CN204964403U - Cutter body breakage detection device - Google Patents
Cutter body breakage detection device Download PDFInfo
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- CN204964403U CN204964403U CN201520609429.0U CN201520609429U CN204964403U CN 204964403 U CN204964403 U CN 204964403U CN 201520609429 U CN201520609429 U CN 201520609429U CN 204964403 U CN204964403 U CN 204964403U
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Abstract
The utility model provides a cutter body breakage detection device, its include the main shaft, with main shaft fixed connection and can the drive of main shaft is descended rotatory cutting piece, is used for to control the cylinder of main shaft work, be located the cutting piece outside is in order to detect the optic fibre fixed block of the damaged degree of cutting piece and be used for detaching the gas blowing device of water smoke, gas blowing device include with the optic fibre mouth of optic fibre fixed block is linked together and locates a gas blowing device of water smoke and lie in in order to detach the optic fibre mouth two gas blowing device of cutting piece side in order to detach water smoke on the cutting piece to a gas blowing device can detach the water and the water smoke of optic fibre mouth department, and the 2nd gas blowing device can detach water and water smoke on the cutting piece, not only can avoid the optic fibre mouth to spatter and entry, can also reduce water smoke in the environment simultaneously to the influence of optical fiber detection precision, and measurement accuracy is higher, and stability is better.
Description
Technical field
The utility model relates to a kind of cutter body breakage pick-up unit, particularly relates to a kind of cutter body breakage pick-up unit that can detect cutter body breakage situation in the course of the work.
Background technology
The method of fiber laser arrays is mainly adopted to detect cutter hub damaged degree at present.Optical fiber is mainly fixed in an adjustment block by this optical fiber detecting method, before processing, adjustment block is moved to the position needing to detect, blowning installation is had below cutter, in cutter rotation process, the water being reduced below by blowning installation is thrown in detection fiber, thus ensures the accuracy in detection of optical fiber.But, although the blowning installation below cutter can reduce the impact of water on fiber laser arrays accuracy, but water and water smoke can not be avoided completely on the impact of fiber laser arrays precision.
In view of this, be necessary to be improved existing cutter body breakage pick-up unit, to solve the problem.
Utility model content
The purpose of this utility model is to provide a kind of novel cutter body breakage pick-up unit, and this cutter body breakage pick-up unit eliminates in cutting process that water and water smoke are on the impact detected, and accuracy of detection is higher, and stability is better.
For realizing above-mentioned utility model object, the utility model provides a kind of cutter body breakage pick-up unit, comprise main shaft, be fixedly connected with described main shaft and the cutting blade that can rotate under the drive of described main shaft and the cylinder in order to control described main shaft work, wherein, described cutter body breakage pick-up unit also comprises and being positioned at outside described cutting blade to detect the optical fiber fixed block of described cutting blade damaged degree and the blowning installation in order to remove water smoke, described blowning installation comprises the first blowning installation of being connected to remove optical fiber port place water smoke with the optical fiber port of described optical fiber fixed block and is positioned at described cutting blade side to remove the second blowning installation of water smoke on cutting blade.
As further improvement of the utility model, described optical fiber port is opened in one end of described optical fiber fixed block and is oppositely arranged with described cutting blade.
As further improvement of the utility model, described cutter body breakage pick-up unit also comprises the regulating part be threaded with described optical fiber fixed block and the adjustment knob be fixedly connected with described regulating part one end, with when rotating described adjustment knob, described optical fiber fixed block moves up and down on described regulating part by means of being threaded with described regulating part.
As further improvement of the utility model, described cutter body breakage pick-up unit also comprises and is positioned at described optical fiber fixed block side with the locking member of the described optical fiber fixed block that is locked.
As further improvement of the utility model, described cutter body breakage pick-up unit also comprise in order in the cutting blade course of work to the cooling device that cutting blade cools, the water injection pipe that described cooling device comprises water injection interface and is connected with water injection interface one end, described water injection pipe is positioned at described cutting blade side, to be evenly sprayed on cutting blade by water.
As further improvement of the utility model, described cooling device also comprises and is positioned at the compartment of described cutting blade side for water injection pipe described in part shade.
As further improvement of the utility model, described first blowning installation comprises the gas channel be opened in described optical fiber fixed block, and described gas channel is connected with described optical fiber port.
As further improvement of the utility model, described first blowning installation also comprises the first gas injection interface be connected with described gas channel, and described first gas injection interface is arranged on one end of described optical fiber fixed block and arranges away from described optical fiber port.
