Color wheels, assemblies and methods of producing them

Abstract

A color wheel comprises a plurality of light filters mounted on a hub or other mounting surface for rotation. The outer circumferential edge of the filters extend radially beyond the outer circumferential edge of the mounting surface. The mounting surface is beveled at its outer circumferential edge. The filters are mounted by adhesive between each filter and the mounting surface. The adhesive extends into at least a portion of the area between the bevel and the filters. Color wheel assemblies comprise such color wheels mounted to a rotational motor. The outer circumferential edges of the filters are aligned with each other to the same radial distance from the central rotational axis. In certain exemplary embodiments the filters are wedge shaped, having contact with adjacent filters only at their radially outer periphery. An automated method of making a color wheel assembly also is provided, wherein multiple filter segments are positioned on a mounting surface of a hub with UV curable adhesive which extends into at least a portion of the area between the bevel and the filters. An outer circumferential edge of each of the filter segments is aligned with each other to the same radial distance from the central rotational axis. Each of the filters is wedge shaped, having contact with adjacent filters only at their outer periphery. The UV curable adhesive is cured by exposure to UV radiation and the press-fitting the color wheel to a motor.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

Certain exemplary embodiments are described below with reference to the attached drawings in which:

FIG. 1 is a perspective view of a hub suitable for a color wheel in accordance with one embodiment of the present disclosure, having a radially central boss;

FIG. 2 is a plan view of the hub of FIG. 1;

FIG. 3 is a section view of the hub of FIG. 1 taken through line 3-3 of FIG. 2;

FIG. 4 is a section view, partially broken away, of a color wheel in accordance with one embodiment of the present disclosure, with color wheel filter segments mounted to a hub of FIG. 1;

FIG. 5 is an exploded section view of a color wheel assembly in accordance with one embodiment of the present disclosure, employing a color wheel in accordance with FIG. 4;

FIG. 6 is a perspective view of the color wheel of FIG. 4;

FIG. 7 is a section view, partially broken away on color wheel assembly of FIG. 5, showing the hub of the color wheel seated on the motor;

FIG. 8 is a perspective view, partially broken away, of the color wheel employed in the color wheel assembly of FIGS. 5 and 7, showing the gap between the radially inner circumferential edge of the color wheel filter segment and the radially outer surface of the central boss of the hub; and

FIG. 9 is a schematic view, partially broken away, of the color wheel employed in the color wheel assembly of FIGS. 5 and 7, showing the contact between adjacent wedge-shaped color wheel filter segments at their outer periphery (i.e. at their radially outer circumferential area) and showing the gap between the side edges of the filter segments.

Claims

1. A color wheel comprising: a mounting surface rotatable in a plane about a central rotational axis;a plurality of light filters mounted for rotation with the mounting surface, each of the filters having an outer circumferential edge radially beyond an outer circumferential edge of the mounting surface; andadhesive between each filter and the mounting surface;

2. The color wheel of claim 1 wherein each of the filters is wedge shaped, having contact with adjacent filters only at their outer periphery.

3. The color wheel of claim 1 wherein each of the filters contacts each adjacent filter only at the radially outermost 25% of the adjacent filters.

4. The color wheel of claim 1 wherein the mounting surface has a beveled outer circumferential edge and the adhesive extends into at least portions of a circumferential concave space between the bevel and the filters

5. The color wheel of claim 1 wherein the mounting surface is a surface of a hub such that the color filters are attached to the hub.

6. The color wheel of claim 5 wherein the hub has a radially central boss with an axial wall height greater than the axial thickness of the filters.

7. The color wheel of claim 6 wherein the filters do not contact the central boss.

8. The color wheel of claim 1 wherein the hub is mounted to an output shaft of a motor.

9. The color wheel of claim 1 wherein the adhesive comprises UV cured adhesive.

10. The color wheel of claim 1 wherein the color filters are attached directly to a motor housing.

11. A color wheel assembly comprising: a motor; anda color wheel comprising a hub mounted to an output member of the motor and having a mounting surface rotatable in a plane about a central rotational axis, the mounting surface having a beveled outer circumferential edge;a color wheel comprising a plurality of light filters mounted for rotation with the mounting surface, each of the filters having an outer circumferential edge radially beyond the outer circumferential edge of the mounting surface, with an area between the bevel and the filters; andadhesive between each filter and the mounting surface, which adhesive extends into at least portions of the area between the bevel and the filters;

12. The color wheel of claim 11 wherein the motor is operative to rotate the motor at a rotational speed of at least 14,000 RPM and the color wheel is operative to withstand rotation at a rotational speed of at least 14,000 RPM for at least 100 hours at temperatures up to at least 85° C.

13. The color wheel assembly of claim 11 wherein the hub is mounted to the output member of the motor with a locational fit.

14. The color wheel assembly of claim 11 wherein the hub has a radially central boss with an axial wall height greater than the axial thickness of the filters, the axial end surface of the boss being a positive stop against a surface of the motor.

15. The color wheel of claim 11 wherein the hub is formed of a material having a density of at least 8.5 g/cm3.

16. The color wheel of claim 11 wherein the color wheel is balanced by an acentric void in the hub.

17. The color wheel of claim 11 wherein the color wheel is balanced to at least ISO 1940-1 balance grade G1.

18. The color wheel of claim 11 wherein the color wheel is dual-plane balanced.

19. The color wheel of claim 11 wherein the adhesive forms a uniform thickness layer between the mounting surface and the filters.

20. The color wheel of claim 19 wherein the adhesive also forms a uniform circumferential bead in the area between the bevel and the filters.

21. An automated method of making a color wheel assembly comprising: positioning multiple filter segments simultaneously on a mounting surface of a hub with UV curable adhesive, the hub having a beveled outer circumferential edge and a radially central boss with an axial wall height greater than the thickness of the filters, wherein adhesive extends into at least a portion of the area between the bevel and the filters,an outer circumferential edge of each of the filter segments is aligned with each other to the same radial distance from the central rotational axis,an inner circumferential edge of each of the filter segments is radially spaced from the central boss, andeach of the filters is wedge shaped, having contact with adjacent filters only at their outer periphery;exposing the UV curable adhesive to UV radiation to cure the UV curable adhesive and form a color wheel;press-fitting the color wheel to a generally cylindrical output member of a motor, the axial end surface of the boss acting as a positive stop against a surface of the motor.

22. The automated method of making a color wheel assembly in accordance with claim 21 wherein an inner circumferential edge of each of the filter segments is radially spaced from the central boss.

23. The automated method of making a color wheel assembly in accordance with claim 21 wherein the UV curable adhesive is curable by both ultraviolet light and heat as its curing mechanisms and the step of applying UV radiation to cure the adhesive comprises also applying heat to cure the adhesive.