KR100943926B1 - Lighting Device for Operation using LED and combination of lens - Google Patents

Abstract

The present invention comprises: a main body (1) to which the first cover (11) and the second cover (12) are coupled to front and rear, respectively; And a lens module 2 coupled to the front of the first cover. In this case, an LED 14 is installed at the center of the first cover, and the first lens 22, the second lens 23, and the third lens 24 are predetermined from the rear of the lens module 2. Spaced apart at intervals are coupled to the interior of the lens module 2, the front of the third lens 24 is provided with a lens cap 21 is coupled to the front end of the lens module, the first lens (22), the second lens 23 and the third lens 24 are characterized in that the anti-reflective coating process to increase the transmittance of light.

Surgical, Illuminated, LED, Low Cost, Compact Size

Description

Lighting device for operation using LED and combination of lens

TECHNICAL FIELD This invention relates to a surgical light fixture. More specifically, the present invention relates to a surgical light fixture using an LED light source and configured a surgical lightless lighting fixture with a simpler structure.

In general, the lighting equipment used in the operating room uses a shadowless light to prevent the shadow caused by the operating subjects, such as doctors or nurses, to illuminate the subject.

Conventional lightless lamps mainly use a halogen lamp, the halogen lamp has a high output and generates a lot of heat, in particular, there is a disadvantage in transmitting heat to the subject because there is ultraviolet radiation from the light itself. In addition, there are disadvantages in that the cost is high because many halogen lamps are used and the size of the device is large.

Accordingly, the present inventors have come to develop a surgical luminaire to apply a LED to the lighting element, and to have a simpler structure in order to overcome the various disadvantages of the conventional lightless lamp.

It is an object of the present invention to provide a surgical luminaire using an LED light source.

It is another object of the present invention to provide a surgical light fixture having a simple structure and lower cost than a conventional lightless lamp.

Still another object of the present invention is to provide a surgical light fixture that does not generate heat in the light itself and is small in size and can be used in close proximity to the subject.

The above and other objects of the present invention can be achieved by the present invention described below.

Surgical lighting apparatus according to the present invention includes a main body (1) to which the first cover 11 and the second cover 12 are coupled to the front and rear, respectively; And a lens module 2 coupled to the front of the first cover. In this case, an LED 14 is installed at the center of the first cover, and the first lens 22, the second lens 23, and the third lens 24 are predetermined from the rear of the lens module 2. Spaced apart at intervals are coupled to the interior of the lens module 2, the front of the third lens 24 is provided with a lens cap 21 is coupled to the front end of the lens module, the first lens (22), the second lens 23 and the third lens 24 are characterized in that the anti-reflective coating process to increase the transmittance of light.

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In the present invention, the LED 14 is installed in the first cover in a state coupled to the LED coupling plate 13, the LED coupling plate 13 is formed so that a plurality of vents 15 are formed in the air, By cooling the heat generating element.

A plurality of heat sinks 16 are formed on the surface of the main body 1 to easily dissipate heat generated therein.

A coupling hole 18 is formed at the center of the second cover 12 to couple the spring coil to facilitate detachment of the device. A plurality of ventilation holes 17 are formed around the coupling hole to generate heat by air. Enable cooling of the device.

In order to prevent overheating of the light emitting element, a cooling fan 19 may be provided in the rear portion of the main body.
As another aspect, the present invention provides a body comprising: a main body 1 to which a first cover 11 and a second cover 12 are coupled, respectively; And it provides a surgical luminaire comprising a lens module (2) coupled to the front of the first cover. In this case, an LED 14 is installed at the center of the first cover, and the first lens 22, the second lens 23, and the third lens 24 are predetermined from the rear of the lens module 2. Spaced apart at intervals are coupled to the interior of the lens module 2, the front of the third lens 24 is provided with a lens cap 21 is coupled to the front end of the lens module, the lens module Removably coupled to the first cover is characterized in that.

Surgical lighting equipment according to the present invention can obtain the following effects by applying the LED light emitting device.

1. It can be used instead of the traditional lampless lamp at low cost, and the light transmittance is improved to enable clear and bright lighting.

2. Due to the nature of LED lighting, it can supply bright and clean light to the subject, and its life is semi-permanent.

3. No ultraviolet radiation and no heat generated from the light itself.

4. It is small in size, so it can be used in close proximity to the object, and its structure is simple, so it is inexpensive.