As further improvement of the utility model, the snorkel that described second blowning installation comprises the second gas injection interface and is connected with second gas injection interface one end, described snorkel is positioned at described cutting blade side, to remove water on cutting blade and water smoke.
As further improvement of the utility model, described snorkel is arranged on the side of described water injection pipe, and aims at the setting of described cutting blade.
The beneficial effects of the utility model are: cutter body breakage pick-up unit of the present utility model by arrange at optical fiber fixed block place be connected with optical fiber port the first blowning installation, at cutting blade side, the second blowning installation is set, thus the first blowning installation can remove water and the water smoke at optical fiber port place, second blowning installation can remove water on cutting blade and water smoke, optical fiber port not only can be avoided to be splashed into water, water smoke in environment can also be reduced on the impact of fiber laser arrays precision simultaneously, measuring accuracy is higher, and stability is better.
Accompanying drawing explanation
Fig. 1 is the stereographic map of the utility model cutter body breakage pick-up unit.
Fig. 2 is the side view of the pick-up unit of cutter body breakage shown in Fig. 1.
Fig. 3 is another view stereo figure of the pick-up unit of cutter body breakage shown in Fig. 1.
Fig. 4 is another view stereo figure of the pick-up unit of cutter body breakage shown in Fig. 3.
Fig. 5 is the another view stereo figure of the pick-up unit of cutter body breakage shown in Fig. 1.
Embodiment
In order to make the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with the drawings and specific embodiments, the utility model is described in detail.
Shown in please refer to the drawing 1 to Fig. 5, cutter body breakage pick-up unit 100 of the present utility model is for detecting the damaged degree of the cutter hub cutting blade on fully-automatic equipment.Described cutter body breakage pick-up unit 100 comprises main shaft 10, be fixedly connected with described main shaft 10 and the cutting blade 20 that can rotate under the drive of described main shaft 10, in order to control cylinder 30 that described main shaft 10 works, to be positioned at outside described cutting blade 20 to detect the described optical fiber fixed block 40 of cutting blade 20 damaged degree and the blowning installation in order to remove water smoke.
The outside of described main shaft 10 is coated with pedestal 11, and described pedestal 11 is square setting substantially, and one end projection of described main shaft 10 exceeds described pedestal 11.Described cutting blade 20 is fixed on one end of described main shaft 10, and described cylinder 30 is fixed on described pedestal 11 and rotates in described pedestal 11 in order to control described main shaft 10, thus drives described cutting blade 20 rotary work.
Described pedestal 11 being also fixed with the back up pad 12 for supporting described cylinder 30, being positioned at outside cutting blade 20 for fixing the fixture 13 of described optical fiber fixed block 40 and being positioned at described optical fiber fixed block 40 side with the locating part 14 of spacing described optical fiber fixed block 40.Described fixture 13 comprises the fixed part 131 that is fixedly connected with pedestal 11 and one end, self-retaining portion 131 along the extension 132 extended perpendicular to fixed part 131 direction, and described fixed part 131 and extension 132 are combined to form L-type.Described locating part 14 one end and described extension 132 joining distal ends touch is connected, the other end is fixedly connected with pedestal 11, and between described fixture 13 and locating part 14, forms the receiving space 15 of confession up-winding fiber fixed block 40.Described locating part 14 is provided be locked the locking member 141 of described optical fiber fixed block 40.
Described cutter body breakage pick-up unit 100 also comprises the regulating part 16 be threaded with described optical fiber fixed block 40, the adjustment knob 17 be fixedly connected with described regulating part 16 one end and is set in for the shell 18 that described regulating part 16 rotates outside described regulating part 16 within it, and described shell 18 passes described extension 132 and is fixedly connected with described extension 132.Certainly, also can not arrange described shell 18, as long as can ensure described regulating part 16 and adjustment knob 17, in normal rotary course, stability is better.
Described receiving space 15 comprises the mobile space 151 be formed between described extension 132 and described optical fiber fixed block 40, thus when rotating described adjustment knob 17, described optical fiber fixed block 40 can move up and down along described regulating part 16 in aforementioned mobile space 151 by means of being threaded with described regulating part 16, and then by the pitch size determination luminous flux of regulating part 16.After installing optical fiber fixed block 40, rotate described locking member 141, described optical fiber fixed block 40 is locked in described receiving space 15.In present embodiment, described regulating part 16 is set screw, and described locking member 141 is hold-down nut.
