HIGH EFFICIENCY MEDICAL HEADLAMP HAVING A CRISP BEAM

Abstract

A medical headlamp, having a tubular housing, an electrical conductor, entering the housing, and an electrical network connected to the electrical conductor. An LED assembly is connected to the electrical network, and has a front surface, through which light is emitted. An iris assembly, including a toroidal housing, an iris diaphragm defining a width-adjustable aperture, seated in the housing, and an actuator, permitting a user to adjust the width of the width adjustable aperture. Further, the toroidal housing defines a front interior space, to the front of the iris diaphragm and a rear interior space, to the rear. A prime lens is placed in front of the iris diaphragm and has a rear surface. A further optical assembly, including at least a light-focusing lens is placed in front of the iris assembly. Finally, the prime lens rear surface has an opaque annular coating, acting as an annular light block.

Claims

1. A medical headlamp, having a front through which light is emitted, and comprising: (a) a tubular housing having a rear and a front; (b) an electrical conductor, entering said housing; (c) an electrical network, electrically connected to said electrical conductor; (d) an LED assembly electrically connected to said electrical network, said LED assembly having a front surface, through which light is emitted; (e) a prime lens placed in front of said LED assembly; (f) an iris assembly, placed in front of said prime lens, said iris assembly including a toroidal housing, an iris diaphragm, defining a width-adjustable aperture, seated in said housing and an actuator, permitting a user to adjust the width of said width adjustable aperture, said toroidal housing having an inner surface defining a rear interior space, within said interior surface and to the rear of said iris; (g) a further optical assembly, including at least a light-focusing lens placed in front of said iris assembly; and (h) wherein said prime lens has a convex front surface that extends into said rear interior, and an annular light block is placed between said prime lens and said iris diaphragm.

2. The medical headlamp of claim 1, wherein said front surface of said LED assembly is flat.

3. The medical headlamp of claim 1, wherein said annular light block is conformal over said front surface of said prime lens.

4. The medical headlamp of claim 1, wherein there is a gap between said LED assembly and said iris.

5. The medical headlamp of claim 1, wherein said LED assembly includes a front surface, and said prime lens includes a rear surface and wherein said front surface abuts said rear surface.

6. The medical headlamp of claim 1, wherein said LED assembly includes a front surface, and said prime lens includes a rear surface and wherein a space separates said front surface from said rear surface.

7. The medical headlamp of claim 1, wherein said actuator includes an element that protrudes through said toroidal housing and said tubular housing, thereby being accessible to a user.

8. A medical headlamp, having a front through which light is emitted, and comprising: (a) a tubular housing having a rear and a front; (b) an electrical conductor, entering said housing; (c) an electrical network electrically connected to said electrical conductor; (d) an LED assembly electrically connected to said electrical network, said LED assembly having a front surface, through which light is emitted; (e) an iris assembly, including a toroidal housing, an iris diaphragm, defining a width-adjustable aperture, seated in said housing and an actuator, permitting a user to adjust the width of said width adjustable aperture, said toroidal housing having a circumferential inner surface defining a front interior space, to the front of said iris diaphragm and a rear interior space, to the rear of said iris diaphragm, said iris assembly being placed so that said iris diaphragm is in front of said LED assembly; (f) a prime lens placed in front of said iris diaphragm, and having a rear surface; (g) a further optical assembly, including at least a light-focusing lens placed in front of said prime lens; and (h) wherein said prime lens rear surface has an opaque annular coating, acting as an annular light block.

9. The medical headlamp of claim 8, wherein said prime lens is placed entirely in front of said iris assembly.

10. The medical headlamp of claim 8, wherein said prime lens is placed partially in said front interior space.

11. The medical headlamp of claim 8, wherein said LED assembly protrudes into said rear interior space.

12. The medical headlamp of claim 8, wherein said actuator includes an element that protrudes through said toroidal housing and said tubular housing, thereby being accessible to a user.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0007] Exemplary embodiments are illustrated in referenced drawings. It is intended that the embodiments and figures disclosed herein are to be considered illustrative rather than restrictive.

[0008] FIG. 1 is an isometric rendering of a medical headlamp, according to the present invention.

[0009] FIG. 2 is an isometric view of some interior elements of the medical headlamp of FIG. 1.

[0010] FIG. 3 is a sectional view, taken along line 3-3 of FIG. 1.

[0011] FIG. 4 is an exploded sectional view, taken along line 3-3 of FIG. 1.

[0012] FIG. 5 is a sectional view of a distinguishing detail of an alternative embodiment, taken in plane 3-3 of FIG. 1.

[0013] FIG. 6 is a sectional view of a distinguishing detail of an additional alternative embodiment, taken in plane 3-3 of FIG. 1.

