CN102528847A - Axial automatic adjustment device for rotary die-cutting knife roll with visual camera - Google Patents
Axial automatic adjustment device for rotary die-cutting knife roll with visual camera Download PDFInfo
- Publication number
- CN102528847A CN102528847A CN2012100322862A CN201210032286A CN102528847A CN 102528847 A CN102528847 A CN 102528847A CN 2012100322862 A CN2012100322862 A CN 2012100322862A CN 201210032286 A CN201210032286 A CN 201210032286A CN 102528847 A CN102528847 A CN 102528847A
- Authority
- CN
- China
- Prior art keywords
- push rod
- module
- thrust bearing
- bearing
- transmission mechanism
- 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.)
- Pending
Links
Images
Landscapes
- Perforating, Stamping-Out Or Severing By Means Other Than Cutting (AREA)
Abstract
The invention discloses an axial automatic adjustment device for a rotary die-cutting knife roll with a visual camera. The device comprises the visual camera, a controller, a motor, a transmission mechanism, a guide mechanism, a push rod, a thrust bearing I, a module I, a bearing I, a thrust bearing II, a module II, a bearing II and a die spring, wherein the visual camera acquires a product pattern on a moving material band, measures the size of a product and sends the size of the product to the controller; the controller calculates an axial error between the size of the product and an ideal size of the product, and controls the motor to output corresponding motion according to the axial error; the motor drives the transmission mechanism; and the transmission mechanism drives the push rod to do axial motion in the module I, so that the rotary die-cutting knife roll is axially and automatically adjusted to a required position.
Description
Under technical field the present invention relates to the adjusting device of the rotating mould cutting roller of rotating mould cutter, especially a kind of axial self-checking device of the rotating mould cutting roller with vision camera.
Background technology is in the rotating mould cutter; In order to make the die cutter roller position of the requirement of cross cutting on the motion strip exactly; The phase place of primary need adjustment die cutter roller on direction of rotation; So that at die cutter roller cross cutting on the strip direction of motion on position accurately, this on the die cutter roller direction of rotation adjusting device to phase place in industry, be called the cover cutting apparatus, a lot of such commodity sellings are arranged on the market; The axial location of secondary need adjustment die cutter roller so that with the perpendicular direction of the strip direction of motion on the die cutter roller cross cutting on position accurately, on rotating mould cutter behind the seal; Owing to only need a die cutter roller, thus generally be to utilize automatic deviation rectifying device to regulate the about position of strip so that with the perpendicular direction of the strip direction of motion on the die cutter roller cross cutting on position accurately; In the cross cutting field that needs use a plurality of rotating mould cutting rollers to accomplish; The cross cutting manufacture field of multilayer adhesive article for example, repeatedly cross cutting is repeatedly compound owing to need the strip of different materials, so can not adopt the method for the about position of adjustment strip again; It can only be the axial location of regulating each rotating mould cutting roller; So that with the perpendicular direction of the strip direction of motion on the die cutter roller cross cutting on position accurately, mostly present this adjusting device is that manual operations accomplishes, because in the strip motion; Its axial location of the product that processes on the strip detects inconvenient; Adding the multistation rotating mould cutting roller needs often dismounting, and spindle nose limited location, the sector are again emerging industries; So the axial adjustment of rotating mould cutting roller does not also have self-checking device at present.
Along with the continuous attenuation of electronic product diminishes; Securing member originally is fewer and feweri; Utilize the multilayer adhesive article realize sealing, bonding, dustproof is local more and more, so need rotating mould cutting roller in a hurry axially also can realize automatic adjustment, to improve the quality and the process velocity of multilayer adhesive article; Save manpower, improve output.
Summary of the invention is on the rotating mould cutter; In order to realize that rotating mould cutting roller is requiring on the position with the perpendicular axial automatic accurate ground cross cutting of the processed strip direction of motion, the present invention provides a kind of axial self-checking device of the rotating mould cutting roller with vision camera.
