Apparatus for checking mechanical component parts with optical devices, and relevant protection device and method
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02B-007/00
B08B-005/02
B23Q-011/00
출원번호
US-0676072
(2008-09-11)
등록번호
US-8497466
(2013-07-30)
우선권정보
IT-BO2007A0623 (2007-09-13)
국제출원번호
PCT/EP2008/062100
(2008-09-11)
§371/§102 date
20100302
(20100302)
국제공개번호
WO2009/034147
(2009-03-19)
발명자
/ 주소
Martelli, Samuele
Bruni, Roberto
출원인 / 주소
Marposs, S.p.A.
대리인 / 주소
Dickstein Shapiro LLP
인용정보
피인용 횟수 :
0인용 특허 :
15
초록▼
An apparatus for checking mechanical component parts, such as tools in machine tools, uses optical devices for emitting and receiving a light beam, for example a laser beam, and sensors for detecting the interruption of such light beam. A protection device for at least one of the optical devices inc
An apparatus for checking mechanical component parts, such as tools in machine tools, uses optical devices for emitting and receiving a light beam, for example a laser beam, and sensors for detecting the interruption of such light beam. A protection device for at least one of the optical devices includes pneumatic conduits and a nozzle outputting an air stream from a plurality of holes located around the central conduit through which the light beam passes, so generating a tubular shield which embraces the light beam. The protection device further includes a shutter which can be displaced from a rest position, wherein the central conduit is closed and the inside of the protection device is pressurized, to a working position, wherein the nozzle delivers the air stream in the form of a tubular shield. Passing from the rest position to the working position, the shutter assumes an intermediate transit position in which an air blast is outputted through the central conduit for a short time interval. The shutter has cylindrical surfaces and slides inside a shell of the protection device, driven by plane antirotation surfaces, too.
대표청구항▼
1. An optoelectronic apparatus for checking dimensions, position or integrity of mechanical component parts, the apparatus comprising: optical devices, in particular an emitter and a receiver which are aligned along a checking direction and emit and receive, respectively, a light beam;a sensor devic
1. An optoelectronic apparatus for checking dimensions, position or integrity of mechanical component parts, the apparatus comprising: optical devices, in particular an emitter and a receiver which are aligned along a checking direction and emit and receive, respectively, a light beam;a sensor device for detecting the interruption of the light beam; anda protection device for at least one of said optical devices, the protection device including a pneumatic system with a nozzle for outputting a protection gas stream,wherein said nozzle includes an axial conduit substantially aligned along said checking direction and a plurality of conduits arranged around the checking direction for providing a gas stream substantially in the form of a tubular cylindrical protective shield around said checking direction that does not interfere with the light beam, and wherein said protective shield extends between the optical devices. 2. The apparatus according to claim 1, wherein the protection device includes a support element carrying said nozzle and comprising an internal seat, and a distributor element which is arranged in said internal seat of the support element and can be displaced from a rest position to a working position. 3. The apparatus according to claim 2, wherein the distributor element defines a substantially plane transversal guide surface, that cooperates with a stationary guide surface integral with the support element. 4. The apparatus according to claim 3, wherein the support element includes a shell defining said internal seat and a closing and antirotation element which defines said stationary guide surface. 5. The apparatus according to claim 2, wherein the distributor element includes a diametral through hole adapted to be arranged substantially along the checking direction at said working position. 6. The apparatus according to claim 5, wherein the distributor element includes hollows for enabling the protection gas to pass through, said hollows being in fluid communication with said plurality of conduits of the nozzle at said working position of the distributor element. 7. The apparatus according to claim 2, wherein the distributor element includes three different sections adapted to be arranged at the checking direction in said rest position, in said working position and in an intermediate transit position. 8. The apparatus according to claim 1, wherein, in the nozzle, the said plurality of conduits are obliquely arranged with respect to the checking direction. 9. The apparatus according to claim 1, wherein said protection gas is compressed air. 10. A method for achieving a protection in an optoelectronic checking apparatus which uses a light beam arranged along a checking direction, the method including the step of: delivering a protection gas at an optical device of the apparatus emitting or receiving the light beam,wherein said protection gas is delivered along a plurality of directions around said checking direction, so providing a gas stream in the form of a tubular cylindrical protective shield around said light beam that does not interfere with the light beam, and wherein said protective shield extends between the optical device at which it is delivered and the other of the optical devices for emitting or receiving the light beam. 11. The method according to claim 10, wherein the protection gas is delivered along a plurality of conduits of a nozzle, that define said plurality of directions, for providing said gas stream. 