KR100985151B1 - Column type streetlight - Google Patents

Abstract

PURPOSE: A column type street light lamp is provided to rapidly emit heat which is generated in a light source part by forming heat radiating fins on the outer surface of a bracket. CONSTITUTION: A light source part is arranged inside a support pole(10). A light pipe(30) diffuses light which is generated in the light source part. A bracket(20) interlinks the support pole and the light pipe. A plurality of heat radiation fins(21f) are formed on the outer surface of the bracket with a uniform interval. The bracket comprises a main body, a flange, and a packing ring. The main body is combined with the support pole and the light pipe. The flange is detachably fixed to the upper surface of the main body. The packing ring securely combines the main body with the light pipe.

Description

Heat cast luminaires {COLUMN TYPE STREETLIGHT}

The present invention relates to a thermoformed luminaire for producing a peripheral landscape lighting, and more particularly to a support pole and light arranged vertically by improving the structure of the support pole with a light source and a bracket that receives light and diffuses it to the outside. The present invention relates to a thermoformed luminaire that supports a light pipe that is transmitted and radiates to the outside and is firmly and stably, while preventing rainwater or pollutants from entering the bracket and rapidly dissipating heat generated from a light source. .

Generally, the street lamp is a type of street lamp that is installed for preventing accidents and crime by securing the visibility of drivers or pedestrians at night, such as dark roads and sidewalks. It goes out at the same time.

These streetlights have different shapes and angles depending on where they are installed such as highways, major roads, commercial areas, residential areas, parks, etc., and high-pressure mercury lamps, fluorescent lamps, sodium lamps, and incandescent lamps are used. LED lamps (light emitting diodes) are increasing in use.

On the other hand, in recent years, apart from the role of lighting, the thermoformed luminaires are installed to produce a variety of landscape lighting around the various facilities, apartments and parks.

Conventional thermoformed luminaires are composed of a support pole with a built-in light source, an optical pipe disposed vertically on top of the light pole and receiving and diffusing light, and a bracket connecting the support pole and the light pipe.

Conventional thermoformed luminaires having this function have a closed structure to block the inflow of rainwater or contaminants to the inside, and the optical pipe formed of polycarbonate because it does not discharge heat generated from the light source to the outside by such a structure. Not only discoloration but also shortening the life of the light source.

In order to solve this problem, a thermoformed luminaire has been developed using a cap that prevents inflow of water on the upper surface of the thermoformed luminaire.

For example, the Republic of Korea Registered Utility Model Publication No. 20-0421279 (registered on July 04, 2006) discloses the 'inferior mold streetlight mechanism'.

The inferior mold street light fixture is a polycarbonate support plate is coupled to the upper end of the lower stainless pipe, the polycarbonate support plate is formed of a polycarbonate fixing holder, the polycarbonate pipe is coupled on the polycarbonate support plate, the polycarbonate pipe is poly It is mounted on the polycarbonate support plate in such a manner as to surround the carbonate fixing holder from the outside and joined. And it extends from the upper part of the lower stainless pipe toward the upper side is inserted into the polycarbonate pipe and penetrates, and a load pillar pipe having a diameter smaller than the diameter of the lower stainless pipe is formed, the outer peripheral surface of the load pillar pipe and the polycarbonate pipe PCB boards equipped with light emitting elements are mounted on the lower end of the space between the inner circumferential surfaces so as to illuminate the light upwards, the inflow prevention cap is coupled to the upper side of the polycarbonate pipe, and the street lamp includes a street lamp lamp above the load column pipe. The configuration of the inferior mold-type streetlight mechanism is coupled to the streetlight unit is disclosed.

The inferior cast lamp fixture configured as described above combines the inflow prevention cap on the upper side of the polycarbonate pipe, so that the inferior cast lamp fixture mainly located outside prevents the inflow of water from the outside. From the moisture generated by the temperature difference has a problem that the inferior mold streetlight mechanism is defenseless. This problem is bound to reduce the durability of the inferior mold streetlight mechanism.

Accordingly, a thermoformed luminaire has been developed that can prevent water flowing from the outside and solve moisture generated inside the luminaire.

For example, the Republic of Korea Utility Model Registration No. 20-0302566 (registered on January 16, 2003) discloses a "monument luminaire for columnar light". It has a strut made of a triangular triangular steel structure on the upper part of the foundation concrete structure to support the polycarbonate tube internally against an external force such as wind inside the polycarbonate tube, and has a tricolor at a predetermined position at the lower end of the strut inside the lower steel tube. It is equipped with a color conversion lamp that can emit light, and a circular reflector reflecting the light of the color conversion lamp is installed inside the upper portion of the polycarbonate tube, and the luminaire is placed in the inner space enclosed by the polycarbonate tube and the lower steel tube. The present invention relates to a monumental luminaire of a thermoformed light composed of a ventilation structure that naturally condenses heat generated by a ventilation port and a communication port.