The technical solution adopted for the present invention to solve the technical problems is: this device comprises vision camera, controller, motor, transmission mechanism, guiding mechanism, push rod, thrust bearing 1, module 1, bearing 1, thrust bearing 2, module 2, bearing 2 and die springs, and controller is a kind of in PLC, motion controller, the computer, and motor is a kind of in stepping motor, servomotor and the linear motor; Transmission mechanism is a kind of in turbine and worm, rack-and-pinion and the reductor; Guiding mechanism is a kind of in guide rod, gathering sill, linear bearing, line slideway and the dovetail groove, and the structure of push rod is a kind of in screw rod, tooth bar, polished rod and the leading screw, and it is characterized in that: module 1 has bearing 1; Thrust bearing 1 is in module 1; Thrust bearing 1 is concentric with bearing 1, and an end of push rod pushes up on the thrust bearing 1, and thrust bearing 1 is between bearing 1 and push rod; The spindle nose 1 of rotating mould cutting roller is installed in the bearing 1; The spindle nose 1 of rotating mould cutting roller withstands on the thrust bearing 1, and the spindle nose 2 of rotating mould cutting roller is installed in the bearing 2 of module 2, and thrust bearing 2 is in module 2; The spindle nose 2 of rotating mould cutting roller withstands on the thrust bearing 2; Die springs is between the housing of thrust bearing 2 and module 2, and thrust bearing 2 is pressed on the die springs, and die springs makes the spindle nose 1 of rotating mould cutting roller be pressed on the thrust bearing 1; Vision camera is gathered the product pattern on the motion strip; Measure product size and deliver to controller, controller calculates the axial error between product size and the desirable product size, according to this axial error; The corresponding motion of controller control motor output; The motor driven transmission mechanism, transmission mechanism drives push rod and in module 1, axially moves, and makes rotating mould cutting roller axially be adjusted to the position of needs automatically.
When push rod structure is screw rod, on the module 1 screw thread is arranged, push rod screws in the screw thread of module 1, and the rotation of push rod can make thrust bearing 1 axially move, and the axially-movable of thrust bearing 1 makes the rotating mould cutting roller axially-movable; When the output shaft of transmission mechanism is solid shafting, directly be connected through shaft coupling between its output shaft and the push rod, be connected through guiding mechanism between transmission mechanism and the module, the motor driven transmission mechanism, transmission mechanism slides on guiding mechanism; When transmission mechanism is the output shaft turbine and worm reductor vertical with power shaft; Turbine is installed on the push rod; One and more than one gathering sill are arranged on the push rod, one and more than one boss are arranged on the endoporus at turbine center, boss can slide in gathering sill; The turbine rotation drives the push rod rotation, and the axial location of turbine is motionless; When transmission mechanism is the output shaft reductor parallel with power shaft, gear 1 is arranged on the output shaft of reductor, gear 1 driven gear 2 rotates; Gear 2 is installed on the push rod; One and more than one gathering sill are arranged on the push rod, more than one boss is arranged on the endoporus of gear 2, boss slides in the gathering sill of push rod; The rotation of gear 2 drives the push rod rotation, and the axial location of gear 2 is motionless; When the output shaft of transmission mechanism is quill shaft output; Push rod inserts in the quill shaft, and one and more than one gathering sill are arranged on the push rod, and one and more than one boss are arranged on the endoporus of quill shaft; Boss can slide in gathering sill; The quill shaft rotation drives the push rod rotation, and the position of quill shaft is motionless, and transmission mechanism is fixed on the module.
When push rod structure is tooth bar; Transmission mechanism is fixed on the module 1, on the output shaft of transmission mechanism gear is arranged, the rotatablely moving of gear; Drive tooth bar and do rectilinear motion; The rectilinear motion of tooth bar is delivered on the thrust bearing 1, and thrust bearing 1 axially moves, and the axially-movable of thrust bearing 1 makes rotating mould cutting roller produce axially-movable.
