KR20210136320A - Surgical light - Google Patents

Abstract

The present invention relates to a surgical light. According to the present invention, a diffusion unit formed by stacking a prism layer condensing light emitted from a light emitting unit and a diffuser layer evenly spreading and diffusing the light emitted from the light emitting unit is disposed on the lower part of the light emitting unit formed of a plurality of LEDs and a distance between the light emitting part and the diffusion unit is adjusted by using a support while the upper and lower surfaces of the diffusion unit are protected by a protective filter. When the light emitted from the light emitting unit formed of the plurality of LEDs is condensed by the diffusion unit and then evenly spread and diffused, shading or glare due to a difference in light quantity and color temperature of each of the plurality of LEDs does not occur, so that misdiagnosis and medical accidents caused by shadows or glare can be prevented during surgery or diagnosis, and eye fatigue can be reduced when used for a long time. In addition, since uniform light can be emitted to the diffuser, the installation number of LEDs forming the light emitting unit. In particular, since heat generated during operation of the LED of the light emitting unit is emitted to the outside through a heat dissipation unit in close contact with the ceiling part of the housing and a distance between the light emitting unit and the diffusion unit can be adjusted by the support, deformation of the surgical light due to the heat generated from the LED is prevented, thereby increasing durability.

Description

surgical light

The present invention relates to surgery, etc., and more particularly to surgery and the like.

The operating lamp is used to brighten the affected area of the patient on the operating table without shadow, and a halogen bulb or LED is used as a light source.

When used for a long time, the surgical lamp using a halogen bulb as a light source dries out the surgical site of the patient due to the heat and causes the operating surgeon to sweat, causing discomfort to the operating surgeon due to sweat. Due to the rapid decrease in the amount of light, frequent replacement is required, and since mercury gas is used inside, there is a problem in that environmental pollution occurs during disposal.

LEDs used as light sources for surgical lights have a longer lifespan compared to halogen bulbs, have excellent energy efficiency due to low power consumption, and can save electricity bills. Eco-friendly compared to light bulbs.

However, since a plurality of LEDs used as light sources for surgery have the disadvantage of causing shading or glare due to differences in light quantity and color temperature, misdiagnosis and medical accidents due to shading or glare during surgery or diagnosis It can cause eye strain and increase eye fatigue when used for a long time.

In addition, in case of poor heat dissipation performance, surgery is performed by the heat generated from the LED because only about 15% of the total electrical energy used is converted into light, and the rest is mostly emitted as heat. The back is deformed or the durability is reduced.

US 10-1532417 B1

The present invention is to solve the above problems of the prior art, and an object of the present invention is to evenly spread the prism layer for condensing the light emitted from the light emitting unit and the condensed light under the light emitting unit composed of a plurality of LEDs. It is to provide a surgical lamp for arranging a diffusion unit formed by laminating a diffusion diffuser layer and adjusting the distance between the light emitting unit and the diffusion unit using a support in a state where the upper and lower surfaces of the diffusion unit are protected with a protective filter. .

In order to achieve the object of the present invention as described above, the surgical lamp according to the present invention includes a hollow housing having a lower open cap shape; a heat dissipating part disposed in the hollow inside of the housing and in close contact with the ceiling of the housing and having a hollow nut-type stopper protruding at a lower portion of the hollow nut-type stopper for limiting adjustment of the distance between the light emitting part and the diffusion part; a light emitting unit composed of a plurality of LEDs disposed on a substrate surrounded by the heat dissipation unit; a diffusion unit disposed under the light emitting unit and formed by stacking a prism layer for condensing light emitted from the light emitting unit and a diffuser layer for evenly spreading and diffusing the condensed light; a protective filter for protecting the upper and lower surfaces of the diffusion unit; and fixing the heat dissipation part, the diffusion part, and the protective filter installed in the hollow inside of the housing in a suspended state inside the housing, and rotates downward based on the stopper to provide a space between the light emitting part and the diffusion part. It is characterized in that it consists of; a support for adjusting the interval.

In the surgery according to the present invention, the diffusion unit is characterized in that the prism layer and the diffuser layer are formed by laminating a prism film and a diffuser film.

In the surgery according to the present invention, the diffusion unit is characterized in that the prism layer and the diffuser layer are formed by stacking a prism lens and a diffuser lens.

In the surgery or the like according to the present invention, the support passes through the heat dissipation unit and the stopper, the diffusion unit and the protective filter installed in the hollow inside of the housing through the upper surface of the housing, the heat dissipation unit and the diffusion unit and It characterized in that it is composed of a bolt for fixing the protective filter in a state suspended inside the housing and a nut for coupling with the bolt.

In the operation lamp according to the present invention, the support is screwed with the nut by rotating the bolt in a clockwise direction or screwing the nut by rotating the bolt in a counterclockwise direction to widen the distance between the light emitting unit and the diffusion unit or It is characterized by narrow adjustment.

