KR200463715Y1 - Assembling structure of the illuminators for medical usage - Google Patents

Abstract

The present invention relates to an assembly structure of a medical lighting lamp, and more particularly, a plurality of LED modules and a plurality of LED modules and a focusing lens assembled on the LED module mounted on the inner surface of the lighting housing in a medical lighting lamp by using a single condenser lens fixing cover By fixing the condensing lens at the same time, the LED module is coupled to the heat sink of a predetermined size on the back of the substrate; A condenser lens coupled to condense light on an upper portion of the LED module electrically connected to the condenser lens; The LED module coupled to the heat sink is a plurality of seated on the inner surface at a predetermined interval, the heat sink of the LED module has a curved surface housing is provided with a plurality of multi-faceted contact portion to facilitate heat transfer to the surface contact; Condensing lens fixing cover which is coupled to the upper surface of the lighting housing is provided with a plurality of lens fixing holes corresponding to the number of the LED module to be fixed at the same time to the condenser lens of the entire LED module seated on the inner surface of the lighting housing; The present invention relates to an assembly structure of a medical lighting lamp to be assembled.

Description

Assembling structure of the illuminators for medical usage}

The present invention relates to an assembly structure of a medical lighting lamp, and more particularly, a plurality of LED modules and a plurality of LED modules and a focusing lens assembled on the LED module mounted on the inner surface of the lighting housing in a medical lighting lamp by using a single condenser lens fixing cover The present invention relates to an assembly structure of a medical lighting lamp which can be fixed and assembled at the same time to improve assembly and productivity of the medical lighting lamp.

Medical luminaires commonly used in operating rooms of hospitals and clinics, as shown in Figure 5, a plurality of small lamps are assembled in a single light housing at regular intervals to form a single lamp, many of these lamps are radial It is assembled to constitute one medical luminaire.

Such a medical lighting fixture serves to facilitate the procedure by irradiating the light emitted from each of the plurality of lights to a specific part, for example, the affected part of the patient located on the operating table.

In recent years, a plurality of lamps, which are assembled to the lamps of medical light fixtures, have been replaced by LED lamps having a long life and low power consumption.

However, in the case of LED lamps, since a high temperature heat is generated by itself, in order to use LED lamps, a heat sink or a heat dissipation structure for dissipating high heat to the rear or side of an LED lamp is assembled. The lighting housing is designed and manufactured to have.

However, like the lamp 100a of the conventional medical lighting apparatus shown in FIG. 5, a plurality of light emitting lamps 101 are assembled in each lamp, and a condenser lens for condensing the light emitted from the light emitting lamps 101. After 102 are assembled on the upper portion of each light emitting lamp 101, it is assembled to the lighting housing 105, and after the assembly of each light emitting lamp 101, the outer cover 110 is coupled to the upper part of the lighting housing 105 again. As a result of the assembly of a single lamp, the assembly process is somewhat complicated and this inconvenience caused a lot.

That is, one lamp 100a is provided with a plurality of light emitting lamps 101. Since each light emitting lamp 101 is provided with a predetermined substrate, each light emitting lamp 101 is electrically wired inside the lighting housing. After fixing the screw using the fixing screw 111 in the inner surface of the lighting housing, and assembling a condensing lens for condensing on the fixed light emitting lamp 101, the upper surface of the light housing combined with the light emitting lamp Covering the outer cover 110 of a predetermined shape to fix the lighting housing 105 was completed assembling the front of the lamp.

In addition, after assembling the light emitting lamp 101 on the front of the lamp, a predetermined heat dissipation means, ie, a heat dissipation fin or a heat dissipation cover, is attached to the rear of the lighting housing 105 to facilitate the emission of high heat generated from the light emitting lamp. The assembly of the lamp of a medical lighting fixture was completed by performing a post process.

Therefore, in order to complete a medical luminaire, the process of assembling a plurality of light emitting lamps on the inner surface of the lighting housing and assembling each of the light emitting lamps assembled through the condensing lens attaching and outer cover attaching process is rather complicated. There are many disadvantages in terms of efficiency.

