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Title:
LIGHT BEAM SHAPING DEVICE
Document Type and Number:
WIPO Patent Application WO/2003/023513
Kind Code:
A1
Abstract:
A light beam shaping device includes a supporting body (2) extending about an axis (A) and having an opening (2c) for a light beam; a first, a second, a third, and a fourth shielding member (3, 4, 5, 6) movable at the opening (2c) in separate respective planes perpendicular to axis (A).

Inventors:
QUADRI PASQUALE (IT)
Application Number:
PCT/IT2002/000459
Publication Date:
March 20, 2003
Filing Date:
July 12, 2002
Export Citation:
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Assignee:
CLAY PAKY SPA (IT)
QUADRI PASQUALE (IT)
International Classes:
F21S8/00; F21V11/18; F21V14/08; G03B21/00; (IPC1-7): G03B21/00; F21V11/18; F21V14/08
Foreign References:
EP0684424A11995-11-29
EP0563483A21993-10-06
GB1561165A1980-02-13
US1738945A1929-12-10
Attorney, Agent or Firm:
Jorio, Paolo (Via Viotti 9, Torino, IT)
Download PDF:
Claims:
CLAIMS
1. 1) A light beam shaping device comprising a supporting body (2) extending about an axis (A) and having an opening (2c) for a light beam; and a number of shielding members (3,4, 5,6) movable at said opening (2c) ; characterized in that said shielding members (3,4, 5,6) are movable in separate respective planes perpendicular to said axis (A).
2. A device as claimed in Claim 1, characterized by comprising separating members (9,10) interposed between said shielding members (3, 4, 5,6) and comprising respective annular portions (9a, 10a) through which said light beam travels.
3. A device as claimed in Claim 2, characterized in that each of said shielding members (3,4, 5,6) can be superimposed completely over the annular portions (9a, 10a) of the separating members (9,10).
4. A device as claimed in any one of the foregoing Claims, characterized by comprising at least a first, a second, a third, and a fourth shielding member (3,4, 5, 6); and a first, a second, a third, and a fourth actuator (13a, 13b, 13c, 13d) connected to the first, second, third, and fourth shielding member (3,4, 5,6) respectively.
5. A device as claimed in Claim 4, characterized in that said supporting body (2) comprises a first and a second face (2a, 2b) opposite each other; and in that the first and second shielding member (3,4) and the first and second actuator (13a, 13b) are located on the side of said first face (2a), and the third and fourth shielding member (5,6) and the third and fourth actuator (13c, 13d) are located on the side of said second face (2b).
6. A device as claimed in Claim 4 or 5, characterized in that the first and second actuator (13a, 13b) are connected respectively to the first and second shielding member (3,4) by slides (16) movable solely in a first direction (D1) crosswise to said axis (A), and the third and fourth actuator (13c, 13d) are connected respectively to the third and fourth shielding member (5, 6) by slides (16) movable solely in a second direction (D2) crosswise to said axis (A) and to said first direction (D1).
7. A device as claimed in Claim 6, characterized in that the second direction (D2) is perpendicular to the first direction (D1).
8. A device as claimed in Claim 6 or 7, characterized in that the first and second actuator (13a, 13b) are connected rigidly by two first guides (17a) parallel to said first direction (D1), and the third and fourth actuator (13c, 13d) are connected by two second guides (17b) parallel to said second direction (D2).
9. A device as claimed in Claim 8, characterized in that each slide (16) runs in one of said first and second guides (17a, 17b).
10. A device as claimed in Claim 9, characterized in that each first guide (17a) houses a slide (16) of said first actuator (13a) and a slide (16) of the second actuator (13b), and each second guide (17b) houses a slide (16) of the third actuator (13c) and a slide (16) of the fourth actuator (13d).
11. A device as claimed in Claim 9 or 10, characterized in that said first, second, third, and fourth actuator (13a, 13b, 13c, 13d) each comprise two motors (14) powering respective slides (16).
12. A device as claimed in Claim 11, characterized in that each of said motors (14) comprises a respective shaft (15) connected to a respective slide (16) by a screwnut screw coupling.
13. A device as claimed in Claim 12, characterized in that each of said shafts (15) is housed in one of the first and second guides (17a, 17b).
14. A device as claimed in one of Claims 10 to 13, characterized in that each slide (16) comprises an appendix (24); the appendixes (24) of the slides (16) housed in the same of said first and second guides (17a, 17b) being positioned facing each other.
15. A device as claimed in one of Claims 8 to 14, characterized in that said first and second guides (17a, 17b) comprise stop devices (23) for arresting said slides (16).
16. A device as claimed in any one of Claims 4 to 15, characterized by comprising at least a first separating member (9) located between said first and second shielding member (3,4) ; and a second separating member (10) located between said third and fourth shielding member (5,6).
17. A device as claimed in Claim 16, characterized in that said first separating member (9) comprises a first annular portion (9a) connected to said supporting body (2) by two first arms (9b) ; and said second separating member (10) comprises a second annular portion (10a) connected to said supporting body (2) by two second arms (lOb) extending perpendicularly to said first arms (9b).
18. A device as claimed in Claims 7 and 17, characterized in that said first arms (9b) of said first separating member (9) extend parallel to said first direction (D1) ; and said second arms (lOb) of said second separating member (10) extend parallel to said second direction (D2).
19. A projector, characterized by comprising a shaping device (1) as claimed in any one of Claims 1 to 18.
20. A projector as claimed in Claim 19, characterized in that said shaping device (1) is fitted to the projector (P) to rotate about said axis (A).
Description:
LIGHT BEAM SHAPING DEVICE TECHNICAL FIELD The present invention relates to a light beam shaping device.

