KR101291567B1 - Outdoor lighting - Google Patents

Abstract

The present invention relates to an outdoor lighting fixture for outdoor use, and more particularly, by forming a housing of the outdoor lighting fixture by assembling individual heat radiation fins, greatly improving the heat dissipation function and at the same time arbitrarily determining the number of heat radiation fins The size of the light emitting unit (LED) mounted on the can be adjusted

Description

Prefabricated outdoor lighting fixture with prefabricated fin structure housing

The present invention relates to an outdoor lighting fixture for outdoor use, and more particularly, by forming a housing of the outdoor lighting fixture by assembling individual heat radiation fins, greatly improving the heat dissipation function and at the same time arbitrarily setting the number of the heat radiation fins The size of the light emitting unit (LED) mounted on the product can be adjusted, so the weight of the luminaire can be optimized, thereby reducing the production cost.

The main components of a luminaire used in the outdoors are generally composed of a PSU (POWER SUPPLY UNIT) for applying a lamp and a power and a housing.

When not only radiant heat by solar radiation but also power is applied to the luminaire, the temperature of the main components is increased by light emission of PSUs and lamps.

Conventional luminaires (FIG. 1) are provided with heat radiation fins (not shown) inside the luminaire housing 3 to dissipate heat generated from the luminaires, but these conventional methods do not provide effective heat dissipation.

In addition, the size of the luminaire housing 3 has a problem that the size of the luminaire and the expansion of the heat radiation fins inside the housing is not easy.

Some conventional luminaires are provided with a vent (not shown) on the upper part of the housing to increase the heat dissipation effect due to natural convection, but in this case, leakage occurs due to the deposition of moisture and dust in rainy weather, bird droppings and insects, and outdoor lamp cleaning. As a result of frequent water inflow, the deterioration of lifespan of major lighting parts is repeated.
Looking at the prior patent technology there is Republic of Korea Patent Publication No. 10-2009-0100784 (name of the invention: LED street light having a heat dissipation structure, the application number 10-2008-0026211).

The problem of the present invention is summarized as follows.

First, in order to maximize the heat dissipation effect, we propose a prefabricated outdoor lighting fixture that is formed with a prefabricated heat dissipation fin structure.

Second, to facilitate the adjustment of the size (expansion of light intensity) of the luminaire, the heat dissipation fins are manufactured in the form of a plurality of unit units, and a prefabricated outdoor lamp having a housing in which these are connected in parallel to each other is proposed.

Third, we propose a prefabricated outdoor lamp with a structure that minimizes the inflow of moisture and water.

The following configuration is proposed as a means for solving the above problems.

In other words, in the outdoor lighting fixture equipped with a light emitting lamp,

Body portion 105 to which the PSU is mounted;

It includes a plurality of unit pin structure 110 coupled in parallel to one side of the body portion 105,

The unit pin structure 110,

In order to perform the heat dissipation function and heat transfer to the neighboring unit fin structure, the contact portion (C) and the heat dissipation fin portion (F) are formed by combining,

Characterized in that coupled to the body portion 105 by a fastening member 115 and a fixing member for connecting the plurality of unit pin structures,

A prefabricated outdoor luminaire having a prefabricated fin structure housing is provided.

The fastening member is formed in a rod shape end is screwed, the unit pin structure 110 is fastened to each other by passing the rod into the hole formed in one side of the unit pin structure, other details are invented This will be described in detail section.

By the present invention the following effects can be exerted.

Each of the unit fin structures has an advantage of maximizing heat dissipation effect because the area directly contacting the outside air becomes very large.

In addition, since the housing itself is formed of a prefabricated heat dissipation fin structure, it is easy to expand and adjust the illuminance by installing an LED module corresponding to the size and the expanded size of outdoor lighting fixtures.

1 is a side view of a conventional outdoor lighting fixture.
Figure 2 is an exploded perspective view of a prefabricated outdoor lighting fixture according to a preferred embodiment of the present invention.
3 is an exploded perspective view showing the unit pin structures of FIG. 2 separated;
4 is a combined state diagram of FIG. 2, but only a state in which the PSU cover portion is separated.
FIG. 5 is a perspective view of one unit pin structure viewed from the V direction of FIG. 3. FIG.
6 is a perspective view of the outdoor lighting fixture viewed from below.
7 is a measurement of the surface temperature of the LED module light emitting unit of the street lamp and the street lamp of the present invention is formed with a vent formed on the upper portion of the housing and the heat radiator therein.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

However, the scope of the present invention is not limited to the following examples, and includes all inventions equivalent to the invention and the equivalent level grasped in the claims.

1 is a side view of a conventional outdoor lighting fixture and Figure 2 is an exploded perspective view of a prefabricated outdoor lighting fixture according to a preferred embodiment of the present invention and Figure 3 is an exploded perspective view of the unit pin structure of Figure 2 separated.

As described above, the conventional outdoor lighting fixture (see FIG. 1) has a structure in which a predetermined luminaire is formed inside the housing 3 composed of one body, so that it is difficult to effectively release heat generated from the luminaire and other components. .

On the contrary, in the present invention, in order to induce effective heat dissipation, the structure of the housing itself is configured as a heat dissipation fin structure, and the heat dissipation fins are individually formed as a unit fin structure (FIGS. It is characterized in that the structure can be manufactured.

2 and 3, a PSU mounting space 108 for accommodating the PSU 200 is formed at one side of a portion of the housing 100, and a PSU is mounted therein.