5. No noise, safe heat dissipation design.
6. Since the lenses are integrally coupled inside and the modular lens module is detachably coupled to the first cover in which the LED is installed, the lens module can be easily replaced or repaired and the LED can be easily replaced.

Hereinafter, the contents of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view of a surgical lighting apparatus according to the present invention, Figure 2 is an exploded perspective view of a surgical lighting apparatus according to the present invention.

As shown in Figures 1 and 2, the surgical lighting apparatus according to the present invention is largely composed of a body (1), a lens module (2) and a switch (3).

The first cover 11 is coupled to the front end of the main body 1, and the second cover 12 is coupled to the rear end. For reference, in the present specification, the "front" refers to the lens module 2 side direction from the main body, and the "back" refers to the opposite direction of the lens module 2 side direction from the main body 1.

An LED light source (not shown) is installed at the center of the first cover 11, and the LED light source is electrically connected to the switch 3. Power supplied to the LED is supplied by being electrically connected to a power line (not shown) coming in from the outside of the second cover 12.

The lens module 2 is coupled to the front end of the first cover 11. The lens module 2 is preferably detachably coupled to the first cover 11, for example, is coupled to the first cover 11 by screwing as shown in Figs. Therefore, if necessary, the first cover 11 can be easily removed and mounted at the same time. In addition, the inside of the lens module 2 is penetrated in the axial direction (light transmission direction), and the lenses described below are combined and modularized inside the lens module.
Accordingly, only the lens module 2 can be easily detached from the first cover 11 by a simple operation to easily perform repair or replacement, and an LED light source is installed at the center of the first cover 11. Therefore, the replacement or repair of the LED light source can be easily performed while the lens module is separated. Detailed description of the lens module 2 will be described with reference to FIG. 3.

3 is an exploded perspective view of the lens module 2 portion of the surgical light fixture according to the present invention.

As shown in FIG. 3, the first lens 22 and the second lens 23 are installed in the lens module 2 of the present invention, and the third lens 24 is coupled to the front end. The lens cap 21 is coupled to the front end of the lens module 2 to prevent separation of the third lens.

Since the particle diameters of the first lens 22 and the second lens 23 are smaller than the cross-sectional particle diameter of the lens module 2, the first lens coupling part 25 manufactured to have the same size as the cross-sectional particle diameter of the lens module 2. And the first and second lenses 22 and 23 are respectively coupled to the second lens coupling portion 26 and then coupled to the lens module 2.

The spacing of the first to third lenses will be described in detail with reference to FIG. 4.

4 is a conceptual diagram illustrating a lens array constituting the lens module 2 of the surgical lighting fixture according to the present invention.

As shown in FIG. 4, the first, second and third lenses 22, 23, and 24 provided in the lens module 2 of the present invention are provided at predetermined intervals. As used herein, the term “predetermined spacing” refers to a spacing in which the area of a circle projected according to the distance between the luminaire and the subject during surgery is suitable for surgery. For example, in general, the size of about 10 cm in diameter at a distance of about 25 cm to 30 cm during surgery is suitable for surgery.

In a preferred embodiment of the present invention, when the distance between the subject and the illumination is 25 cm to illuminate the subject to the size of 9 cm in diameter, and at the same time to illuminate the subject to the size of 10.5 cm in diameter at a distance of 30 cm What is necessary is just to design by the numerical value described in FIG. That is, the distance between the LED light source 14 and the first lens 22 is 1.5 mm, the distance between the first lens 22 and the second lens 23 is 2 mm, and the second lens 23 and the third lens. The distance between the lenses 24 is 3.5 mm, the LED lamp of 5 W power, the size and curvature of the first lens are 9 mm, R10.3 / 10.3, and the size and curvature of the second lens are 15 mm, respectively. The size and curvature of the and R33.2 / 33.2 and third lenses are 21 mm and R28.5 / 28.5, respectively.

The spacing, size and curvature of such lenses can be changed by one skilled in the art through repeated seals and design changes. Designed with lens spacing, size, and curvature, light is not scattered or scattered, resulting in a clean light image at the desired size.

It is preferable that the first to third lenses used in the present invention increase the transmittance by using an optical lens instead of a general lens.

In addition, when light passes through one lens, the light disappears by about 8% due to the reflection and absorption of the light and the light transmittance decreases by about 92%. Therefore, in order to increase the light transmittance of the first to third lenses, It is preferable to make the transmittance | permeability reach 98 to 99% by antireflective coating process on both surfaces.