BACKGROUND ART As is known, light beam shaping devices are normally used in stage lighting projectors to alter the cross section of light beams.

Each device comprises a given number of movable shielding members, which can be variously positioned to intercept different portions of the light beam emitted by the projector, and so alter the shape of the cross section of the light beam issuing from the shaping device. The range of beam cross section shapes obviously depends on the number of shielding members provided, which, for reasons of size, tends to be relatively small.

This is due to each shielding member being operated by a respective actuator comprising relative transmission members, which must be operated without interfering with those of another actuator. Moreover, the overall size of the shaping device must be such as to enable it to be

assembled inside the projector, possibly together with other optical devices.

Some known shaping devices with four shielding members have the aforementioned drawbacks, such as tight component packing to minimize the overall size of the device, and allow little freedom in which to maneuver the shielding members. Such packing, in fact, greatly reduces the amount of space available for the movable (shielding and transmission) members, which therefore have very little freedom of movement, to the extent, for example, of it being impossible to form triangles of various areas concentric with the light beam. Moreover, the shielding member actuators are controlled electronically by normally open-loop logic units; and a possible shift in the initial position settings during normal operation may result in accidental collision of the movable members, and even in irreparable damage. In particular, collisions may occur between the moving parts of the actuators and shielding members moving in the same direction.

DISCLOSURE OF THE INVENTION It is an object of the present invention to provide a shaping device designed to eliminate the aforementioned drawbacks.

According to the present invention, there is provided a light beam shaping device comprising a supporting body extending about an axis and having an opening for a light beam; and a number of shielding members movable at said opening; characterized in that

said shielding members are movable in separate respective planes perpendicular to said axis.

In this way, the light beam shaping device allows translating'and rotating each shielding member independently from the other shielding members so as to confer to the light beam a cross section having shapes, for example, of triangles of different sizes and in different positions.

BRIEF DESCRIPTION OF THE DRAWINGS A non-limiting embodiment of the invention will be described by way of example with reference to the accompanying drawings, in which: Figure 1 shows a partly exploded view in perspective of a light beam shaping device in accordance with the present invention and housed in a projector; Figure 2 shows a front view, with parts removed for clarity, of the Figure 1 shaping device; Figures 3,4 and 5 show rear views of a portion of the Figure 1 shaping device in respective operating positions.

BEST MODE FOR CARRYING OUT THE INVENTION Number 1 in Figure 1 indicates as a whole a shaping device comprising a supporting body 2 fittable to a stage lighting projector P; a first, a second, a third, and a fourth shielding member 3,4, 5,6 ; and a first and a second separating member 9, 10.

Supporting body 2 is annular, extends about an axis A of symmetry, and comprises a first face 2a, a second

face 2b (Figures 3,4 and 5) opposite first face 2a, and a central opening 2c. On first face 2a, supporting body 2 is fitted with a sector gear 8, which meshes with a known gear (not shown) on projector P to rotate shaping device 1 about axis A.