The thermoluminescent light fixture of the thermoformed light in this configuration has the effect of preventing moisture generated inside the luminaire due to the temperature difference by allowing the heat inside the luminaire to naturally convection through the communication port vertically crossing the center of the interior and the upper and lower communication ports. There is. However, there is a problem in that the structure of the luminaire is complicated due to the circulator connected to the lower portion of the communication sphere and the communication sphere formed vertically across the center of the luminaire. Due to the complicated structure of the luminaire, there is a problem in that the manufacturing process of the luminaire is complicated and thereby the manufacturing efficiency is lowered. In addition, it is also difficult to fix the luminaire to the basic concrete structure due to the ventilation hole formed in the lower communication hole compared to the conventional thermoformed luminaire.

In order to solve this problem, the applicant has been registered an improved thermoformed luminaire through the Republic of Korea Patent No. 10-0909019.

Applicant's registered thermoformed luminaire is a support for supporting a thermoformed luminaire, the support portion including a moisture-proof liquid in the lower portion inside; An optical pipe having a reflectance of 99% formed on the support and emitting light; A mesh closure member coupled to an upper portion of the light pipe to prevent foreign matter from entering into the light pipe and to allow air to flow into the light pipe; And a cover part formed on an upper portion of the optical pipe on which the reticulated finishing member is formed to serve as a cover of the optical pipe, wherein the reticulated finishing member has a net body which is opened up and down inside to serve as a frame; Located in the upper portion of the mesh body, the mesh size of 0.1mm to 2mm, net mesh of stainless steel, iron or microfiber material; And a fixing member configured to fix the mesh to an upper portion of the mesh body, wherein the lower portion of the mesh body is in the form of a multi-stage structure such that the upper portion of the light pipe can be coupled to the upper portion of the mesh body. It is configured in the form of a multi-stage structure that can be mounted.

However, most of the luminaires, including the thermoformed luminaires registered by the applicant, have the disadvantage that rainwater or contaminants penetrate through the brackets connecting the support and the light pipes, and do not firmly support the vertically arranged light pipes. As a result, there is a disadvantage in that the support safety of the light pipe is poor.

In particular, the heat generated from the light source provided inside the support portion is discharged through the light pipe, so that the internal temperature and the surface temperature of the light pipe are increased, resulting in a discoloration and deformation of the light pipe.

The present invention was created in order to solve the problems of the prior art as described above, an object of the present invention is to improve the structure of the support pole and the bracket to receive the light and diffused to the outside to receive a solid and stable support pole The present invention provides a thermoformed luminaire capable of supporting and preventing the penetration of rainwater or contaminants through the coupling portions of the support poles and the brackets, and also rapidly dissipating heat generated from the light source.

The thermoformed luminaire according to the preferred embodiment of the present invention for realizing the above object has a support pole with a light source and an optical pipe for emitting light to the outside, and a structure in which these support poles and the light pipe are fitted at upper and lower sides, respectively. In the thermoformed luminaire made of a bracket that is a connecting element inserted into the furnace,

The support pole is provided with a reduced diameter with respect to the light pipe, and the light pipe is a transparent cylindrical member provided with a diffusion film formed by processing irregularities on the surface of the transparent substrate layer on the inner surface and forming a reflective dot at intervals. The bracket has a heat dissipation fin formed at equal intervals on an outer surface thereof, and a stepped fitting hole is formed therein so that the support pole and the light pipe may be fitted therein.

As a preferred feature of the present invention, the bracket is a heat dissipation fin is formed on the outer surface and the main body is coupled and fixed to the screw member in a state assembled with the support pole, the fitting structure and the optical pipe; An annular flange fixedly detachably coupled to the upper surface of the main body by screwing; And a packing ring provided on each of the inner circumferential surface of the main body and the contact interface between the main body and the flange so as to be in close contact with the outer surface of the light pipe to seal and to firmly bind the main body and the light pipe. .

In another preferred aspect of the present invention, the heat dissipation fin formed on the bracket has a downward inclination angle toward the support pole side, and a vent hole, which is a through hole connected to the inside, is formed between the heat dissipation fin and the adjacent heat dissipation fin.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, the terms or words used in this specification and claims are not to be interpreted in a conventional and dictionary sense, and the inventors may appropriately define the concept of terms in order to best explain their invention in the best way possible. It should be interpreted as meaning and concept corresponding to the technical idea of the present invention based on the principle that the present invention.

The thermoformed luminaire according to the present invention, by improving the structure of the bracket connecting the support pole and the light pipe to ensure the watertightness to prevent the inflow of rainwater or pollutants, and at the same time can support the light pipe of the length member firmly and stably. There is an advantage that can increase the degree of freedom of design.