One end of described optical fiber fixed block 40 offers optical fiber port 41, and described optical fiber port 41 is oppositely arranged with described cutting blade 20, is convenient to the damaged degree detecting cutting blade 20 to make the correlation optical fiber (not shown) in optical fiber fixed block 40 aim at cutting blade 20.In the utility model, the method utilizing the damaged degree of optical fiber fixed block 40 pairs of cutting blades 20 to detect belongs to prior art, is not described in detail in this.
Cutting blade 20 cause cutting blade 20 temperature very high owing to can occur to rub in a large number with workpiece in the course of the work, therefore, cutter body breakage pick-up unit 100 of the present utility model also comprises the cooling device in order to cool to cutting blade 20 in cutting blade 20 course of work.Described cooling device comprises water injection interface 61, the water injection pipe 62 be connected with water injection interface 61 one end and is positioned at the compartment 63 of described cutting blade 20 side for water injection pipe 62 described in part shade.Described water injection interface 61 is fixedly connected with described compartment 63, and described water injection pipe 62 is provided with two and divides the both sides being located at described cutting blade 20, to be evenly sprayed on cutting blade 20 by water.
Described blowning installation comprises the first blowning installation of being connected to remove optical fiber port 41 place water smoke with the optical fiber port 41 of described optical fiber fixed block 40 and is positioned at described cutting blade 20 side to remove the second blowning installation of water smoke on cutting blade 20.
Described first blowning installation comprises the gas channel (not shown) be opened in described optical fiber fixed block 40, the the first gas injection interface be connected with described gas channel and the ventilation interface 51 being connected described first gas injection interface and outside air feed equipment, described gas channel is connected with described optical fiber port 41, described first gas injection interface is opened in one end of described optical fiber fixed block 40 and arranges away from described optical fiber port 41, described ventilation interface 51 is fixed on the extension 132 of described fixture 13, pressurized air is passed into described optical fiber fixed block 40 by described ventilation interface 51 and blows to the optical fiber port 41 of correlation optical fiber, thus water and water smoke can be avoided the impact of optical fiber port 41.In present embodiment, described gas channel is opened in optical fiber fixed block 40 inside, but, in other embodiments, described gas channel also can be arranged in other structures, also vacuum directly can be adopted to draw water the mode of mist, as long as water and the water smoke of removing optical fiber port 41 part can be ensured, will not limit in this.
The snorkel 53 that described second blowning installation comprises the second gas injection interface 52 and is connected with described second gas injection interface 52 one end.Described second gas injection interface 52 be fixedly connected with described compartment 63 and and described water injection interface 61 interval arrange.Described snorkel 53 is positioned at the side of described water injection pipe 62 and aims at described cutting blade 20 and arrange, to remove water on cutting blade 20 and water smoke.
When using cutter body breakage pick-up unit 100 of the present utility model, first, under cylinder 30 is in closed condition, adjusting described adjustment knob 17, making the optical fiber port 41 of correlation optical fiber aim at cutting blade 20; Then, rotate described adjustment knob 17, described optical fiber fixed block 40 is moved up and down along described regulating part 16 in described mobile space 151, thus regulate correlation optical fiber to suitable luminous flux; Behind the position of adjusting optical fiber fixed block 40, lock described locking member 141 to ensure that optical fiber fixed block 40 is in locking state; Then, opening cylinder 30 makes main shaft 10 start working, cutting blade 20 starts to rotate preparation cutting work, in cutting blade 20 course of work, chilled water injects from water injection interface 61 and is evenly sprayed at cutting blade 20 through water injection pipe 62, now, chilled water not only can form water smoke on cutting blade 20, also can strike in compartment 63 along with the rotation of cutting blade 20 and produce water smoke; Finally, pressurized air passes into described optical fiber fixed block 40 by described ventilation interface 51 and blows to the optical fiber port 41 of correlation optical fiber on the one hand, thus avoid water and water smoke on the impact of optical fiber port 41, on the other hand blow to cutting blade 20 by described second gas injection interface 52 and snorkel 53, ensure that as far as possible few water rotates along with cutting blade 20.
