KR20110105631A - Head lamp - Google Patents

Abstract

The present invention relates to a head lamp in which a UV blocking film is coated on a surface of at least one of the plurality of lenses so that light irradiated through the head lamp does not include ultraviolet light.

Description

Headlamps {HEAD LAMP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a head lamp, and to a head lamp in which an ultraviolet blocking film is coated on a surface of at least one of the plurality of lenses so that light emitted through the head lamp does not contain ultraviolet light.

In general, the medical offices and operating rooms of hospitals and oriental clinics are equipped with lighting systems that illuminate the entire room. These lighting systems are usually installed on the ceiling, which inevitably casts shadows by the practitioner, the patient or the treatment tools, which may interfere with the process of the examiner's observation of local or internal lesions. .

Therefore, in the treatment and surgery of the hospital and oriental medicine, especially otolaryngology, dental and surgical systems, in order to prevent the examiner from obstructing the observation of the local area and the observation of the internal lesion by the shadow by the practitioner, patient or medical tools A lamp is used to illuminate the lesion and the examination area.

Since the use of lamps in the hands of otolaryngologists, dentists and surgeons in the treatment and surgery may interfere with the treatment, headlamps are generally used in which the lamps are fixed to the headband. In addition to medical use, such headlamps are used for precision work such as watch repair.

By the way, the light irradiated by the head lamp contains ultraviolet (UV). There is a problem that ultraviolet rays are harmful to the human body, in particular, the eyes. In addition, ultraviolet rays have a problem in that they affect the materials used in the treatment, such as hardening the resin used in the dental procedure.

In order to solve such a problem, in recent years, the ultraviolet protection lens is assembled in the front of a head lamp. However, when the UV protection lens is assembled on the front of the headlamp, the length of the headlamp as long as the assembly of the UV protection lens becomes longer, so that inconvenience and movement after wearing are restricted, and as the headlamp becomes longer, the affected part is affected. In order to prevent the head lamp from reaching, there is a problem in that the affected part should be observed at a far distance from the existing one.

In addition, the body of the conventional head lamp is made of a metal such as aluminum, there is also a problem that impedes the treatment by transferring the heat generated from the bulb of the head lamp to the practitioner.

Accordingly, in order to solve the above problems, the head lamp according to the embodiment of the present invention includes light emitting means for generating light; A lamp unit including a plurality of lenses for condensing and diffusing light emitted from the incidence means; A fixing part hinged to the lamp part and attached to an external mechanism; A control unit for controlling the lamp unit is provided, and at least one of the plurality of lenses is coated with a blocking film to block ultraviolet rays included in the light emitted from the light emitting means.

The plurality of lenses may include a first lens for emitting light emitted from the light emitting means; A second lens for condensing light emitted from said light emitting means; And a third lens for diverging the light emitted from the light emitting means while going straight.

The first lens includes a lens of which only one surface is convex, the second lens includes a lens of which one surface is convex and the other surface is concave, and the third lens includes a lens of which both surfaces are convex.

The lamp unit, a plurality of lenses; A body in which the plurality of lenses are disposed inside the cylinder; It is provided with a plurality of heat dissipation grooves disposed in the longitudinal direction on the outside of the body to widen the surface area of the body.

The lamp unit, an LED module for irradiating light; One side is further connected to the LED module and the other side further comprises a heat dissipation unit is connected to the fixing portion.

The heat dissipation part includes a plurality of heat dissipation grooves disposed in the longitudinal direction to the outside in a cylindrical shape to widen the surface area of the heat dissipation part.

As described above, the head lamp according to the embodiment of the present invention is coated with an ultraviolet filter (UV filter) on the surface of at least one of the plurality of lenses so that the light irradiated through the head lamp does not include ultraviolet light. Therefore, it is harmless to the human body, it is possible to remove the influence of ultraviolet rays during the procedure, it is revealed that the natural color as possible to maintain the effect of high visibility.

In addition, the size of the headlamp is minimized because it does not require a separate sunscreen lens, and it is possible to minimize the user's activity limitation.

In addition, by using a combination of lenses, such as a convex lens on both sides, a convex lens on one side, a convex on one side, concave on the other side, it is possible to increase the straightness of the light and increase the sharpness.

In addition, since the surface area is widened by forming a plurality of heat dissipation grooves, the heat generated from the LEDs is quickly released, thereby not transmitting heat to the head lamp user, and thus the head lamp can be used comfortably.