In addition, by forming a heat radiation fin on the outer surface of the bracket to enable rapid heat dissipation by the convection action to prevent deformation and discoloration of the light pipe due to the heat generated from the light source, as well as to provide an advantage of extending the life of the light source. Can be.

Hereinafter, a thermoformed luminaire according to the present invention will be described with reference to the accompanying drawings.

First, it should be noted that like elements or parts in the drawings are denoted by the same reference numerals as much as possible. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a perspective view showing a thermoformed luminaire according to the present invention, Figure 2 is a cross-sectional view showing the internal structure of the thermoformed luminaire according to the present invention.

3 is an exploded perspective view for explaining the configuration of the thermoformed luminaire according to the present invention, Figure 4 is an exploded perspective view for explaining the assembly configuration of the thermoformed luminaire according to the present invention.

As shown in the figure, the thermoformed luminaire 1 of the present invention is provided on the support pole 10, which is a pillar member having a light source 3 therein, and is provided on the upper side of the support pole 10 to receive light. The light pipe 30 diffuses and emits light, and the bracket 20 is a connecting element for connecting the support pole 10 and the light pipe 30 to each other.

The support pole 10 is a pillar member having a light source 3 built therein, and the support pole 10 is provided to have a reduced diameter with respect to the light pipe 30.

The support pole 10 serves to support the light pipe 30 to be positioned at a predetermined height from the ground, and has a light source 3 that emits light by receiving power from the outside. A current stabilizer may be provided to maintain a stable supply of current, and one side may be provided to configure a door that can be opened and closed for maintenance.

In addition, the light source 3 may be a light emitting diode of high brightness or a general lamp may be used.

Since the support pole 10 of such a structure is implemented by a well-known technique, detailed description is abbreviate | omitted.

Light pipe 30 is a cylindrical member having a relatively large diameter with respect to the support pole 10, the inner surface diffuse reflection pattern is formed on the surface of the transparent substrate layer by irregularities processing, the reflection dots are formed at equal intervals The film 35 is provided.

That is, the light pipe 30 is formed to have a pipe shape of which upper and lower parts are made of polycarbonate (PolyCarbonate: PC), and are emitted from the light source 3 installed inside the support pole 10. The diffusion film 35 is provided on the inner surface so that the light can be uniformly emitted to the outside. At this time, the diffusion film 35 is preferably provided in close contact with the inner surface of the light pipe 30, a fine reflection prism is arranged in a continuous arrangement of the diffuse reflection pattern through the scratch or irregularities on the outer surface of the transparent substrate layer It is formed, and the reflecting dot is formed thereon at regular intervals.

The bracket 20 is a member having a cylindrical shape through which a hole is vertically formed, and a plurality of heat dissipation fins 21f protrude from the outer surface at equal intervals so as to dissipate heat by convection. In addition, a stepped fitting hole 20h is formed in the bracket 20 so that the support pole 10 and the light pipe 30 may be fitted to each other.

The bracket 20 has a heat dissipation fin 21f formed on an outer surface thereof and is fixedly coupled with the screw member 11 in a state of being fitted with the support pole 10, and the optical pipe 30 is connected to the light pipe 30 through a sealing element. The main body 21 is coupled to the interference fitting structure, and the flange 23 is fastened to the upper surface of the main body 21 by a screw member 22 is fixed.

That is, the main body 21 has at least one packing ring 21p formed of an elastic material on an inner circumferential surface thereof, and as shown in the drawing, the lower side of the inner circumferential surface of the main body 21, that is, the lower outer circumferential surface of the optical pipe 30, is provided. It is provided at the position to contact. At this time, the packing ring 21p is preferably provided with a size that can be in close contact with the outer surface of the light pipe 30 and the inner surface of the main body 21 by being provided with an elastic material having a buffer property. Do.

In addition, the inner circumferential surface is in close contact with the outer surface of the light pipe 30 on the basis of the contact interface between the main body 21 and the flange 23 to seal and at the same time seal the main body 21 and the light pipe 30. It is provided with a packing ring (21p ') to tightly bind. In this case, the packing ring 21p ′ may be formed of a urethane material, a synthetic resin material, a rubber material, a silicon material, or a composition material formed by mixing one or more materials, and the packing ring provided on the inner surface of the main body 21 described above. The same thing as (21p) may be used.

Referring to the assembly process of the thermoformed luminaire according to the present invention configured as described above are as follows.

First, the light source 3 is installed inside the support pole 10, and the bracket 20 is fitted to the upper side of the support pole 10. Subsequently, when the fitting assembly of the support pole 10 and the bracket 20 is completed, the screw member 11 is fastened from the inner side of the support pole 10 to the bracket 20 to maintain a firmly coupled state. .

