KR101420151B1 - LED light source for medical - Google Patents

Abstract

The present invention provides a method of reflecting light generated from an LED light source to a reflector, which can suppress the increase in temperature and the increase in temperature of the light at the focus of the reflected light, and achieves the same or higher brightness And is capable of increasing the radiation efficiency of the LED light source.
The present invention is directed to an LED light source apparatus for medical use which is provided with an appropriate number of LED light source units 200 in a housing 110 of an unshaded LED 100 so that light emitted to each LED light source unit 200 is directed to a central portion thereof The LED light source unit 200 includes a support frame 210 which is installed on and supported by the unshaded incandescent lamp 100 and has an engagement step 211 inside the support frame 210 and an LED light source device 220 A heat radiation support member 240 and 240 'for attaching the LED light source device 220 to the reflector 230 so as to have a heat radiation function, And a diffusive filter 250 provided in front of the light source 240 so as to obtain more light effect at the focus of the light reflected at the center.

Description

[0001] The present invention relates to an LED light source for medical use,

More particularly, the present invention relates to an LED light source device for medical use, and more particularly, to an LED light source device for medical use, which is capable of providing an optimal light source suitable for medical use with low power consumption by applying a small amount of LED light source, And a light source device.

In general, when an LED lamp is used as a surgical light source for a surgical operation or a medical assistant or the like,

One LED light source unit is constructed to collect light by using each lens on the front surface of several LED light sources, and a few LED light source units are mounted on an unshielded light source so that the light of each LED light source unit is collected We are manufacturing hospital-use light.

However, the following conditions are required for surgery.

1) Luminous intensity of sufficient light: sufficient illumination (60,000LUX ~ 160,000LUX)

2) No effect: At the time of surgery, a doctor or a nurse's head is placed under the housing with a large area of the unshielded light, and many shadows are generated at the focus of the light. .

3) Suppression of temperature rise: Most of the surgical lights are designed to be used with the focus of light 1m below the bottom of the housing. The size of the focus is slightly different from that of the hospital (surgery, obstetrics, etc.) If the light is illuminated with a focus of 100,000 Lux or more, the temperature of the focus part is raised and the temperature of the patient or the affected part of the patient is elevated, thereby preventing the dryness of the affected part during the long operation.

4) Color rendering of light: The ability to express the color of the light to clearly distinguish the color of the surgical site (technically called CRI, usually using a lamp of 90 or more).

5) Calvinism: Evaluating how close the light emitted from the lamp to the affected part is to the natural color of the object illuminated by the sunlight.

6) Smooth operation: It is lightly fixed without applying force to the desired position, and there is no self-flow even after it is fixed.

However, the prior art does not satisfy the above-mentioned conditions of the unemployed, and various problems are pointed out.

In other words, there are drawbacks such as no effect on the screen and suppression of the temperature rise due to the drawbacks of the products using a large amount of LED lamps and lenses,

In order to achieve high light intensity and no effect, the LED lamp of about 100 is used. However, since it is more than 30% efficiency due to the lens (material: acrylic) for making the light focus at 1m, The power consumption is increased due to the use of a large amount of light as a means for obtaining the required light amount, and the weight is increased due to the use of a heat dissipating member such as a lot of heat dissipating plates for treating the heat generated from the LED lamp itself. And it is difficult to obtain a desired focal radius due to the structural difficulty of collecting a large amount of LED lamps in a manufacturing process, and the cost is also increased due to a large number of LED lamps and a heat dissipation structure.

In addition, using a large number of LED lamps, when the light is gathered in a radius of 15-20 cm at a focus of 1m, the temperature is increased a lot and the light generated from a large amount of LED lamps is directly transmitted through the lens, There is a problem that shadows are clearly generated as many as the number of LED lamps at the boundary of the shadows.

On the other hand, an LED light source unit that reflects light generated from an LED light source is manufactured using a small reflector (metal or glass reflector), and the LED light source unit is attached to an unshielded housing such that a large quantity of the LED light source unit is focused .

As for the problems with this prior art,

It is necessary to use a large number of reflectors and LED lamps in order to obtain the illumination required for the operation and the temperature of the sealed lamp case can be increased accordingly. By using a small amount of LED lamps compared to the products using the large amount of LED lamps, There are a lot of shadows because it is not effective.

In addition, there is a structural difficulty for focusing at 1 m, and the structure is structured so as to be increased in terms of cost.

Disclosure of Invention Technical Problem [8] The present invention has been proposed in order to solve the problems of the related art described above, and it is an object of the present invention to provide a method of reflecting light generated from an LED light source to a reflector having a special coating on a glass or metal reflecting surface, And an LED light source device for medical use which is capable of suppressing a rise in temperature and to improve the heat radiation efficiency of the LED light source while achieving the same or higher brightness with less power consumption than in the prior art.

The characteristic features of the solution for implementing the above-mentioned object will be described as follows.

The LED light source unit includes an LED light source unit having a reflector that reflects light generated by the LED light source, a heat dissipation supporting member that is attached to the reflector to mount the LED light source device, And a diffusive filter provided on the filter.

The heat dissipation supporting member is attached to the periphery of the reflector and has a light plate passing through the center and having an LED light source at the center thereof.

The non-diffusive filter may be fixed to the heat dissipation support member by a bracket.

The diffusive reflection filter may be attached to an unshielded housing.

Meanwhile, in another embodiment, the heat dissipation supporting member may include an LED light source element in a bent part formed at the lower end thereof while being connected to the heat dissipation member through the central part of the reflector.