Shielding members 3-6 lie in separate respective planes perpendicular to axis A of supporting body 2. More specifically, first and second shielding member 3,4 are located on the side of face 2a of supporting body 2, and move in their respective planes substantially in a direction Dl ; whereas third and fourth shielding member 5,6 are located on the side of face 2b of supporting body 2, and move in their respective planes substantially in a direction D2 perpendicular to direction Dl.

Shielding members 3-6 are semicircular or half-oval in shape, and have respective first and second coplanar connecting appendixes 11, 12 extending on opposite sides.

First and second separating member 9, 10 comprise respective annular portions 9a, 10a, and respective connecting arms 9b, lob fixed to supporting body 2. In use, the light beam generated by projector P travels through annular portions 9a and lOa, which extend about axis A and are coaxial with supporting body 2. Connecting arms 9b are parallel to first direction Dl ; connecting arms lOb are parallel to direction D2; first separating member 9 is interposed between first and second shielding member 3,4 ; second separating member 10 is interposed between third and fourth shielding member 5,6 ; and each

shielding member 3-6 can be superimposed completely over annular portions 9a, lOa of first and second separating member 9,10, and can be variously tilted (Figures 3-5).

A first and a second guard member 27, 28, substantially similar to separating members 9,10, are superimposed over separating members 9,10 respectively to form gaps housing the outer shielding members, i. e. first and fourth shielding member 3,6.

Shaping device 1 also comprises four actuators 13a, 13b, 13c, 13d for operating respective shielding members 3-6 independently. More specifically, actuators 13a and 13b connected to shielding members 3 and 4 are located on the side of face 2a of supporting body 2; and actuators 13c and 13d are located on the side of face 2b of supporting body 2. Each actuator 13a-13d comprises two step motors 14; two threaded shafts 15 powered by respective motors 14; and two slides 16 fitted to respective shafts 15 by respective screw-nut screw coupling, so that rotation of shafts 15 corresponds to displacement of slides 16. Threaded shafts 15 of each actuator 13a-13d are parallel to each other, and slides 16 run along straight guides 17a, 17b defined by respective rails 21. Actuators 13a and 13b are connected rigidly to each other by two first guides 17a extending parallel to direction D1 between two opposite motors 14; and actuators 13c and 13d are connected rigidly to each other by two second guides 17b extending parallel to direction D2 between two opposite motors 14.

Each first guide 17a houses a slide 16 of actuator 13a, a slide 16 of actuator 13b, and respective threaded shafts 15; and each second guide 17b houses a slide 16 of actuator 13c, a slide 16 of fourth actuator 13d, and respective threaded shafts 15. In other words, the slides 16 of actuators 13a and 13b, connected respectively to the first and second shielding member 3,4, are only movable in direction D1 with respect to supporting body 2 ; while the slides 16 of actuators 13c and 13d, connected respectively to the third and fourth shielding member 5,6, are only movable in direction D2 with respect to supporting body 2.

At opposite ends, guides 17a, 17b have shoulders 22 resting against supporting brackets 20 of step motors 14 to simplify assembly and keep threaded shafts 15 aligned correctly; and, at respective mid-portions, guides 17a, 17b have stop devices 23 for arresting slides 16 and preventing accidental collision. Each slide 16 comprises an appendix 24. More specifically, appendixes 24 of the slides 16 housed in each of first and second guides 17a, 17b are positioned facing each other to keep slides 16 a predetermined minimum distance apart.

Slides 16 have pins 18 engaging respective seats defined by holes 29 formed in connecting appendixes 11, and by slots 30 formed in connecting appendixes 12 of shielding members 3-6.

The further advantages of the invention will be clear from. the foregoing description. In particular,

actuators 13 are extremely precise and easy to produce, so that the risk of positioning errors of shielding members 3-6 which might impair the quality of the resulting lighting effect is greatly reduced, thus improving the reliability of shaping device 1 as a whole.

Moreover, straight guides 17 are designed to ensure correct alignment of threaded shafts 15 of step motors 14 during assembly, thus further improving the accuracy of shaping device 1.

Clearly, changes may be made to the shaping device as described herein without, however, departing from the scope of the present invention.