When push rod structure was leading screw, transmission mechanism was fixed on the module 1, on the module 1 pair of nut is arranged; The axial location of pair of nut is constant; The secondary rotation of transmission mechanism drive nut, the rotating band movable wire thick stick of pair of nut is done axial linear movement, and the rectilinear motion of leading screw is directly delivered on the thrust bearing 1; Thrust bearing 1 is axially moved, and the axially-movable of thrust bearing 1 makes rotating mould cutting roller produce axially-movable.
The invention has the beneficial effects as follows the axial-adjustment unit of this rotating mould cutting roller; Cooperation through vision camera, controller and transmission mechanism; Realized axially regulating automatically of rotating mould cutting roller, because the technical measures that this invention is taked all are mature and feasible, so can realize.
Hereinafter combines accompanying drawing and embodiment, and the present invention is further specified.
Fig. 1 is first embodiment of the present invention.
Fig. 2 is second embodiment of the present invention.
Fig. 3 is the 3rd embodiment of the present invention.
Fig. 4 is the 4th embodiment of the present invention.
Fig. 5 is the 5th embodiment of the present invention.
Fig. 6 is the 6th embodiment of the present invention.
Fig. 7 is the 7th embodiment of the present invention.
Fig. 8 is the 8th embodiment of the present invention.
1. die cutter rollers among the figure, 2. gear, 3. riser, 4. bearing, 5. module, 6. spindle nose, 7. jacking block, 8. thrust metal, 9. die springs; 10. thrust bearing, 11. risers, 12. modules, 13. bearings, 14. spindle noses, 15. jacking blocks, 16. thrust bearings, 17. thrust metals, 18. push rods; 19. gear, 20. handwheels, 21. gathering sills, 22. boss, 23. protective covers, 24. gears, 25. supports, 26. motor, 27. turbines; 28. worm screw, 29. guide rods, 30. slip rings, 31. reductors, 32. linear bearings, 33. slide blocks, 34. gears, 35. gears, 36. gears; 37. linear motor, 38. movers, 39. stators, 40. die cutter rollers, 41. modules, 42. modules, 43. risers, 44. risers, 45. push rods; 46. handwheel, 47. cuttves flower, 48. die cutter rollers, 49. modules, 50. modules, 51. risers, 52. risers, 53. push rods, 54. handwheels; 55. gear, 56. protective covers, 57. motor, 58. cuttves flower, 59. controllers, 60. vision camera, 61. strips, 62. semi-finished product, 63. products.
The specific embodiment is in Fig. 1; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod has screw thread on (18), and module has screw on (12), and push rod (18) screws in the screw of module (12); Gathering sill (21) is arranged on the push rod (18), boss (22) is arranged on the gear (19), boss (22) gos deep in the gathering sill (21); And can in gathering sill (21), horizontally slip, motor (26) is fixed on the module (12) through support (25), output shaft driven gear (24) rotation of motor (26); Gear (24) driven gear (19) rotation, gear (19) rotation drives boss (22) rotation; Boss (22) drives push rod (18) rotation, and the screw-in of push rod (18) in module (12) screws out the axial location that can change spindle nose (14), thus the axial location of adjustment die cutter roller (1); Because boss (22) can slide in gathering sill (21), gear (19) does not change axial location, and handwheel (20) is fixed on the push rod (18); The rotation of handwheel (20) also can be adjusted the axial location of die cutter roller (1) manually; Protective cover (23) is installed on the support (25), except that shielding, also gear (19) is had position-limiting action.
In Fig. 2; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod has screw thread on (18), and module has screw on (12), and push rod (18) screws in the screw of module (12); Gathering sill (21) is arranged on the push rod (18), and turbine (27) is installed on the push rod (18), and boss (22) is arranged on the turbine (27); Boss (22) gos deep in the gathering sill (21), and can in gathering sill (21), horizontally slip, and motor (26) is fixed on the module (12) through support (25); The output shaft of motor (26) drives worm screw (28) rotation, and worm screw (28) rotation drives turbine (27) rotation, turbine (27) rotation; Drive boss (22) rotation, boss (22) drives push rod (18) rotation, and the screw-in of push rod (18) in module (12) screws out the axial location that can change spindle nose (14); Thereby the axial location of adjustment die cutter roller (1), because boss (22) can slide in gathering sill (21), turbine (27) does not change axial location; Protective cover (23) is installed on the support (25), except that shielding, also turbine (27) is had position-limiting action.