In sum, cutter body breakage pick-up unit 100 of the present utility model is by arranging the first blowning installation at optical fiber fixed block 40 place, second blowning installation is set at cutting blade 20 side simultaneously, thus not only by the water on the second blowning installation removing cutting blade 20 and water smoke, simultaneously also by water and the water smoke at the first blowning installation removing optical fiber port 41 place, optical fiber port 41 not only can be avoided to be splashed into water, water smoke in environment can also be reduced on the impact of fiber laser arrays precision simultaneously, measuring accuracy is higher, and stability is better; In addition, optical fiber fixed block 40 is set to be threaded with regulating part 16 by cutter body breakage pick-up unit 100 of the present utility model, thus the object regulating optical fiber flux is reached by the movement of optical fiber fixed block 40 on regulating part 16, and the size of luminous flux depends on the size of pitch, structure is simple, easy to adjust.
Above embodiment is only in order to illustrate the technical solution of the utility model and unrestricted, although be described in detail the utility model with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify to the technical solution of the utility model or equivalent replacement, and not depart from the spirit and scope of technical solutions of the utility model.
Claims (10)
1. a cutter body breakage pick-up unit, comprise main shaft, be fixedly connected with described main shaft and the cutting blade that can rotate under the drive of described main shaft and the cylinder in order to control described main shaft work, it is characterized in that: described cutter body breakage pick-up unit also comprises and being positioned at outside described cutting blade to detect the optical fiber fixed block of described cutting blade damaged degree and the blowning installation in order to remove water smoke, described blowning installation comprises the first blowning installation of being connected to remove optical fiber port place water smoke with the optical fiber port of described optical fiber fixed block and is positioned at described cutting blade side to remove the second blowning installation of water smoke on cutting blade.
2. cutter body breakage pick-up unit according to claim 1, is characterized in that: described optical fiber port is opened in one end of described optical fiber fixed block and is oppositely arranged with described cutting blade.
3. cutter body breakage pick-up unit according to claim 1, it is characterized in that: described cutter body breakage pick-up unit also comprises the regulating part be threaded with described optical fiber fixed block and the adjustment knob be fixedly connected with described regulating part one end, with when rotating described adjustment knob, described optical fiber fixed block moves up and down on described regulating part by means of being threaded with described regulating part.
4. cutter body breakage pick-up unit according to claim 3, is characterized in that: described cutter body breakage pick-up unit also comprises and is positioned at described optical fiber fixed block side with the locking member of the described optical fiber fixed block that is locked.
5. cutter body breakage pick-up unit according to claim 1, it is characterized in that: described cutter body breakage pick-up unit also comprise in order in the cutting blade course of work to the cooling device that cutting blade cools, the water injection pipe that described cooling device comprises water injection interface and is connected with water injection interface one end, described water injection pipe is positioned at described cutting blade side, to be evenly sprayed on cutting blade by water.
6. cutter body breakage pick-up unit according to claim 5, is characterized in that: described cooling device also comprises and is positioned at the compartment of described cutting blade side for water injection pipe described in part shade.
7. cutter body breakage pick-up unit according to claim 1, is characterized in that: described first blowning installation comprises the gas channel be opened in described optical fiber fixed block, and described gas channel is connected with described optical fiber port.
8. cutter body breakage pick-up unit according to claim 7, it is characterized in that: described first blowning installation also comprises the first gas injection interface be connected with described gas channel, and described first gas injection interface is arranged on one end of described optical fiber fixed block and arranges away from described optical fiber port.
9. cutter body breakage pick-up unit according to claim 5, it is characterized in that: the snorkel that described second blowning installation comprises the second gas injection interface and is connected with second gas injection interface one end, described snorkel is positioned at described cutting blade side, to remove water on cutting blade and water smoke.
10. cutter body breakage pick-up unit according to claim 9, is characterized in that: described snorkel is arranged on the side of described water injection pipe, and aims at the setting of described cutting blade.
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CN201520609429.0U CN204964403U (en) | 2015-08-13 | 2015-08-13 | Cutter body breakage detection device |
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CN201520609429.0U CN204964403U (en) | 2015-08-13 | 2015-08-13 | Cutter body breakage detection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106442535A (en) * | 2015-08-13 | 2017-02-22 | 维嘉数控科技(苏州)有限公司 | Cutter body breakage detection device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN106442535A (en) * | 2015-08-13 | 2017-02-22 | 维嘉数控科技(苏州)有限公司 | Cutter body breakage detection device |
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Address after: No.188 Chuangyuan Road, industrial park, Suzhou, Jiangsu Province, 215000 Patentee after: Suzhou Weijia Technology Co.,Ltd. Address before: 215021 No.188, Xincheng Road, Dushuhu science and Education Innovation Zone, Suzhou Industrial Park, Jiangsu Province Patentee before: VEGA CNC TECHNOLOGY (SUZHOU) Co.,Ltd. |