In addition, the production efficiency is not increased compared to the labor cost due to the deterioration of the work cost caused a problem that the price competitiveness and the competitiveness of the company is lowered.

In addition, in the case of using a plurality of LED lights with light emitting lamps such as lighting, because the additional heat dissipation means, such as the formation of a heat dissipation fan or heat dissipation in the lighting housing to emit high heat generated from the LED lights to the outside of the lighting housing, The cost of the product increased due to the increase in parts or the addition of an assembly process, which caused the product to be less competitive.

The purpose of the present invention was devised to solve the inconvenience caused during the assembly process of the conventional medical lighting described above, the present invention increases the production efficiency through the simplification of the assembly process, thereby the price competitiveness as well as the competitiveness of the company It is to provide an assembly structure of medical lighting that can be improved to.

In addition, another object of the present invention is to provide an assembly structure of a medical lighting lamp so that the heat generated from the LED module can be easily released to the outside of the lighting housing to further improve the durability of the lamp.

In order to achieve the above object of the present invention, the assembly structure of the medical lighting lamp according to the present invention is a plurality of LED module is coupled to the heat sink of the aluminum material having a high thermal conductivity on the back of the substrate, and the LED to condense the light of the LED module A condenser lens coupled to the upper part of the module, an illumination housing in which the plurality of LED modules are electrically connected and seated, and a plurality of lens fixing holes are provided to simultaneously fix the plurality of LED modules seated on the lighting housing. In the assembling structure of a medical lighting lamp composed of a condenser lens fixing cover coupled to an upper surface, the lighting housing is made of aluminum so as to be in contact with the heat sink and the heat dissipation to the outside, the heat sink and the LED module therein A mounting portion having a predetermined depth is formed to be accommodated, and the mounting portion A plurality of fastening holes are formed in the inner surface and a plurality of fastening holes are formed between the multi-faceted contact portions formed in the curved surface portion, and the lens fixing holes formed in the condensing lens fixing cover can be fitted into the fastening holes formed in the lighting housing. The fixed member having a predetermined length is formed to protrude and the fixing member fitted to the fastening hole is fixed by a fixing screw coupled from the rear side of the lighting housing to directly constrain and fix the plurality of condenser lenses and the LED module simultaneously.

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The assembly structure of the medical lighting lamp according to the present invention is fixed to a plurality of LED modules by fixing the plurality of condenser lenses at the same time by combining the condenser lens fixing cover on the condenser lens housing on the upper surface of the condenser lens. It facilitates the assembly of medical lighting lamps, in which a plurality of LED modules are assembled, and increases productivity by improving assembly efficiency, thereby increasing the competitiveness of products and companies at the same time.

In particular, since a plurality of LED modules are installed in one lighting housing, an aluminum heat sink is attached to the rear of the LED module for efficient heat dissipation generated from the LED module, and the heat sink is made of aluminum Direct contact with the surface allows the heat of the heat sink to be naturally discharged to the outside through the lighting housing, thereby compensating for the disadvantages that the durability of the product is reduced due to the simplification of the heat dissipation structure and the efficient emission of heat generated from the LED module.

1 is an external perspective view of a medical luminaire made of an assembly structure of a medical lamp according to an embodiment of the present invention,
2 is an exploded perspective view of a part of a medical lighting device according to an embodiment of the present invention,
3 is an assembled state in which the LED module is seated on the inner surface of the lighting housing according to the embodiment of the present invention,
4 is a cross-sectional view taken along line AA of FIG. 1;
5 is a partially exploded view of a lamp according to a conventional embodiment.

The assembly structure of the medical lighting lamp according to the present invention is an aluminum heat sink having excellent heat dissipation performance is coupled to the rear of the plurality of LED modules provided with an electrical circuit, the top of each LED module in a state in which the plurality of LED modules are electrically connected A condenser lens for assembling light is assembled.