The present invention is equipped with a filter for use in the front surface of a reflector in order to maximize the effect necessary for a surgeon's operation, so that a method of using a lens for a comparative LED light source or a method of using a small reflector, There is an effect of suppressing the temperature rise due to the non-reflecting effect by the diffuse reflection filter and the use of the special reflector.

In addition, since the use of the special reflector allows the same brightness to be obtained with less power consumption compared with the conventional technique using several LED light sources, it is advantageous in that the heat radiation process generated on the back side of the LED light source is easier and the manufacturing cost is considerably advantageous It is effective.

1 is an exploded perspective view showing the configuration of the present invention;
2 is a cross-sectional view showing the configuration of the present invention
3 is a bottom view of the present invention
FIG. 4 is a view showing an installation state of the LED light source unit in the housing of an unshown lamp in the present invention
Figs. 5 and 6 are views showing another installation state of the diffusive filter in the present invention
7 is a diagram showing another embodiment of the LED light source unit in the present invention
8 is a bottom view of Fig. 7

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4,

An appropriate number of LED light source units 200 are provided in the housing 110 of the unshaded display 100 so that light emitted to each LED light source unit 200 is projected to the center.

The LED light source unit 200 includes:

A support frame 210 mounted on the unshaded lamp 100 and having an engagement step 211 inside,

A reflector 230 coupled to the step 211 of the support frame 210 to reflect the light emitted from the LED light source 220,

A heat dissipation support member 240 attached to the reflector 230 to provide a heat dissipation function while installing the LED light source device 220,

And a diffusive filter 250 provided in front of the heat dissipation supporting member 240 so as to obtain a more non-radiative effect at the focus of light reflected at the central portion.

The reflector reflects the light reflected from the LED lamp by a special reflector having multiple reflection coatings on the reflection surface so that the infrared rays of the projected light are emitted backward and only the visible light is selectively irradiated to the front surface, And a part of the infrared ray (heat ray) generated in the LED lamp is emitted backward, so that the temperature rise due to the infrared ray is suppressed.

The heat dissipating and supporting member 240 has a band-shaped transverse plate 241 passing through the center of the reflector 230 so as to be attached to the periphery of the reflector 230, The light generated by the light source 220 is reflected by the reflecting mirror 230 and reflected.

The non-diffusive filter 250 may be fixed to a bracket 260 for supporting the heat radiation support member 240. It is more preferable to attach it to the housing 110 of the unshadowed light 100.

5, it can be installed on the front surface of the housing 110 as one non-diffusive filter 250,

It can be separately attached to the front of each LED light source unit 200 as shown in FIG.

A heat dissipating member 260 is attached to an appropriate position outside the heat dissipating and supporting member 240 so that the heat generated by the LED light source device 210 is dissipated through the heat dissipating support member 230, The member 270 has a heat-dissipating function to further enhance the heat-dissipating function.

In another embodiment, as shown in FIGS. 7 and 8,

A heat dissipation supporting member (not shown) which is vertically arranged to pass through the center of the reflector 230 and connected to the exoergic member 270 ' 240 '.

Such a configuration simplifies the structure of the heat dissipation supporting member 240 and prevents the light plate 220 from being formed with the side plate 241 for mounting the LED light source device 220, .

According to the present invention configured as described above, the LED light source unit 200 is radially provided at six places in the housing 110 of the unshadowed light 100, and focuses on the appropriate distance below the LED light source unit 200, The light emitted from the LED light source device 220 is reflected by the reflector 230 and passes through the diffuse reflection filter 250 to provide a greater effect on the light focused on the center portion due to diffuse reflection.

The heat generated from the LED light source device 220 is conducted through the heat dissipation supporting members 240 and 240 'to perform the heat dissipation function, and the heat dissipation function can be further enhanced by the additional heat dissipation members 270 and 270' So that the heat dissipation function is performed.

As described above, the present invention is equipped with a hill-use filter on the entire surface of a reflector so as to maximize the effect necessary for the operation, so that a method using a lens or a method using a small reflector, It is possible to suppress the increase in temperature and the effect of the non-heating more than that at the focus of the light.

In addition, compared with the conventional technology using several LED light sources, the same brightness can be obtained with a low power consumption, heat dissipation processing generated at the rear surface of the LED light source is easier, and advantageous in terms of manufacturing cost.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100: SMD 200: LED light source unit
210: LED light source device 220: reflector
230: heat radiating support member 231:
240: diffuse reflection filter 250: bracket
260:

Claims (6)

An LED light source device for medical use which is provided with an appropriate number of LED light source units (200) in a housing (110) of an incandescent lamp (100) so that light irradiated to each LED light source unit (200)
The LED light source unit 200 includes:
A reflecting frame 230 fitted in the supporting frame 210 and a reflecting mirror 230 provided on a bottom surface of the supporting frame 210 and having a circular frame shape, And a heat dissipation supporting member (240, 240 ') for providing a heat dissipation function while installing the LED light source device (220)
A flat plate-shaped diffusive filter 250 is fixed to the bottom of the heat dissipation supporting member 240 to provide a non-focused effect on the light irradiated through the reflector 230,
And a plurality of heat dissipating members (270, 270 ') connected to the heat dissipating and supporting members (240, 240') so as to dissipate the heat transmitted while being radiated.
delete delete delete delete The heat dissipating and supporting member (240) according to claim 1, wherein the heat dissipation supporting member (240) is vertically positioned to pass through a central portion of the reflector (230) And an LED light source device (220).

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