125U CN 203401125 U CN203401125 U CN 203401125U CN 201320438380 U CN201320438380 U CN 201320438380U CN 203401125 U CN203401125 U CN 203401125U
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- gliding mass
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Abstract
The utility model discloses a computer numerical control (CNC) full-automatic cage window milling machine. The milling machine adopts an integral high rigidity anti-vibration casting body, wherein the body is equipped with a linear guide and a precision ball screw, left and right longitudinal moving saddles, slide carriages and horizontal adjusting devices are installed on the body, milling power heads are installed on left and right sliding bodies, a spindle part is installed in the middle of the body, a clamping device part is installed on the spindle part, conveyor belts are installed on the two sides of the rear of the body, manipulators are installed above the rear of the body, and a workpiece conveying plate is installed at the left edge of the body and conveys workpieces to the conveyor belts. The milling machine has the beneficial effects that the workpieces are fully automatically fed and blanked for milling, and one worker can operate multiple machines, thus saving time and manpower, greatly reducing the production cost and improving the production efficiency.
Description
Technical field
The utility model relates to ball-cage constant velocity universal joint retainer technical field, particularly relates to a kind of numerical-control full-automatic retainer window milling machine.
Background technology
Numerical-control full-automatic retainer window milling machine is widely used in the milling of various C/V windows, within the scope of its working ability, can within the several seconds, process high-precision workpiece.Affect the precision of component shaping and the main cause of stability and efficiency has: 1, the integral rigidity of lathe; 2, the general single milling unit head adopting, hydraulic indexing, the rotation of hydraulic-driven turbine and worm, adopts manual loading and unloading, and complex operation, loses time, and lowers efficiency.
Summary of the invention
Technical problem to be solved in the utility model is a kind of numerical control retainer window milling machine proposing for above-mentioned prior art defect.
The utility model requires the technical problem solving to be achieved through the following technical solutions:
A kind of numerical-control full-automatic retainer window milling machine, comprise whole high rigidity antivibration casting fuselage, left and right longitudinal driving device, rotary main shaft parts, left and right saddle, left and right slide, left and right gliding mass, left and right milling unit head, left and right transverse adjustment device, Workpiece clamping device, pneumatic means, Workpiece cooling device, workpiece feeding transfer dish, workpiece transfer device, workpiece connect material slide plate and manipulator, described left and right longitudinal driving device is fixedly mounted on integral lathe bed upper surface, described rotary main shaft parts are fixedly mounted on the centre of integral lathe bed, described left and right saddle is fixedly mounted on respectively on the longitudinal driving device of left and right and can longitudinally moves around, described left and right slide is fixedly mounted on saddle, described transverse adjustment device is fixedly mounted on slide upper surface, described gliding mass is arranged on x wire rail device and the adjustment of energy transverse reciprocating, described milling unit head is fixedly mounted on above gliding mass and laterally adjusts back and forth height and self energy High Rotation Speed milling workpiece with gliding mass, described Workpiece clamping device is fixedly mounted on rotary main shaft parts and energy clamping and release workpiece, what described pneumatic means was fixedly mounted on rotary main shaft parts below pulls pull bar that Workpiece clamping is unclamped, described Workpiece cooling device fixed installation gliding mass upper surface, described workpiece transfer device is fixedly mounted on the right and left at lathe bed rear portion, described manipulator is fixedly mounted on lathe bed back upper place, described workpiece feeding transfer dish is fixedly mounted on lathe bed left surface, the described workpiece slide plate that connects material is fixedly mounted on the right at lathe bed rear portion.
Described longitudinal driving device is screw mandrel fixedly, and on described screw mandrel, all cover has feed screw nut, and described feed screw nut is separately fixed on saddle.
Described left and right saddle and left and right gliding mass are all fixedly mounted on above rolling guide.
Described left and right saddle and left and right gliding mass are all slidably connected by slide rail and slide block, described slide rail is fixedly mounted on respectively whole high rigidity antivibration casting machine with it on surperficial the right and left and left and right slide, described slide block set is on slide rail, and be fixedly mounted on respectively on left and right saddle and left and right gliding mass, described left and right saddle be take servomotor as power drive, described servomotor is fixedly mounted on respectively on the longitudinal driving device of left and right by shaft coupling is direct-connected, and servomotor rotatablely moves and longitudinally moves around by left and right screw mandrel control left and right saddle.
Described gliding mass be take manual adjustments screw rod as power drive, described adjustment screw rod by screw direct-connected to gliding mass, adjusting screw(rod) rotatablely moves and controls gliding mass transverse reciprocating and move to adjust height.
Described left and right longitudinal driving device, left and right saddle, the equal level of left and right milling unit head are installed on whole high rigidity antivibration casting machine surface with it, and are all positioned at the right and left at rotary main shaft center.
Described Workpiece clamping device, the equal at right angle setting of rotary main shaft parts are in lathe bed upper surface.