[0014] FIG. 7 is a sectional view of a distinguishing detail of yet another additional alternative embodiment, taken in plane 3-3 of FIG. 1.

[0015] FIG. 8 is a sectional view of a distinguishing detail of still another additional alternative embodiment, taken in plane 3-3 of FIG. 1.

[0016] FIG. 9 is a sectional view of a distinguishing detail of still another additional alternative embodiment, taken in plane 3-3 of FIG. 1.

[0017] FIG. 10 is a sectional view of a distinguishing detail of still another additional alternative embodiment, taken in plane 3-3 of FIG. 1.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0018] Definitions: an LED assembly (or package) is a light emitting diode (LED) or multiple light emitting diodes mounted closely together, plus immediately physically supporting elements, such as a substrate and electrical terminals. A chip on board or COB LED assembly is an LED assembly that is made up of multiple LED chips all bonded to a single substrate and typically powered through a single pair of terminals. A substantially flat LED assembly has no lens or is capped with a lens that has a radius of curvature of more than 1 mm. Stated slightly differently, a relatively flat LED assembly is an LED assembly that is not capped by a lens having a radius of curvature of less than 1 mm. A bare LED assembly is one which specifically does not include a light reflecting lens over the LED. Something that is tubular or a tube could have any closed shape in cross-section, such as a circle, a rectangle or a hexagon, for example.

[0019] In a first preferred embodiment, a medical headlamp 10 (also referred to as a bezel) includes a housing 12, made up of an aft barrel 14, a rotating adjustment collar 16 and an exit lens holder 18. A wire 20, terminating in a contact bead 22 (FIG. 3) is held within a boot 24 that extends through an opening 26 (FIG. 3) in the aft barrel 14. A ceramic substrate 30 (FIG. 2) supports an electrical circuit (not shown) that powers an LED assembly 40, which in one embodiment is a COB LED assembly. Ceramic substrate 30 includes an electrical contact pad (not shown) on its rear surface, which during assembly is pushed into contact bead 22, partially crushing it and establishing a robust electrical connection. Details of this process will be described further, below. For ease of presentation only one contact bead 22 has been shown, but an anode and cathode bead 22 are used in a preferred embodiment, separated by a Y structure in the boot 24 to keep the two contact beads separated during and after placement, and to prevent wire 20 from being accidentally torn out of housing 12.

[0020] A light block 42 is either positioned directly on the surface of LED 40 or held directly in front of it. In varying embodiments, light block 42 is 25 microns (1 mil) to 500 microns (0.02) thick. In front of the light block there is an iris assembly 50 (which may also be termed an adjustable light block) having a toroidal housing 52, and a set of iris blades 56 (alternatively termed an iris diaphragm) that retract into and extend out of the housing 52 into the space defined by an inner circumferential surface 53 of the toroidal housing 52, to create a variable sized aperture, according the position of an actuator 58 (FIG. 3).

[0021] The iris blades are not at the rear or the front of the circumferential surface 53 so that a rear margin and a front margin is defined between the iris blades 56 and the rear and the front, respectively, with the rear margin 62 defining a rear interior space 63 and the front margin 64 defining a front interior space 66. The iris assembly 50 is positioned so that LED 40 fits in the rear interior space. In one preferred embodiment, LED assembly 40 includes a lens that extends into the aperture between the iris blades 56. The actuator 58 is in the form of a pin 60 (FIG. 2) and the rotatable collar 16, joined together. The pin 60 extends through a circumferential slot in the aft barrel 14 to connect to collar 16, which is rotated to adjust the size of the iris opening.

[0022] A prime lens 70 (which may also be termed a light-focusing lens) is fitted into the front interior space 66, with a heat-shrink PTFE collar 72 to facilitate insertion and smooth any discrepancies in the fit. Forward of lens 70, a lens cone 74 reflects any stray light forward. Finally, an exit lens 76 is held in the exit lens holder 18, against a circular spring 78, which is interposed between exit lens 76 and lens cone 74. Exit lens holder 18 is threaded onto aft barrel 14 at threads 80. In an alternative embodiment, prime lens 70 is interposed between the iris blades. In an additional alternative embodiment, exit lens 76 and prime lens 70 are replaced by a single lens, that combines the functions of both lenses.

[0023] Two features of the assembly of headlamp 10, facilitate the efficient manufacture of a robust product. As noted above, the contact bead 22 is held in place boot 24 and ceramic substrate 30. During assembly, as exit lens holder 18 is threaded onto aft barrel 14 at threads 80, lens cone 74 is pressed against substrate 30, which eventually crushes bead 22, forming a robust contact with the contact pad on the rear of substrate 30.