According to the present invention, when the light emitted from the light emitting unit composed of a plurality of LEDs is condensed by the diffusion unit and then evenly spread and spread, shading or glare due to the difference in light quantity and color temperature of each of the plurality of LEDs does not occur. Misdiagnosis and medical accidents caused by shadows or glare can be prevented during surgery or diagnosis, and eye fatigue can be reduced when used for a long time.

The present invention can minimize the number of installations of LEDs constituting the light emitting part because it is possible to irradiate uniform light to the diffusion part.

The present invention emits heat generated during the operation of the LED of the light emitting unit to the outside through the heat dissipation unit in close contact with the ceiling of the housing, and the distance between the light emitting unit and the diffusion unit can be adjusted by the support. It is possible to improve the durability by preventing the deformation of surgery due to the generated heat.

1 is a cross-sectional view showing a surgical lamp according to the present invention.
Figure 2 is an embodiment in which the distance between the light emitting part and the diffusion part is widely adjusted by rotating the bolt of the support in the downward direction based on the stopper of the heat dissipation part.
FIG. 3 is an embodiment in which the bolt of the support rotates downward based on the stopper of the heat dissipation unit to adjust the gap between the light emitting unit and the diffusion unit to be narrower than the embodiment of FIG. 2 .

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

The surgery according to the present invention described below is not limited to the following examples, and anyone with ordinary skill in the art can change and perform it without departing from the gist of the technology claimed in the claims. It has its technical spirit to the extent that it can.

Referring to FIG. 1 , a surgical lamp 100 according to the present invention includes a housing 110 , a heat dissipation unit 120 , a light emitting unit 130 , a diffusion unit 140 , a protective filter 150 and a support 160 . consists of including

The housing 110 is hollow in the shape of a lower open cap.

The heat dissipation part 120 is disposed in the hollow inside of the housing 110 and is in close contact with the ceiling part of the housing 110 and restricts the adjustment of the distance between the light emitting part 130 and the diffusion part 140 in the lower part. A hollow nut-type stopper 121 protrudes.

The stopper 121 prevents deformation of the diffusion unit 140 due to heat generated when the LED of the light emitting unit operates by restricting the diffusion unit 140 from excessively approaching the light emitting unit 130 . .

The light emitting unit 130 includes a plurality of LEDs 132 disposed on a substrate 131 surrounded by the heat dissipation unit 120 .

The diffusion unit 140 is disposed under the light emitting unit 130 , and includes a prism layer 141 for condensing the light emitted from the light emitting unit 130 and a diffuser layer 142 for evenly spreading and spreading the collected light. ) is laminated.

The diffusion unit 140 may form the prism layer 141 and the diffuser layer 142 by laminating a prism film and a diffuser film.

The diffusion unit 140 may form the prism layer 141 and the diffuser layer 142 by stacking a prism lens and a diffuser lens.

The protective filter 150 protects the upper and lower surfaces of the diffusion unit 140 .

The support 160 fixes the heat dissipation unit 120 installed in the hollow inside of the housing 110 , the diffusion unit 140 , and the protective filter 150 in a state in which they are suspended inside the housing 110 . and rotates downward based on the stopper 121 to adjust the distance between the light emitting unit 130 and the diffusion unit 140 .

The support 160 includes the heat dissipation unit 120, the stopper 121, the diffusion unit 140, and the protective filter installed in the hollow inside of the housing 110 through the upper surface of the housing 110. 150) and fixing the heat dissipation unit 120, the diffusion unit 140, and the protection filter 150 in a suspended state inside the housing 110, the bolt 161 and It is preferably composed of a nut 162 that engages.

The support 160 is screwed with the nut 162 by rotating the bolt 161 in a clockwise direction, or screwing the nut 162 by rotating the bolt 161 in a counterclockwise direction to screw the light emitting part 130 and the diffusion. The interval between the parts 140 may be adjusted to be wide or narrow.

The surgical lamp 100 according to the present invention configured as described above operates as follows.

In the surgical lamp 100 according to the present invention, when external power is supplied to the light emitting unit 120, a plurality of LEDs (LED) 132 disposed on the substrate 131 of the light emitting unit 120 emit light. .

The light emitted from the light emitting unit 130 is condensed while passing through the prism layer 141 of the diffusion unit 140 , and then the light condensed while passing through the diffuser layer 142 of the diffusion unit 140 . In this evenly spread and spread state, it is irradiated to the affected part of the patient on the operating table through the lower opening of the hollow housing 110 .

As described above, when the light emitted from the light emitting unit 130 composed of a plurality of LEDs 132 is condensed by the diffusion unit 140 and then evenly spread and spread, the light quantity of each of the plurality of LEDs 132 . And since shading or glare due to color temperature difference does not occur, misdiagnosis and medical accidents due to shading or glare during surgery or diagnosis can be prevented, and eye fatigue can be reduced when used for a long time.