The high speed rotary cylinder that described piece-holder pneumatic means adopts.
Described milling unit head increases lubricating arrangement, and lubricating arrangement adopts grease lubrication.
The servomotor driving conveying belt that described workpiece transfer device adopts turns round, and the clamping device of the large small workpiece of adjustable dimension is installed, just locating retainer direction on conveyer belt.
Described manipulator is pneumatic control, and two manipulators are synchronous operation, can be simultaneously hand grab the workpiece another hand part of knocking off.
Described feeding transfer dish is that servomotor driving conveying belt ceaselessly turns round, and the size that transfer dish goes out workpiece mouth is just retainer two window opposite side minimum dimensions, guarantees to get final product just orientation before retainer upper conveyor belt.
The utility model beneficial effect: adopt whole high rigidity antivibration casting fuselage, longitudinal driving device, saddle and rotary main shaft parts are all directly installed on it whole high rigidity antivibration casting machine, rigidity is strong, add that full SERVO CONTROL vertically moves in conjunction with under the motion of workpiece spindle high-frequency rotating, can guarantee precision and the stability of workpiece milling; The full-automatic loading and unloading of workpiece milling, can realize the operation of people's multimachine, not only save time but also save manpower, greatly reduce production cost and have improved production efficiency.
Accompanying drawing explanation
Fig. 1 is the utility model structural perspective.
The specific embodiment
For technological means, creation characteristic that the utility model is realized, reach object and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.
During concrete enforcement, below with reference to Fig. 1, describe the utility model in detail, a kind of numerical-control full-automatic retainer window milling machine, comprise whole high rigidity antivibration casting fuselage 1, the right longitudinal driving device 2, right saddle 3, right slide 4, the right upward adjustment screw 5, the lower screw rod 6 of adjusting in the right, right gliding mass 7, right milling unit head 8, left milling unit head 9, left gliding mass 10, left side upward adjustment screw 11, under the left side, adjust screw rod 12, left side slide 13, left side saddle 14, the left side longitudinally drives 15, Workpiece clamping device 16, rotary main shaft parts 17, left side workpiece transfer dish 18, left side workpiece transfer device 19, the right slide plate 20 that connects material, rear manipulator 21 and front manipulator 22.Described the right longitudinal driving device 2 is fixed in the upper plane of whole high rigidity antivibration casting fuselage 1, described right saddle 3 is fixedly mounted on right longitudinal driving device 2, described right slide 4 is fixedly mounted on right saddle 3, 7 times surface mount rails of described right gliding mass and by raising screw rod 5 and adjust screw rod 6 under the right and be connected in the right, described right milling unit head 8 fixedly mounts on the right on gliding mass 7, described left side longitudinal driving device 15 is fixed in the upper plane of whole high rigidity antivibration casting fuselage 1, described left saddle 14 is fixedly mounted on left longitudinal driving device 15, described left slide 13 is fixedly mounted on left saddle 14, 10 times surface mount rails of described left gliding mass and by raising screw rod 11 and adjust screw rod 12 under the left side and be connected in the left side, on described left milling unit head 9 fixed installation on the left side gliding masses 10, rotary main shaft parts 17 are fixed on the middle upper plane of whole high rigidity antivibration casting fuselage 1, Workpiece clamping device 16 is fixedly mounted on the top of rotary main shaft parts 17, workpiece transfer dish 18 is fixedly mounted on lathe bed 1 side, the left side, conveyer belt 19 is fixedly mounted on the right and left at lathe bed 1 rear portion, the described workpiece slide plate 20 that connects material is fixedly mounted on the right at lathe bed rear portion, described front and back manipulator 22, 21 are fixedly mounted on lathe bed back upper place.
Left and right longitudinal driving device, left and right saddle, the equal level of left and right grinding electric main shaft are installed on whole high rigidity antivibration casting machine surface with it, and are all positioned at the right and left at rotary main shaft center.Workpiece clamping device, the equal at right angle setting of rotary main shaft parts are in lathe bed upper surface.
Processing work is transported on conveyer belt by the workpiece transfer dish that lathe bed left surface is installed, the rear manipulator that is fixedly mounted on lathe bed back upper place grabbing workpiece move to high accuracy clamping device 16 Automatic-clampings on rotary main shaft parts 17 and drive workpiece rotation from conveyer belt, left side longitudinal driving device 15 and the right longitudinal driving device 2 move to the Workpiece clamping device 16 on rotary main shaft parts 17 simultaneously to centre, rotary main shaft parts 17 high frequencies rotate back and forth and left and right longitudinal driving device 15, 2 interlocks can be carried out Milling Process, the top edge of limit, left and right milling unit head difference while milling both sides window and the lower limb of window, workpiece can complete the top and bottom Milling Process of six windows of retainer for 6 times in rotary main shaft automatic indexing, workpiece milling completes to be captured workpiece and moved to by the front manipulator that is fixed on lathe bed back upper place and connects material on slide plate.The full-automatic loading and unloading of workpiece, Automatic-clamping, clamped one time completes the top and bottom Milling Process of six windows of retainer.