The plurality of LED modules combined with the heat sink and the condenser lens may be seated so that the heat sink is in surface contact with the inner surface of the lighting housing in an aluminum aluminum housing formed by geometrically forming a plurality of multi-faceted contact portions on the inner surface thereof. The condenser lens fixing cover is formed on the condenser lens of the LED module seated on the inner surface of the same number as the LED module, and is assembled integrally with the lighting housing to stabilize the plurality of illumination lenses with one condenser lens fixing cover. It is made of a structure that can be fixed.

In addition, a plurality of fastening holes are formed in the lighting housing, and the condenser lens fixing cover is provided with a fixing member having a predetermined length that can be fitted into the fastening hole, and the condenser lens fixing cover assembled to the lighting housing is illuminated. In the rear of the housing is made of a structure in which a fixing screw is fastened to the fixing member fitted to the fastening hole.

In addition, a heat dissipation cover having a heat dissipation fin or a plurality of heat dissipation holes is attached to the rear of the lighting housing in which the LED module and the condenser lens fixing cover are combined.

Hereinafter, with reference to the accompanying drawings for a preferred embodiment of the present invention will be described in detail. However, embodiments of the present invention exemplified below may be embodied in various forms.

Embodiments of the present invention are intended to describe those skilled in the art to more fully implement the present invention.

1 is an overall external perspective view of a medical luminaire having an assembly structure of a medical light according to an embodiment of the present invention, Figure 2 is a partial exploded perspective view of a medical light having an assembly structure of a medical light according to an embodiment of the present invention. .

As shown in the figure, the assembly structure of the medical lighting lamp according to the embodiment of the present invention is applied to the medical lighting device 200, which is a plurality of lighting lamps 100 are radially arranged and integrally assembled, the details of the present invention In the description, detailed descriptions of well-known conventional technologies will be omitted, and descriptions will be made only on the characteristic structures of the present invention.

As shown in the figure, a plurality of LED modules 20 are assembled and used in each lamp 100 of the medical lighting device 200, each LED module 20 is a light emitting element 22 and the substrate 24 ) Is integrally coupled to each other, the rear surface of each substrate 24 is coupled to a flat heat sink 30 of a predetermined size made of a material having excellent heat transfer performance, preferably aluminum material, the light emitting device 22 The upper surface of the condensing lens 40 is made of a structure that is seated.

The LED module 20 generates high heat when it emits light. In the embodiment of the present invention, a heat dissipation plate 30 made of aluminum having excellent heat transfer performance is attached to the rear surface of the LED module 20 to generate the LED module 20. Heat is released through the heat sink 30.

In addition, the plurality of LED module 20 is assembled inside the lighting housing 50 is formed with a mounting portion 54 of a predetermined depth, the mounting portion 54 when the LED module 20 when the assembly of the LED module 20 The planar heat sink 30 coupled to the rear surface of the module 20 has a structure in which a plurality of curved surfaces are geometrically formed with a multi-faceted contact portion 55 so as to be seated and in surface contact.

The multi-faceted contact portion 55 is the entire lighting housing 50 including the multi-faceted contact portion 55 or the multi-faceted contact portion 55 to facilitate the transfer of heat emitted from the heat sink 30 in contact with the metal, preferably high heat transfer efficiency It is preferable that the aluminum material is configured, and the heat dissipation cover 60 or the heat dissipation fins in which a plurality of heat dissipation holes 62 are formed on the rear surface of the lighting housing 50 is combined.