In Fig. 3; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod has screw thread on (18), and module has screw on (12), and push rod (18) screws in the screw of module (12); Guide rod (29) is fixed on the module (12), and slip ring (30) is enclosed within the guide rod (29), and can on guide rod (29), horizontally slip; Motor (26) links together with reductor (31); The output of reductor (31) and push rod (18) link together, and motor (26) is fixed on the slip ring (30) through support (25) with reductor (31), and motor (26) rotation drives reductor (31) rotation; The rotation of reductor (31) drives push rod (18) rotation; The screw-in of push rod (18) in module (12) screws out the axial location that can change spindle nose (14), thereby the axial location of adjustment die cutter roller (1) is equipped with motor (26) and goes up side-to-side movement with the slip ring (30) of reductor (31) at guide rod (29).
In Fig. 4; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod has screw thread on (18), and module has screw on (12), and push rod (18) screws in the screw of module (12); Linear bearing (32) is fixed on the module (12), and slide block (33) is enclosed within the linear bearing (32), and can on linear bearing (32), horizontally slip; Motor (26) links together with reductor (31); The output of reductor (31) and push rod (18) link together, and motor (26) is fixed on the slide block (33) through support (25) with reductor (31), and motor (26) rotation drives reductor (31) rotation; The rotation of reductor (31) drives push rod (18) rotation; The screw-in of push rod (18) in module (12) screws out the axial location that can change spindle nose (14), thereby the axial location of adjustment die cutter roller (1) is equipped with motor (26) and goes up side-to-side movement with the slide block (33) of reductor (31) at linear bearing (32).
In Fig. 5; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod (18) is a tooth bar; In the one end insert module (12) of push rod (18); Motor (26) is fixed on the module (12) through support (25), output shaft driven gear (34) rotation of motor (26), and the push rod (18) of gear (34) rotating band carry-over bar shape is made left and right sides rectilinear motion; The side-to-side movement of push rod (18) can change the axial location of spindle nose (14), thus the axial location of adjustment die cutter roller (1).
In Fig. 6; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod has screw thread on (18), and module has screw on (12), and push rod (18) screws in the screw of module (12); Gear (35) is fixed on the push rod (18), and motor (26) is fixed on the module (12) through support (25), output shaft driven gear (36) rotation of motor (26); Gear (36) driven gear (35) rotation, gear (35) rotation drives push rod (18) rotation; The screw-in of push rod (18) in module (12) screws out the axial location that can change spindle nose (14), thus the axial location of adjustment die cutter roller (1), and the width of gear (36) is greater than the axially-movable stroke of push rod (18); Handwheel (20) is fixed on the push rod (18); The rotation of handwheel (20) also can be adjusted the axial location of die cutter roller (1) manually, and protective cover (23) is installed on the support (25), outside shielding.
In Fig. 7; Gear (2) is arranged on the die cutter roller (1), bearing (4), thrust metal (8) and die springs (9) are arranged in the module (5), the spindle nose (6) of die cutter roller (1) inserts in the bearing (4); Jacking block (7) and thrust bearing (10) are arranged in the thrust metal (8); Under the effect of die springs (9), jacking block (7) and spindle nose (6) contact, and module (5) is installed on the riser (3); Bearing (13), thrust metal (17) are arranged in the module (12); The spindle nose (14) of die cutter roller (1) inserts in the bearing (13); Jacking block (15) and thrust bearing (16) are arranged in the thrust metal (17); Module (12) is installed on the riser (11), and under the effect of push rod (18), jacking block (15) and spindle nose (14) contact; Push rod (18) is connected with the mover (38) of linear motor (37); In the insert module (12) of push rod (18), linear motor (37) is fixed on the module (12), after stator (39) energising of linear motor (37); Drive mover (38) and do left and right sides rectilinear motion; Mover (38) promotes push rod (18) and does left and right sides rectilinear motion, and the side-to-side movement of push rod (18) can change the axial location of spindle nose (14), thus the axial location of adjustment die cutter roller (1).