12. The method according to claim 10, wherein a distributor element at said optical device is displaced from a rest position to a working position, a conduit, which enables the light beam to pass through, being covered and uncovered by said distributor element at said rest position and working position, respectively. 13. The method according to claim 12, wherein the protection gas is delivered along said plurality of directions at the working position of the distributor element. 14. The method according to claim 12, wherein, at a transit position of the distributor element between said rest position and working position, the protection gas is delivered along an axial conduit which enables the light beam to pass through. 15. The method according to claim 12, wherein, at the rest position of the distributor element, the protection gas is delivered with a low flow. 16. A protection device for an optical device adapted to emit or receive a light beam along a checking direction, including a pneumatic system with a nozzle for outputting a protection gas stream, wherein said nozzle includes an axial conduit to be substantially aligned along said checking direction and a plurality of conduits to provide a gas stream substantially in the form of a tubular cylindrical protective shield around said light beam. 17. The protection device according to claim 16, including a support element which carries said nozzle and comprises an internal seat, and a distributor element which is arranged in said internal seat of the support element and can be displaced from a rest position to a working position. 18. The protection device according to claim 17, wherein the distributor element defines a substantially plane transversal guide surface that cooperates with a stationary guide surface which is integral with the support element. 19. The protection device according to claim 18, wherein the support element includes a shell defining said internal seat and a closing and antirotation element defining said stationary guide surface. 20. The protection device according to claim 17, wherein the distributor element includes a diametral through hole, adapted to be arranged substantially along the checking direction at said working position, and hollows for enabling the protection gas to pass through, said hollows being in fluid communication with said plurality of conduits of the nozzle at said working position of the distributor element. 21. The protection device according to claim 17, wherein the distributor element includes a selective distribution body having three different sections adapted to be alternatively arranged at the checking direction in the rest position, in the working position and in an intermediate transit position. 22. The protection device according to claim 21, wherein said selective distribution body includes various apertures at the three different sections enabling the selective distribution of the protection gas to said nozzle in said rest position, said intermediate transit position and said working position of the distributor element. 23. The protection device according to claim 16, wherein the conduits of said plurality are obliquely arranged with respect to the checking direction. 24. The protection device according to claim 16, wherein said protection gas is compressed air. 25. A protection device for an optical device adapted to emit or receive a light beam along a checking direction, including: a pneumatic system with a nozzle for outputting a protection gas stream, said nozzle including a plurality of conduits to provide a gas stream substantially in the form of a tubular cylindrical protective shield around said light beam;a support element which carries said nozzle and comprises an internal seat; anda distributor element which is arranged in said internal seat of the support element and can be displaced from a rest position to a working position, the distributor element including a diametral through hole, adapted to be arranged substantially along the checking direction at said working position, and hollows for enabling the protection gas to pass through, said hollows being in fluid communication with said plurality of conduits of the nozzle at said working position of the distributor element. 26. The protection device according to claim 25, wherein the distributor element includes a selective distribution body having three different sections adapted to be alternatively arranged at the checking direction in the rest position, in the working position and in an intermediate transit position. 27. The protection device according to claim 1, wherein the protective shield extends between the optical devices along an entire trajectory of the light beam. 28. The protection device according to claim 27, comprising a protection device for each of said optical devices. 29. The method according to claim 10, wherein the protective shield extends along an entire trajectory of the light beam. 30. The protection device according to claim 16, wherein the protective shield extends along an entire trajectory of the light beam.
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