In addition, the condenser lens fixing cover 10 includes an LED module 20 installed in the lamp 100 so as to simultaneously fix a plurality of LED modules 20 mounted on the mounting portion 54 of the lighting housing 50. The same number of lens fixing holes 12 are formed and assembled so that the condenser lens 40 of the LED module 20 is fitted into each lens fixing hole 12 at the upper portion of the lighting housing 50.
In addition, a plurality of fixing members 14 are formed on the inner surface of the condenser lens fixing cover 10 at a predetermined length, and the fixing members 14 are formed in a cylindrical shape in which a screw part (not shown) is formed therein, The fixing member 14 is fitted into each of the fastening holes 52 formed in the lighting housing 50, and then fixed to the inside of the fixing member 14 coupled to the fastening holes 52 at the rear side of the lighting housing 50. The screw 70 is coupled so that the condenser lens fixing cover 10 is integrally assembled with the lighting housing 40, thereby simultaneously fixing the condenser lens 40 and the LED module 20 assembled under the condenser lens 40 at the same time. Let's go.
In addition, one side of the lighting housing 50 of each lamp 100 is fitted into the through-hole 82 of the lamp assembly 80 in which the entire lamp 100 is integrally coupled so that the light housing 50 can be elevated by the principle of leverage. The inclination angle adjusting unit 57 is formed to extend to a predetermined length.
The lamp assembly 80 is made of a polygonal space box-type, each partition of the lighting assembly is formed through the through hole 82 of a predetermined size, the inclination angle control unit 57 of the entire lamp 100 is fitted into the lamp assembly The control lamp (not shown) provided inside the 80 is configured to adjust the tilt of the entire lighting at the same time.
3 shows a state in which some of the LED module 20 is seated on the inner surface of one lighting housing 50 in the embodiment of the present invention.

A plurality of lights assembled in a conventional medical lighting lamp is screwed into a screw hole formed in the lighting housing individually coupled to the lighting housing, respectively, as shown in Figure 3, while in the embodiment of the present invention A plurality of lights, i.e., the LED module 20 is not to perform a separate screw coupling to be fixed to the mounting portion 54 of the lighting housing 50, but simply the thermal grease on the multi-faceted contact portion 55 in the mounting portion 54 Due to the coupling of the condenser lens fixing cover 10 on the upper part of the coated heat sink 30 so as to be in surface contact with the LED housing 20 and the LED module 20, By naturally fixing the combined condenser lens 40 it is possible to fix a plurality of lights at the same time.

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That is, referring to Figure 4 will be described in more detail the assembly structure according to an embodiment of the present invention.

Figure 4 is a cross-sectional view taken along the line AA in the lamp of Figure 1, as shown in the characteristic assembly structure of the present invention is a plurality of LED modules provided in the mounting portion 54 of the lighting housing 50 20, that is, the LED module 20 coupled to the condenser lens 40 and the heat sink 30 is seated on the multi-faceted contact portion 55 formed on the inner surface of the mounting portion 54 of the lighting housing 50 and the LED module 20. The thermal grease (thermally conductive adhesive, not shown) is applied to the rear surface of the heat dissipation plate 30 in contact with the multi-faceted contact portion 55 to allow the LED module 20 to be more easily seated.

The multi-faceted contact portion 55 is formed in a planar shape, respectively, so that the heat sink 30 of the flat plate shape is seated so that surface contact can be made, so that the heat generated from the LED module 20 is discharged through the heat sink 30. Later, the heat of the heat sink 30 is transferred back to the lighting housing 50 through the multi-faceted contact portion 55 in contact with the surface, the heat transmitted to the lighting housing 55 is made of a structure that is naturally discharged to the outside.

In addition, as the condenser lens fixing cover 10 is assembled to the upper part of the lighting housing 50 on which the plurality of LED modules 20 are mounted, each lens fixing hole 12 formed in the condenser lens fixing cover 10 is led. The movement of the condenser lens 40 is fixed while surrounding the edge of the condenser lens 40 assembled on the upper part of the module 20, and the fixing member 14 having a predetermined length formed on the condenser lens fixing cover 10 is provided. The condenser lens fixing cover 10 is illuminated by a fixing screw 70 coupled to the fastening hole 52 at the rear side of the lighting housing 50 after being inserted through the fastening hole 52 formed in the lighting housing 50. By being integrally assembled with the 50, the plurality of LED modules 20 seated on the mounting portion 54 are simultaneously fixed by assembling one condenser lens fixing cover 10.

As such, the embodiment of the present invention has the effect of simultaneously fixing and assembling a plurality of LED modules 20 assembled in the interior of the lighting housing 50 through the mounting of one condenser lens fixing cover 10. As such, it is possible to shorten the time required for assembling each light, thereby improving the assembly efficiency of the light.