5 is a front view of the first cover 11 installed on the front surface of the main body of the surgical lighting apparatus according to the present invention.

As shown in FIG. 5, an LED 14 is installed at the center of the first cover 11. The LED used in the present invention is preferably a white LED.

This LED may be provided so as to be coupled to the LED coupling plate 13 provided in the central portion of the first cover 11. At this time, by forming a plurality of ventilation holes 15 around the central portion of the LED coupling plate 13, it is good to design such that heat generated from the LED escapes to the rear of the main body through the inside of the main body.

Figure 6 is a perspective view of the surgical light fixture according to the invention seen from the rear.

As shown in FIG. 6, a heat sink 16 for dissipating heat generated inside the main body is formed on the surface of the main body 1. The heat sink 16 is made of metal, and serves to discharge heat inside the body to the outside.

A cooling fan 19 is provided at the rear part of the main body so that the heat inside the main body is cooled by the air exiting to the rear of the main body.

A second cover 12 is coupled to the rear end of the main body, and a coupler 18 is installed at the center of the second cover 12, and a plurality of vents 17 are installed around the coupler. It serves as a passage to discharge air to the outside.

A coupling coil 18 is coupled to a spring coil (not shown), allowing the surgical lighting fixture of the present invention to be arranged freely. In addition, as the power supply line is discharged to the outside through the coupling port 18, it is electrically connected to the power source to enable the power supply to the LED by the operation of the switch (3).

Surgical lighting apparatus according to the present invention can be applied in a variety of forms depending on the form coupled to the other end of the spring coil. For example, the other side of the spring coil may be combined with a dental or otorhinolaryngology unit, or may be coupled to one side of a table and attached to an operating table, medical table, examination table, etc. have.

Modifications or variations of the equivalent scope of the present invention described in the claims below can be easily used by those skilled in the art, and all such modifications or changes are considered to be included in the scope of the present invention. Can be.

1 is a perspective view of a surgical light fixture according to the present invention.

Figure 2 is an exploded perspective view of a surgical light fixture according to the invention.

Figure 3 is an exploded perspective view of the lens module of the surgical light fixture according to the invention.

4 is a conceptual view showing a lens array constituting the lens module of the surgical lighting fixture according to the present invention.

Figure 5 is a front view of the first cover installed on the front of the body of the surgical light fixture according to the invention.

Figure 6 is a perspective view of the surgical light fixture according to the invention seen from the rear.

Names of the major symbols in the drawings

1: body 2: lens module

3: switch 11: 1st cover

12: 2nd cover 13: LED bonding plate

14: LED 15: vent

16: heat sink 17: vent

18: coupling sphere 19: cooling fan

21: lens cap 22: first lens

23: second lens 24: third lens

25: first lens coupling portion 26: second lens coupling portion

Claims (5)

A main body 1 to which the first cover 11 and the second cover 12 are coupled to the front and rear, respectively; And A lens module (2) coupled to the front of the first cover; An LED 14 is installed at the center of the first cover, and the first lens 22, the second lens 23, and the third lens 24 are spaced apart from the rear of the lens module 2 to the front. And coupled to the inside of the lens module 2, and a lens cap 21 is installed at the front of the third lens 24 to be coupled to the front end of the lens module, and the first lens 22 and the second Surgical luminaires, characterized in that the lens (23) and the third lens (24) are anti-reflective coating to increase the transmittance of light. The method of claim 1, wherein the LED 14 is installed in the first cover in a state coupled to the LED coupling plate 13, characterized in that the LED coupling plate 13 is formed with a plurality of vents (15). Surgical lighting equipment. 2. The surgical lighting fixture of claim 1, wherein a plurality of heat sinks are formed on a surface of the main body. The method of claim 1, wherein the coupling portion 18 for coupling the spring coil is formed in the central portion of the second cover 12, a plurality of ventilation holes 17 is formed around the coupling sphere 18 Surgical lighting equipment. A main body 1 to which the first cover 11 and the second cover 12 are coupled to the front and rear, respectively; And A lens module (2) coupled to the front of the first cover; An LED 14 is installed at the center of the first cover, and the first lens 22, the second lens 23, and the third lens 24 are spaced apart from the rear of the lens module 2 to the front. And coupled to the inside of the lens module 2, and a lens cap 21 is installed at the front of the third lens 24 to be coupled to the front end of the lens module, and the lens module is attached to and detached from the first cover. Surgical lighting equipment, characterized in that possible coupled.

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