[0024] In addition, in systems using an iris, a time-consuming task of adjusting the maximum size aperture created by the withdrawal of blades 56 into housing 52, if often faced by assembly personnel. At some point, if the blades are withdrawn too far, the aperture they create deviates far from a perfect circle, creating an irregular spot of light, that gives the impression that the device is cheaply made. To avoid this problem, the iris is adjusted during assembly to set a maximum aperture size. But in the use of device 10, the light block 42 sets the appearance of the light spot when the iris blades 56 are withdrawn far enough to be outside the beam created by light block 42. Accordingly, there is no need to set a maximum aperture size, thereby easing the task of assembly.

[0025] The headlamp described above can generally produce more light per unit of power applied to it than previously available headlamps. It is also more compact, thereby reducing total headlamp weight. In a preferred embodiment, the headlamp produces between 130-140 lumens per watt and runs between three and four Watts with a weight ranging from two to four ounces. In one preferred embodiment, bare LED assembly 40 is a Cree XP-L High Intensity LED, chosen from the different options listed in Table 1, below:

TABLE-US-00001 TABLE 1 Minimum Luminous Flux (lm) @ 1050 mA Chromaticity Flux (lm) @ Flux (lm) @ Order Codes Kit CCT Code 85 C. 25 C.* 65 CRI Typical 70 CRI Minimum 51 6200K V2 400 446 XPLAWT-H0-0000V2051 XPLAWT-H0-000BV2051 U6 380 424 XPLAWT-H0-0000U6051 XPLAWT-H0-000BU6051 U5 360 401 XPLAWT-H0-0000U5051 XPLAWT-H0-000BU5051 53 6000K V2 400 446 XPLAWT-H0-0000V2053 XPLAWT-H0-000BV2053 U6 380 424 XPLAWT-H0-0000U6053 XPLAWT-H0-000BU6053 U5 360 401 XPLAWT-H0-0000U5053 XPLAWT-H0-000BU5053 50 6200K V2 400 446 XPLAWT-H0-0000V2050 XPLAWT-H0-000BV2050 U6 380 424 XPLAWT-H0-0000U6050 XPLAWT-H0-000BU6050 U5 360 401 XPLAWT-H0-0000U5050 XPLAWT-H0-000BU5050 E1 6500K V2 400 446 XPLAWT-H0-0000V20E1 XPLAWT-H0-000BV20E1 U6 380 424 XPLAWT-H0-0000U60E1 XPLAWT-H0-000BU60E1 U5 360 401 XPLAWT-H0-0000U50E1 XPLAWT-H0-000BU50E1 E2 5700K V2 400 446 XPLAWT-H0-0000V20E2 XPLAWT-H0-000BV20E2 U6 380 424 XPLAWT-H0-0000U60E2 XPLAWT-H0-000BU60E2 U5 360 401 XPLAWT-H0-0000U50E2 XPLAWT-H0-000BU50E2

[0026] In one embodiment, headlamp 10 is connected to a headband assembly, such as that shown and described in U.S. Pat. No. 9,351,799, which is owned by the assignee of this application.

[0027] Referring now to FIG. 5, in one embodiment, LED assembly 40 includes a shallow lens 41, having radius of curvature of greater than 1 mm and that extends into the aperture defined by iris blades 56. In an additional preferred embodiment, light block 42 is absent. Referring to FIG. 6, in one embodiment, lens 70 extends through the aperture defined by iris blades 56 and light block 42. In alternative embodiments, light block 42 is absent. In another alternative, light block 42 is present, but lens 70 does not extend through the aperture defined by light block 42, or only extends part way through.

[0028] In a further embodiment, shown in FIG. 7, prime lens 70 extends into rear interior space 63, and an annular light block 42 is interposed between lens 70 and iris blades 56. In some embodiments, light block 42 is conformal to the front surface of lens 70 as shown, but in other embodiments (not shown) it is not conformal, and may be flat, or only partially conformal. When the iris blades 56 are open beyond a particular point, the beam is shaped only by light block 42, providing a nicely round and crisp beam.

[0029] Referring to FIG. 8, prime lens 70 is positioned in front interior space 66. The closeness between the rear of prime lens 70 and iris blades 56 yields beneficial optical qualities. In still another embodiment, illustrated in FIG. 9, the LED assembly 40 extends into the rear interior space 63, and the prime lens 70 is outside of the front interior space 66. with no interposed annular light block. Finally, FIG. 10 shows a detail view of an embodiment similar to that of FIG. 9, but with an opaque, annular coating 92 on the rear of prime lens 70, acting as a light block. Such an embodiment reduces manufacturing costs, as there is no need for a separate light block.

[0030] While a number of exemplary aspects and embodiments have been discussed above, those possessed of skill in the art will recognize certain modifications, permutations, additions and sub-combinations thereof. It is therefore intended that the following appended claims and claims hereafter introduced are interpreted to include all such modifications, permutations, additions and sub-combinations as are within their true spirit and scope.