In particular, since the present invention can radiate uniform light to the diffusion unit 140 , it is possible to minimize the number of LEDs 132 constituting the light emitting unit 130 .

On the other hand, as described above, while the light emitted from the light emitting unit 130 is irradiated to the affected part of the patient on the operating table, if it is necessary to adjust the distance between the light emitting unit 130 and the diffusion unit 140, the user The distance between the light emitting unit 130 and the diffusion unit 140 may be adjusted by rotating the support 160 downward based on the stopper 121 of the heat dissipation unit 120 .

At this time, the stopper 121 restricts the diffusion unit 140 from excessively approaching the light emitting unit 130, thereby preventing the diffusion unit 140 from being deformed due to heat generated when the LED of the light emitting unit operates. prevent.

On the other hand, as shown in FIG. 2, when the bolt 161 of the support 160 rotates downward with respect to the stopper 121 of the heat dissipation unit 120, the light emitting unit 130 and the diffusion unit ( 140) is adjusted as wide as L1.

In a state where the distance between the light emitting part 130 and the diffusion part 140 is adjusted by L1 of FIG. 2 , if the bolt 161 of the support 160 is rotated in the opposite direction to before, the distance can be further narrowed. .

On the other hand, as shown in FIG. 3 , when the bolt 161 of the support 160 rotates downward with respect to the stopper 121 of the heat dissipation unit 120 , the light emitting unit 130 and the diffusion unit The interval between 140 is adjusted to be narrower than L2 in FIG. 2 by L2.

In a state in which the distance between the light emitting part 130 and the diffusion part 140 is adjusted by L2 of FIG. 3 , if the bolt 161 of the support 160 is rotated in the opposite direction to the previous operation, the corresponding gap can be further increased. .

As described above, in the present invention, heat generated when the LED (LED) 132 of the light emitting unit 130 is operated is emitted to the outside through the heat dissipation unit 120 in close contact with the ceiling of the housing 110 and the support 160 ), since the distance between the light emitting unit 130 and the diffusion unit 140 can be adjusted by preventing the deformation of the surgical lamp 100 due to the heat generated from the LED (LED) 132, the durability can be improved. have.

100: surgical light 110: housing
120: heat dissipation unit 121: stopper
130: light emitting unit 131: substrate
132: LED (LED) 140: diffuser
141: prism layer 142: diffuser layer
150: protective filter 160: support
161: bolt 162: nut

Claims (5)

a hollow housing 110 in the shape of a lower open cap;
A hollow nut-type stopper 121 disposed in the hollow inside of the housing 110 and in close contact with the ceiling portion of the housing 110 and restricting the adjustment of the distance between the light emitting unit 130 and the diffusion unit 140 at the lower portion. a protruding heat dissipation unit 120;
a light emitting unit 130 composed of a plurality of LEDs 132 disposed on a substrate 131 surrounded by the heat dissipation unit 120 ;
A diffusion formed by stacking a prism layer 141 disposed under the light emitting unit 130 and condensing the light emitted from the light emitting unit 130 and a diffuser layer 142 which evenly spreads and diffuses the collected light. part 140;
a protective filter 150 for protecting the upper and lower surfaces of the diffusion unit 140; and
The heat dissipation part 120, the diffusion part 140, and the protective filter 150 installed in the hollow inside of the housing 110 are fixed in a suspended state inside the housing 110, and the stopper 121 is used. a support 160 for adjusting the distance between the light emitting unit 130 and the diffusion unit 140 by rotating downward based on ;
Surgery, characterized in that consisting of. The surgical lamp of claim 1, wherein the diffusion unit 140 is formed by stacking a prism film and a diffuser film to form the prism layer 141 and the diffuser layer 142. The surgical lamp of claim 1, wherein the diffusion unit 140 is formed by stacking a prism lens and a diffuser lens to form the prism layer 141 and the diffuser layer 142. The heat dissipation part 120, the stopper 121, and the diffusion part 140 installed in the hollow inside of the housing 110 through the upper surface of the housing 110, wherein the support 160 is ) and a bolt 161 penetrating through the protection filter 150 to fix the heat dissipation unit 120 , the diffusion unit 140 , and the protection filter 150 in a suspended state inside the housing 110 , and Surgical lamp, characterized in that consisting of a nut (162) coupled with the bolt (161). The light emitting unit according to claim 4, wherein the support 160 is screwed with the nut 162 by rotating the bolt 161 in a clockwise direction or by screwing the nut 162 by rotating the bolt 161 in a counterclockwise direction. Surgical light, characterized in that the distance between the (130) and the diffusion unit (140) is adjusted to be wide or narrow.

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