1 is a perspective view of a head lamp according to an embodiment of the present invention;
2 is a perspective view of the combination of the head lamp according to an embodiment of the present invention,
3 is a cross-sectional view of a head lamp according to an embodiment of the present invention;
4 is a diagram illustrating an example in which a head lamp according to an embodiment of the present invention is applied to a medical apparatus.

Hereinafter, exemplary embodiments of the present invention will be described with reference to FIGS. 1 to 4.

1 is a perspective view of a head lamp according to an embodiment of the present invention, Figure 2 is a perspective view of the combination of the head lamp of the present invention, Figure 3 is a cross-sectional view.

Referring to FIG. 1, a head lamp according to an exemplary embodiment of the present invention includes a lamp unit 30, a fixing unit 40 hinged to the lamp unit 30, and a controller 50 for controlling the lamp unit 30. ).

The lamp unit 30 includes a lens unit 10 and a light source unit 20.

The lens unit 10 includes a hollow cylindrical body 10a, first to fourth lenses 11a to 11d sequentially disposed from the light source unit 20 inside the body 10a, and the body 10a. It is provided with a plurality of heat dissipation grooves 10b disposed in the longitudinal direction of the body 10a. In addition, the lens further includes a first spacing ring 12 disposed between the lens.

The first to fourth lenses 11a to 11d are lenses capable of collecting light, and are sequentially disposed from the light source unit 20 inside the body 10a. Then, an ultraviolet blocking film (UV filter) is coated on at least one of the first to fourth lenses 11a to 11d. Therefore, the light irradiated through the lens unit 10 does not include ultraviolet rays. Each of the first to fourth lenses 11a to 11d may use a variety of lenses such as a convex lens, a convex lens on one surface, and a convex and concave on the other surface. For example, the first lens 11a is concave to the light source unit 20 and the convex lens is convex so that the irradiated light is emitted, and the light source unit 20 side is concave to collect the light irradiated to the second lens 11b. The lens and the third lens 11c are assembled with a lens having one surface convex to emit light to be irradiated, and the fourth lens 11d with a lens 11d having both sides convex so as to emit light while going straight. Sharpness can be improved.

A plurality of heat dissipation grooves 10b are disposed outside the body 10a in the longitudinal direction of the body 10a to widen the surface area of the body 10a. Therefore, even though heat is generated in the bulb of the lamp, the body 10a whose surface area is widened by the heat dissipation groove 10b effectively releases heat generated from the bulb of the lamp, thereby preventing the medical practitioner from being obstructed by the bulb heat of the lamp.

The first gap ring 12 is disposed between the second lens 11b and the third lens 11c, and the third lens 11c and the fourth lens 11d, respectively, so that the gap between the lenses is assembled when the lens is assembled. Adjust it.

The light source unit 20 includes an LED module 25 for radiating light, and a heat radiating part 21 connected to the LED module 25 on one side and a fixing part 40 connected to the other side.

The heat dissipation portion 21 has a cylindrical shape, the hinge 21c of the mounting groove 21b on which the LED module 25 is seated on one side of the cylinder, and the fixing portion 40 hinged to the other end of the mounting groove 21b. ) And a plurality of heat dissipation grooves 21a disposed in the longitudinal direction on the outside.

A plurality of heat dissipation grooves 21a of the heat dissipation part 21 are disposed outside the heat dissipation part 21 in the longitudinal direction to widen the surface area of the heat dissipation part 21. Therefore, even if heat is generated in the LED module 25, the heat dissipation portion 21 whose surface area is widened by the heat dissipation groove 21a effectively releases heat generated in the LED module 25, thereby preventing the medical practitioner from interfering with the treatment of the lamp bulb. You will receive less.

The LED module 25 is connected to the LED (Light Emitted Diode, 25a) that irradiates light when the electricity is supplied, one side is connected to the LED (25a), the other side to the installation groove 21b of the heat dissipation unit 21 A bracket 25b having a structure to be seated is provided. The bracket 25b has a printed circuit board (PCB) for operating the LED 25a and supplies a signal to the LED 25a. To this end, the printed circuit board of the bracket 25b is connected to the external controller 50.