In Fig. 8, two spindle noses of die cutter roller (40) are contained in respectively on module (41) and the module (42), and module (41) is contained on the riser (43); Module (42) is contained on the riser (44), and handwheel (46) is fixed on the push rod (45), and push rod has screw thread on (45); Module has screw on (42); Push rod (45) screws in the screw of module (42), and cutter flower (47) is arranged on the die cutter roller (40), forms semi-finished product (62) behind strip (61) process die cutter roller (40) cross cutting; Two spindle noses of cutting roller (48) are contained in respectively on module (49) and the module (50), and module (49) is contained on the riser (51), and module (50) is contained on the riser (52); Cutter flower (58) is arranged on the die cutter roller (48), form product (63) behind strip (61) process die cutter roller (48) cross cutting, handwheel (54) is fixed on the push rod (53); Push rod has screw thread on (53), and module has screw on (50), and push rod (53) screws in the screw of module (50); Push rod (53) has gathering sill; Gear (55) is installed on the push rod (53), and gear has boss on (55), and motor (57) is through transmission mechanism driven wheel (55) rotation; The rotation of gear (55) can change the axial location of die cutter roller (48), and protective cover (56) is used to protect personal safety; Vision camera (60) is extracted the image of product (63) and is sent into controller (59); Controller (59) calculates the axial error that shape that die cutter roller (48) cross cutting goes out occurs in product (63); And go to control the anglec of rotation of motor (57) according to this error; Regulate the axial location of die cutter roller (48), thereby produce satisfactory product.
Those of ordinary skill in the art should be realized that; Though 8 embodiment have only been described in the front; But they are not form of ownership of the present invention; It should be understood that; Under the situation that does not deviate from the spirit and scope of the present invention, can make many modifications, like quantity, the appellation that changes motor, the form that changes guiding mechanism, the form that changes transmission mechanism, the profile that changes module, the shape that changes die springs, the profile that changes die cutter roller, the shape and the quantity that change the structure in the module, the profile that changes protective cover, the appellation that changes boss and quantity, change gathering sill that change die cutter roller, remove or increase thrust metal, remove or increase jacking block, or the like; Obviously; Those skilled in the art does not break away from design of the present invention can be with other form embodiment of the present invention, thereby other embodiment is also in the scope of claim of the present invention.
Claims (4)
1. axial self-checking device with the rotating mould cutting roller of vision camera, this device comprises vision camera, controller, motor, transmission mechanism, guiding mechanism, push rod, thrust bearing 1, module 1, bearing 1, thrust bearing 2, module 2, bearing 2 and die springs, controller is a kind of in PLC, motion controller, the computer; Motor is a kind of in stepping motor, servomotor and the linear motor, and transmission mechanism is a kind of in turbine and worm, rack-and-pinion and the reductor, and guiding mechanism is a kind of in guide rod, gathering sill, linear bearing, line slideway and the dovetail groove; The structure of push rod is a kind of in screw rod, tooth bar, polished rod and the leading screw; It is characterized in that: module 1 has bearing 1, and thrust bearing 1 is in module 1, and thrust bearing 1 is concentric with bearing 1; One end of push rod pushes up on the thrust bearing 1; Thrust bearing 1 is between bearing 1 and push rod, and the spindle nose 1 of rotating mould cutting roller is installed in the bearing 1, and the spindle nose 1 of rotating mould cutting roller withstands on the thrust bearing 1; The spindle nose 2 of rotating mould cutting roller is installed in the bearing 2 of module 2; Thrust bearing 2 is in module 2, and the spindle nose 2 of rotating mould cutting roller withstands on the thrust bearing 2, and die springs is between the housing of thrust bearing 2 and module 2; Thrust bearing 2 is pressed on the die springs, and die springs makes the spindle nose 1 of rotating mould cutting roller be pressed on the thrust bearing 1; Vision camera is gathered the product pattern on the motion strip; Measure product size and deliver to controller, controller calculates the axial error between product size and the desirable product size, according to this axial error; The corresponding motion of controller control motor output; The motor driven transmission mechanism, transmission mechanism drives push rod and in module 1, axially moves, and makes rotating mould cutting roller axially be adjusted to the position of needs automatically.