In addition, the heat generated from the plurality of LED modules 20 mounted on the mounting portion 54 is made of a high heat conductive metal, preferably made of aluminum, the heat sink 30 and the same aluminum material as the heat sink 30 Through the surface contact with the multi-faceted contact portion 55 and the lighting housing 50 made of a smooth heat dissipation it is possible to prevent the durability of the lamp due to high heat.

On the other hand, the heat dissipation cover 60 having a predetermined heat dissipation hole 62 is attached to the rear of the light housing 50 for the heat dissipation of the light housing 50, the installation of the heat dissipation cover 60 or the heat dissipation fin and It is obvious to those skilled in the art that the luminaire is integrally assembled and constitutes one luminaire, which will not be described in detail.

As described above, the present invention has been described in detail with reference to preferred embodiments, but the scope of the present invention is not limited to the above-described embodiments, and has a general knowledge in the art within the scope of the technical idea of the present invention. Various implementations are possible, and it is obvious that such modifications also fall within the scope of the appended claims.

As described above, in the embodiment of the present invention, when a plurality of LED modules for emitting light for medical lighting has a light intensity of a certain brightness or more is installed, a plurality of LED modules when assembling the lighting by using a condenser lens fixing cover By providing a fixed mounting structure at the same time, it is possible to provide medical lighting and lighting equipment that can improve assembly efficiency of lighting and increase productivity by further enhancing the competitiveness of a product or a company.

In addition, the aluminum heat sink with high thermal conductivity in each LED module and the lighting housing in which the heat sink is in surface contact are also made of aluminum material with high thermal conductivity so that high heat generated from the LED module is naturally released to the outside through the surface contact. It can solve the disadvantage of high temperature caused by the installation of multiple LED modules to provide a durable medical lighting and lighting fixtures.

10 condenser lens fixing cover 12 lens fixing hole
14: fixing member 20: LED module
22 light emitting element 24 substrate
30: heat sink 40: condenser lens
50: lighting housing 52: fastening hole
54: mounting portion 55: multi-faceted contact portion
60: heat dissipation cover 62: heat dissipation hole
70: fixing screw 80: lamp assembly
82: through hole 100: lighting
200: lighting fixtures

Claims (4)

A plurality of LED module 20 is coupled to the heat sink 30 of the aluminum material having a high thermal conductivity on the back of the substrate 24, and a light condenser lens 30 is coupled to the upper LED module for condensing the light of the LED module 20 ) And the plurality of lens fixing holes 12 to simultaneously fix the plurality of LED modules 20 mounted to the lighting housing 50 and the plurality of LED modules 20 seated on the lighting housing. Is provided in the assembling structure of the medical lighting lamp that the condenser lens fixing cover 10 is coupled to the upper portion of the lighting housing 50,
The lighting housing 50 is made of aluminum to be in surface contact with the heat sink 30 to facilitate heat dissipation to the outside, the mounting portion of a predetermined depth so that the heat sink 30 and the LED module 20 is accommodated therein ( 54 is formed, the inner surface of the mounting portion 54 is formed with a plurality of surface contact portion 55 formed of a plurality of curved portions, a plurality of fastening holes 52 are formed between the surface contact portion 55,
Between the lens fixing hole 12 formed in the condenser lens fixing cover 10, a fixing member 14 of a predetermined length that can be fitted into the fastening hole 52 formed in the lighting housing 50 is formed to protrude. And a fixing member 14 fitted into the fastening hole 52 is fixed to the fixing screw 70 coupled from the rear surface of the lighting housing 50 to directly restrain and fix the plurality of condenser lenses and the LED module simultaneously. Assembly structure of a medical light, characterized in that consisting of.
delete delete The method of claim 1,
Assembling structure of a medical lighting lamp on the back of the lighting housing, characterized in that the heat dissipation cover or a heat dissipation fin provided with a predetermined heat dissipation is assembled in a removable structure.

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