The light source unit 20 includes a second gap ring 22 for maintaining the gap between the installation groove 21b of the heat dissipation unit 21 and the LED module 25, and an LED protecting the LED 25a of the LED module 25. A protective cover 23 is further provided. That is, when the LED module 25 is seated in the installation groove 21b of the heat dissipation unit 21, the gap between the LED module 25 and the installation groove 21b is maintained by the second gap ring 22, and the LED protection is performed. Only the LED 25a protrudes from the upper end of the LED protective cover 23 by the cover 23.

The lens unit 10 and the light source unit 20 may be connected in various ways. For example, as shown in FIG. 3, the body 10a and the light source unit 20 of the lens unit 10 each form a thread. The body 10a is connected to the light source 20 by screwing. In addition, there are various methods such as interference fit and groove coupling. Although screw coupling is shown in FIG. 3, interference fit, groove coupling, and the like may also be applied.

In addition, the body 10a of the lens unit 10 and the bracket 25b of the light source unit 20 are preferably made of a metal having excellent thermal conductivity. An example thereof is light aluminum having excellent thermal conductivity and heat dissipation.

Here, the manufacturing and assembling of the lens unit 10 and the light source unit 20 separately may be performed for ease of assembly, and the lens unit 10 and the light source unit 20 may be integrally manufactured as necessary.

Fixing portion 40 is provided with a hinge 41 for engaging the hinge 21c of the light source unit 20 and a fastener 42 for fixing the head lamp of the present invention to the multi-tool.

Hinge 41 can be any structure that can be combined with the hinge (21c) of the light source portion 20 of the lamp unit 30, the fasteners 42 may be in accordance with how the headlamp of the present invention is applied to other mechanisms. It can be configured in various ways as shown in 4.

The controller 50 is connected to the LED module 25 of the lamp unit 30 to supply a control signal. The controller 50 supplies power to the LED module 25 including power such as a battery.

In addition, the headlamp of the present invention further includes a protective cap 13 connected to the outermost part of the lens unit 10, that is, the opposite body 10a to which the light source unit 20 is connected. The protective cap 13 has a cylindrical structure and a protective glass inside the cylinder. The body 10a and the protective cap 13 may be connected in various ways. For example, as shown in FIG. 3, the body 10a and the protective cap 13 form a thread, respectively, to the body 10a. The protective cap 13 is connected by screwing. In addition, there are various methods such as interference fit and groove coupling. On the other hand, the body (10a) is formed to have a larger area from the side to the light source unit 20 is assembled to the protective cap 13 is assembled, to facilitate the transmission of light.

10: lens portion 10a: body
10b, 21a: heat dissipation grooves 11a to 11d: first to fourth lenses
12, 22: first and second gap ring 13: protective cap
20: light source unit 21: heat dissipation unit
21b: mounting groove 21c, 41: hinge
23: protective cover 30: lamp unit
40: fixed part 42: fastener
50 control unit 100 headlamp

Claims (6)

Light emitting means for generating light;
A lamp unit including a plurality of lenses for condensing and diffusing light emitted from the incidence means;
A fixing part hinged to the lamp part and attached to an external mechanism;
A control unit for controlling the lamp unit;
At least one of the plurality of lenses is a head lamp, characterized in that the coating for blocking the ultraviolet rays contained in the light emitted from the light emitting means.
The method according to claim 1,
The plurality of lenses,
A first lens for emitting light emitted from said light emitting means;
A second lens for condensing light emitted from said light emitting means;
And a third lens for diverging the light emitted from the light emitting means while going straight.
The method according to claim 2,
The first lens includes a lens in which only one surface is convex,
The second lens includes a lens that is convex on one side and concave on the other side,
The third lens is a head lamp characterized in that it comprises a convex lens on both sides.
The method according to claim 1,
The lamp unit,
A plurality of lenses;
A body in which the plurality of lenses are disposed inside the cylinder;
The head lamp having a plurality of heat dissipation grooves disposed in the longitudinal direction outside the body to widen the surface area of the body.
The method of claim 4,
The lamp unit,
LED module for irradiating light;
One side is connected to the LED module and the other side of the head lamp further comprises a heat dissipation unit is connected to the fixed portion.
The method according to claim 5,
The heat dissipation unit is a head lamp, characterized in that it comprises a plurality of heat dissipation grooves disposed in the longitudinal direction to the outside in a cylindrical shape to widen the surface area of the heat dissipation unit.

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