2. the axial self-checking device of the rotating mould cutting roller of band vision camera according to claim 1; It is characterized in that: when push rod structure is screw rod; On the module 1 screw thread is arranged; Push rod screws in the screw thread of module 1, and the rotation of push rod can make thrust bearing 1 axially move, and the axially-movable of thrust bearing 1 makes the rotating mould cutting roller axially-movable; When the output shaft of transmission mechanism is solid shafting, directly be connected through shaft coupling between its output shaft and the push rod, be connected through guiding mechanism between transmission mechanism and the module, the motor driven transmission mechanism, transmission mechanism slides on guiding mechanism; When transmission mechanism is the output shaft turbine and worm reductor vertical with power shaft; Turbine is installed on the push rod; One and more than one gathering sill are arranged on the push rod, one and more than one boss are arranged on the endoporus at turbine center, boss can slide in gathering sill; The turbine rotation drives the push rod rotation, and the axial location of turbine is motionless; When transmission mechanism is the output shaft reductor parallel with power shaft, gear 1 is arranged on the output shaft of reductor, gear 1 driven gear 2 rotates; Gear 2 is installed on the push rod; One and more than one gathering sill are arranged on the push rod, more than one boss is arranged on the endoporus of gear 2, boss slides in the gathering sill of push rod; The rotation of gear 2 drives the push rod rotation, and the axial location of gear 2 is motionless; When the output shaft of transmission mechanism is quill shaft output; Push rod inserts in the quill shaft, and one and more than one gathering sill are arranged on the push rod, and one and more than one boss are arranged on the endoporus of quill shaft; Boss can slide in gathering sill; The quill shaft rotation drives the push rod rotation, and the position of quill shaft is motionless, and transmission mechanism is fixed on the module.
3. the axial self-checking device of the rotating mould cutting roller of band vision camera according to claim 1 is characterized in that: when push rod structure was tooth bar, transmission mechanism was fixed on the module 1; On the output shaft of transmission mechanism gear is arranged; Rotatablely moving of gear drives tooth bar and does rectilinear motion, and the rectilinear motion of tooth bar is delivered on the thrust bearing 1; Thrust bearing 1 axially moves, and the axially-movable of thrust bearing 1 makes rotating mould cutting roller produce axially-movable.
4. the axial self-checking device of the rotating mould cutting roller of band vision camera according to claim 1; It is characterized in that: when push rod structure was leading screw, transmission mechanism was fixed on the module 1, on the module 1 pair of nut is arranged; The axial location of pair of nut is constant; The secondary rotation of transmission mechanism drive nut, the rotating band movable wire thick stick of pair of nut is done axial linear movement, and the rectilinear motion of leading screw is directly delivered on the thrust bearing 1; Thrust bearing 1 is axially moved, and the axially-movable of thrust bearing 1 makes rotating mould cutting roller produce axially-movable.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012100322862A CN102528847A (en) | 2012-02-09 | 2012-02-09 | Axial automatic adjustment device for rotary die-cutting knife roll with visual camera |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2012100322862A CN102528847A (en) | 2012-02-09 | 2012-02-09 | Axial automatic adjustment device for rotary die-cutting knife roll with visual camera |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN102528847A true CN102528847A (en) | 2012-07-04 |