Claims (8)
1. a numerical-control full-automatic retainer window milling machine, it is characterized in that: comprise whole high rigidity antivibration casting fuselage, left and right longitudinal driving device, rotary main shaft parts, left and right saddle, left and right slide, left and right gliding mass, left and right milling unit head, left and right transverse adjustment device, Workpiece clamping device, pneumatic means, Workpiece cooling device, workpiece feeding transfer dish, workpiece transfer device, workpiece connect material slide plate and manipulator, described left and right longitudinal driving device is fixedly mounted on integral lathe bed upper surface, described rotary main shaft parts are fixedly mounted on the centre of integral lathe bed, described left and right saddle is fixedly mounted on respectively on the longitudinal driving device of left and right and can longitudinally moves around, described left and right slide is fixedly mounted on saddle, described transverse adjustment device is fixedly mounted on slide upper surface, described gliding mass is arranged on x wire rail device and the adjustment of energy transverse reciprocating, described milling unit head is fixedly mounted on above gliding mass and laterally adjusts back and forth height and self energy High Rotation Speed milling workpiece with gliding mass, described Workpiece clamping device is fixedly mounted on rotary main shaft parts and energy clamping and release workpiece, what described pneumatic means was fixedly mounted on rotary main shaft parts below pulls pull bar that Workpiece clamping is unclamped, described Workpiece cooling device fixed installation gliding mass upper surface, described workpiece transfer device is fixedly mounted on the right and left at lathe bed rear portion, described manipulator is fixedly mounted on lathe bed back upper place, described workpiece feeding transfer dish is fixedly mounted on lathe bed left surface, the described workpiece slide plate that connects material is fixedly mounted on the right at lathe bed rear portion.
2. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: described longitudinal driving device is screw mandrel fixedly, on described screw mandrel, all cover has feed screw nut, and described feed screw nut is separately fixed on saddle.
3. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: described gliding mass be take manual adjustments screw rod as power drive, described adjustment screw rod by screw direct-connected to gliding mass, adjusting screw(rod) rotatablely moves and controls gliding mass transverse reciprocating and move to adjust height.
4. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: described Workpiece clamping device, the equal at right angle setting of rotary main shaft parts are in lathe bed upper surface.
5. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: the high speed rotary cylinder that described piece-holder pneumatic means adopts.
6. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: the servomotor driving conveying belt running that described workpiece transfer device adopts, the clamping device of the large small workpiece of adjustable dimension is installed, just locating retainer direction on conveyer belt.
7. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: described manipulator is pneumatic control, and two manipulators are synchronous operation, can be simultaneously hand grab the workpiece another hand part of knocking off.
8. according to a kind of numerical-control full-automatic retainer window milling machine claimed in claim 1, it is characterized in that: described feeding transfer dish is that servomotor driving conveying belt ceaselessly turns round, the size that transfer dish goes out workpiece mouth is just retainer two window opposite side minimum dimensions, guarantees to get final product just orientation before retainer upper conveyor belt.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320438380.8U CN203401125U (en) | 2013-07-23 | 2013-07-23 | Computer numerical control (CNC) full-automatic cage window milling machine |
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CN201320438380.8U CN203401125U (en) | 2013-07-23 | 2013-07-23 | Computer numerical control (CNC) full-automatic cage window milling machine |
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CN203401125U true CN203401125U (en) | 2014-01-22 |
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CN201320438380.8U Withdrawn - After Issue CN203401125U (en) | 2013-07-23 | 2013-07-23 | Computer numerical control (CNC) full-automatic cage window milling machine |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103381498A (en) * | 2013-07-23 | 2013-11-06 | 安徽力成机械装备有限公司 | Full-automatic numerical control milling machine for cage window |
CN108655761A (en) * | 2018-06-21 | 2018-10-16 | 李鹭扬 | A kind of new automatic Modular horizontal numerically-controlled machine tool |
-
2013
- 2013-07-23 CN CN201320438380.8U patent/CN203401125U/en not_active Withdrawn - After Issue
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103381498A (en) * | 2013-07-23 | 2013-11-06 | 安徽力成机械装备有限公司 | Full-automatic numerical control milling machine for cage window |
CN103381498B (en) * | 2013-07-23 | 2016-02-03 | 安徽力成机械装备有限公司 | A kind of numerical-control full-automatic retainer window milling machine |
CN108655761A (en) * | 2018-06-21 | 2018-10-16 | 李鹭扬 | A kind of new automatic Modular horizontal numerically-controlled machine tool |
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Legal Events
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140122 Effective date of abandoning: 20160203 |
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C25 | Abandonment of patent right or utility model to avoid double patenting |