Then, the light pipe 30 is positioned above the bracket 20, and the lower end of the light pipe 30 is adjusted to enter the main body 21 of the bracket 20.

At this time, since the main body 21 and the flange 23 constituting the bracket 20 are separated from each other, the flange 23, the packing ring 21p ′, and the main body 21 are lowered to the light pipe 30. Assemble each one in turn.

Subsequently, when the lower end of the light pipe 30 is completely inserted into the inside of the main body 21, the packing ring 21p ′ is moved to the upper side of the main body 21 and the flange (the upper portion) is moved upward. The assembly is completed by moving the 23 to be in contact and then fastening the screw member 22.

On the other hand, if the assembly process is performed in the reverse order, the light pipe 30, the bracket 20 and the support pole 10 can be separated.

5 is a cross-sectional view showing a thermoformed lamp according to another embodiment of the present invention.

As shown in this figure, the thermoformed luminaire 2 in this embodiment is substantially the same as the configuration of one embodiment described above.

That is, the thermoformed luminaire 1 according to the present embodiment is provided on the support pole 10, which is a pillar member having the light source 3 therein, and is provided above the support pole 10 to receive light and diffuse it to the outside. It consists of a light pipe 30 for emitting light and a bracket 20 which is a connecting element for connecting the support pole 10 and the light pipe 30, the support pole 10 and the light pipe 30 and the bracket 20 has the same configuration as the embodiment described above.

However, the bracket 20 in this embodiment has a feature that the heat radiation fin (21f ') formed on the outer surface has a downward inclination angle toward the support pole 10, that is, toward the ground side as shown in the figure.

In addition, a vent hole (vh) connected to the inside of the bracket 20 is formed between the heat dissipation fin 21f 'and the heat dissipation fin 21f' to allow the internal heat to be quickly discharged to the outside. .

Since the heat mold luminaire 1 having such a configuration may allow air to flow inside or outside through the vent hole vh of the bracket 20, moisture or mist due to a temperature difference between the inside and the outside of the light pipe 30. Not only can the occurrence phenomenon be suppressed, but the light pipe 30 made of the polycarbonate material can effectively suppress the phenomenon of cracks on the surface due to the severe temperature difference.

On the other hand, the present invention is not limited to the described embodiments, it is possible to use and change the application site, it is common in the art that various modifications and variations can be made without departing from the spirit and scope of the present invention. It is self-evident to those who have knowledge. Therefore, such modifications or variations will have to belong to the claims of the present invention.

1 is a perspective view of a thermoformed luminaire according to the present invention,

2 is a cross-sectional view showing the internal structure of the thermoformed luminaire according to the present invention;

3 is a cutaway perspective view for explaining the configuration of the thermoformed luminaire according to the present invention;

4 is an exploded perspective view for explaining the assembly configuration of the thermoformed luminaire according to the present invention;

5 is a cross-sectional view showing a thermoformed luminaire according to another embodiment of the present invention.

 <Explanation of symbols for the main parts of the drawings>

1: thermoformed lamp 10: support pole

11: screw member 20: bracket

21 main body 22 screw member

23: flange 21p, 21p ′: packing ring

30: light pipe 35: diffusion film

vh: vent hole

Claims (3)

The support pole 10 with a built-in light source and the light pipe 30 for emitting light to the outside, and the support pole 10 and the light pipe 30 is a connecting element which is inserted into the inside of the fitting structure from the upper and lower sides, respectively In the thermoformed luminaire made of the bracket 20, The support pole 10 is provided with a reduced diameter with respect to the light pipe 30, the light pipe 30 is a diffuser film formed by processing the irregularities on the surface of the transparent substrate layer on the inner surface and forming a reflective dot at intervals It is provided with the transparent cylindrical member which 35 is provided, The bracket 20 has a heat dissipation fin 21f protrudingly formed at equal intervals on an outer surface thereof, and a stepped fitting hole 20h is formed therein so that the support pole 10 and the light pipe 30 can be fitted respectively. It includes, The bracket 20 has a heat dissipation fin 21f formed on an outer surface thereof, and is coupled to the support pole 10 by a screw member in a state of being assembled with the support pole 10, and a body 21 coupled with the light pipe 30 by a fitting structure. And an annular flange 23 which is detachably coupled to the upper surface of the main body 21 by a screw, and an inner circumferential surface of the main body 21 and a contact boundary surface between the main body 21 and the flange 23. Each of which is provided with packing rings 21p and 21p 'for tightly contacting the outer surface of the light pipe 30 to seal and at the same time, firmly binding the main body 21 and the light pipe 30. The heat dissipation fin 21f formed in the bracket 20 forms a downward inclination angle toward the support pole 10 side, and a vent hole vh is formed between the heat dissipation fin 21f and the heat dissipation fin 21f. Featured thermoformed luminaires delete delete

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