Family
ID=46337500
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN2012100322862A Pending CN102528847A (en) | 2012-02-09 | 2012-02-09 | Axial automatic adjustment device for rotary die-cutting knife roll with visual camera |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102528847A (en) |
Cited By (10)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104476607A (en) * | 2014-10-16 | 2015-04-01 | 西安交通大学 | Screw type transverse cutting machine tool setting testing system and method |
| CN106878597A (en) * | 2017-03-06 | 2017-06-20 | 浙江大学 | A kind of intelligent vehicle-carried video camera with panorama and close up function |
| CN108162057A (en) * | 2017-12-19 | 2018-06-15 | 德普惠(福建)自动化设备有限公司 | A kind of rotating die cutting regulator and rotating die cutting assembly |
| CN108654877A (en) * | 2018-04-27 | 2018-10-16 | 刘孟凡 | A kind of environment-friendly type building tubing spray-painting plant |
| CN108687135A (en) * | 2018-05-16 | 2018-10-23 | 辽宁工程技术大学 | A kind of roller mill pressure roller axial position self-checking device |
| CN111147748A (en) * | 2019-12-31 | 2020-05-12 | 中融飞腾(北京)科技有限公司 | Signal triggering system for CCD system on die-cutting machine |
| CN113021498A (en) * | 2021-04-20 | 2021-06-25 | 巨力辉腾科技(北京)有限公司 | High-precision direct-drive die cutting station |
| CN113733219A (en) * | 2020-05-29 | 2021-12-03 | 廊坊纽特科技有限公司 | Automatic Y is to tool setting device |
| CN115069631A (en) * | 2022-07-04 | 2022-09-20 | 苏州中航盛世刀辊制造有限公司 | Waste suction module knife device |
| CN115069631B (en) * | 2022-07-04 | 2024-10-29 | 苏州中航盛世刀辊制造有限公司 | Waste suction module knife device |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1408547A (en) * | 2001-10-01 | 2003-04-09 | 琳得科株式会社 | Rolling tube support structure of printing machine |
| CN201046855Y (en) * | 2007-06-21 | 2008-04-16 | 杭州开源电脑技术有限公司 | Conduction band accurate automatic error-correcting system |
| CN101637925A (en) * | 2009-05-11 | 2010-02-03 | 东莞市飞新达精密机械科技有限公司 | Circular knife axial regulating device of die cutting machine |
| CN201530165U (en) * | 2009-11-12 | 2010-07-21 | 运城制版印刷机械制造有限公司 | Automatic transverse plate adjusting mechanism of gravure printing machine |
-
2012
- 2012-02-09 CN CN2012100322862A patent/CN102528847A/en active Pending
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN1408547A (en) * | 2001-10-01 | 2003-04-09 | 琳得科株式会社 | Rolling tube support structure of printing machine |
| CN201046855Y (en) * | 2007-06-21 | 2008-04-16 | 杭州开源电脑技术有限公司 | Conduction band accurate automatic error-correcting system |
| CN101637925A (en) * | 2009-05-11 | 2010-02-03 | 东莞市飞新达精密机械科技有限公司 | Circular knife axial regulating device of die cutting machine |
| CN201530165U (en) * | 2009-11-12 | 2010-07-21 | 运城制版印刷机械制造有限公司 | Automatic transverse plate adjusting mechanism of gravure printing machine |
Cited By (14)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104476607A (en) * | 2014-10-16 | 2015-04-01 | 西安交通大学 | Screw type transverse cutting machine tool setting testing system and method |
| CN106878597A (en) * | 2017-03-06 | 2017-06-20 | 浙江大学 | A kind of intelligent vehicle-carried video camera with panorama and close up function |
| CN108162057B (en) * | 2017-12-19 | 2020-05-05 | 德普惠(福建)自动化设备有限公司 | Rotary die cutting pressure regulating device and rotary die cutting assembly |
| CN108162057A (en) * | 2017-12-19 | 2018-06-15 | 德普惠(福建)自动化设备有限公司 | A kind of rotating die cutting regulator and rotating die cutting assembly |
| CN108654877A (en) * | 2018-04-27 | 2018-10-16 | 刘孟凡 | A kind of environment-friendly type building tubing spray-painting plant |
| CN108654877B (en) * | 2018-04-27 | 2020-12-01 | 杨智萍 | Environment-friendly building tubular product paint spraying apparatus |
| CN108687135B (en) * | 2018-05-16 | 2019-11-15 | 辽宁工程技术大学 | A kind of roller mill pressure roller axial position self-checking device |
| CN108687135A (en) * | 2018-05-16 | 2018-10-23 | 辽宁工程技术大学 | A kind of roller mill pressure roller axial position self-checking device |
| CN111147748A (en) * | 2019-12-31 | 2020-05-12 | 中融飞腾(北京)科技有限公司 | Signal triggering system for CCD system on die-cutting machine |
| CN111147748B (en) * | 2019-12-31 | 2022-03-15 | 中融飞腾(北京)科技有限公司 | Signal triggering system for CCD system on die-cutting machine |
| CN113733219A (en) * | 2020-05-29 | 2021-12-03 | 廊坊纽特科技有限公司 | Automatic Y is to tool setting device |
| CN113021498A (en) * | 2021-04-20 | 2021-06-25 | 巨力辉腾科技(北京)有限公司 | High-precision direct-drive die cutting station |
| CN115069631A (en) * | 2022-07-04 | 2022-09-20 | 苏州中航盛世刀辊制造有限公司 | Waste suction module knife device |
| CN115069631B (en) * | 2022-07-04 | 2024-10-29 | 苏州中航盛世刀辊制造有限公司 | Waste suction module knife device |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| CN102528847A (en) | Axial automatic adjustment device for rotary die-cutting knife roll with visual camera | |
| CN103316989B (en) | Numerically-controlled thread punching and shearing equipment for silicon steel sheet | |
| CN203918079U (en) | High accuracy flying shearing machine | |
| CN203184475U (en) | Back material-stop system of automatic lifting numerical control bending machine | |
| CN204585312U (en) | Corrugated pipe cut-off machine | |
| CN206912365U (en) | Automatic casing cutter | |
| CN104552397A (en) | Corrugated pipe cut-off machine | |
| CN202539322U (en) | Silicon sheet numerical control punching shear wire device | |
| CN204277065U (en) | A kind of swing-type plate shears | |
| CN101456189A (en) | Cutting system | |
| CN106217145A (en) | A kind of cutter grinding machine | |
| CN102873391B (en) | Circle shear device for both trimming and slitting of aluminum strips | |
| CN104741683B (en) | It is a kind of roll-turning horizontal to cut device | |
| CN102371392A (en) | High-speed precise online numerical-control milling machine and control method thereof | |
| CN204220641U (en) | Device is led in a kind of side | |
| CN203917405U (en) | Cold rolling straightener roll gap automatic regulating apparatus | |
| CN202498258U (en) | Adjusting mechanism for shear blade gap of flying shear | |
| EP2934777B1 (en) | Rest bar for double or multi-stranded production plant | |
| CN202779996U (en) | Circle shear device with dual purposes of side shearing and segmentation for aluminum strip | |
| CN205915118U (en) | Art designer's sword grinding machine | |
| CN208644236U (en) | Plate shearing machine fixed length feeding device in mechanical processing process | |
| CN205467386U (en) | Straight -line motion mechanism | |
| CN102489771A (en) | Adjusting mechanism for gap between two cutting edges of flying shears | |
| CN204053074U (en) | A kind of aluminium alloy strips slitter with eccentricity compensation function | |
| CN204843143U (en) | Hydraulic pressure vertical feed formula metal saw blade mills tooth machine |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| DD01 | Delivery of document by public notice |
Addressee: Yao Fulai Document name: Notification of Acceptance of Patent Application |
|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| DD01 | Delivery of document by public notice |
Addressee: Beijing Zodngoc Automatic Technology Co., Ltd. Document name: the First Notification of an Office Action |
|
| DD01 | Delivery of document by public notice |
Addressee: Yao Fulai Document name: Notification that Application Deemed to be Withdrawn |
|
| C02 | Deemed withdrawal of patent application after publication (patent law 2001) | ||
| WD01 | Invention patent application deemed withdrawn after publication |
Application publication date: 20120704 |