PSU cover 230 is coupled to the upper direction of the PSU mounting space portion. The PSU cover heat dissipation fin 235 is formed on the upper surface of the PSU cover 230, and has a structure in which the contact area with the outside air is expanded in an uneven shape.

Although not shown, it is preferable to seal the space between the PSU mounting space portion and the PSU cover by missing a packing along the periphery of the PSU cover 230.

The left end portion (left side of the PSU mounting space portion) of the housing body portion 105 is formed with an arm coupling portion 400, which is a portion that is engaged with the arm of the outdoor lighting fixture (see Fig. 1), the body portion 105 is the PSU Heat dissipation fins are formed in a concave-convex shape to promote heat dissipation, such as an upper surface of the cover 230.

On the right side of the body portion 105, a plurality of unit pin structures 110 are coupled side by side. Detailed illustration of the unit pin structure 110 is shown in FIG.

Holes 112 are formed in the lower side and the body portion 105 of the unit pin structure, and as shown in FIG. 3, the unit pin structures 110 are mutually connected by the fastening members 115 and 116 penetrating the holes 112. It is disposed adjacent to each other in parallel and connected to the body portion 105.

It can be firmly fixed by the fixing member 119. Section A corresponds to a unit pin structure coupling section, and corresponds to a section in which all of the plurality of unit pin structures shown in FIG. 3 are coupled in parallel.

In FIG. 5, a symbol F is a portion (heat dissipation function) that plays a role of FIN, and a symbol C is in contact with a neighboring unit pin structure 110 to serve as heat transfer to a neighboring heat dissipation fin.

The fastening method of the unit pin structures is not limited to the above method and may be easily modified at the level of those skilled in the art, but any form having a heat dissipation fin structure in which the unit pin structures 110 are connected in parallel is a right of the present invention. Should belong to.

The length B1 of the housing is preferably manufactured to correspond to the length B2 of the fastening member 115.

The LED module 300 is mounted on the lower side of the housing 100, and the LED cover 310 for protecting the LED module is mounted on the lower side of the housing 100. Wiring associated with electrical components such as LED modules and PSUs is a common technology and thus illustration and description are omitted.

The unit pin structure 110 is the biggest feature of the present invention, and in the related art, a technique in which the shape of the housing itself is formed as a pin structure has not been presented. In addition, the present invention is prefabricated by adding or subtracting the number of the unit pin structures to the use. The advantage is that an outdoor luminaire with suitable specifications can be manufactured.

On the other hand, as a material of the unit pin structure, a good thermal conductivity and light material is suitable, aluminum or magnesium is preferred, but is not limited thereto.

And it would be desirable to form a coating or coating to prevent corrosion due to external exposure.

Figure 6 is a perspective view of the outdoor lighting fixtures from the lower side (not shown in the fixing member) Figure 6, as can be seen in Figure 6, the lower side of the housing is equipped with an LED module can serve as outdoor lighting fixtures When assembling while adjusting the size and number of the unit pin structure 110 described, there is an advantage that the production of the LED module of the corresponding size is easy to manufacture in a variety of specifications.

7 is a measurement of the surface temperature of the LED module light emitting part of the street lamp (formerly a street lamp) and the street lamp of the present invention, the vent is formed on the housing and the heat radiator is built therein.

As experimental conditions of FIG. 7, power was applied to a street lamp having the same LED light emitting module, but data was accumulated for one hour, and the outside temperature was measured by maintaining a constant temperature of 22 to 24 degrees Celsius. After 1 hour, the conventional street lamp having the ventilation hole was measured at a surface temperature of 70.4 degrees, and the street lamp of the present invention was measured at 39.5 degrees, indicating that the street lamp of the present invention was excellent in terms of heat dissipation effect.

By effectively transferring heat generated in a component such as a PSU by the unit pin structure of the present invention to the outside of the housing, there is an advantage that can significantly extend the life of the electrical device.

Meanwhile, in the accompanying drawings of the present invention, only the drawings in which the LED is mounted on the lower side of the housing are shown, but the housing structure of the present invention can be sufficiently implemented by applying the features of the present invention to any kind of luminaire.

A: Unit pin structure coupling section
C: contact
F: heat radiation fin part
100: housing
105: body 108: PSU mounting space
110: unit pin structure 112: hole (HOLE)
116: fastening member
118: fixing member
230: PSU cover 235: PSU cover heat radiation fins
300: LED module
310: LED cover
400: female coupling part

Claims (2)

In the outdoor lighting fixture equipped with a light emitting lamp,
Body portion 105 to which the PSU is mounted;
A plurality of unit pin structures 110 coupled in parallel to one side of the body portion 105;
A fastening member and a fixing member for interconnecting the plurality of unit pin structures;
Including but not limited to:

PSU cover 230 is coupled to the upper direction of the space portion 108 in which the PSU is mounted,
On the upper surface of the PSU cover 230, the PSU cover heat dissipation fins 235 are formed in a concave-convex shape to form a structure in which a contact area with outside air is expanded in a concave-convex shape,
A packing is formed along the periphery of the PSU cover 230 to seal between the PSU mounting space and the PSU cover,
Holes 112 are formed in the lower side and the body portion 105 of the unit pin structure, and the unit pin structures 110 are arranged in parallel to each other by fastening members 115 and 116 penetrating the holes 112. Coupled to the body,
The unit fin structure 110 is a structure in which the contact portion (C) and the heat dissipation fin portion (F) are combined,
The flat surface of the contact portion (C) of one unit pin structure,
It is coupled to be in close contact with the flat portion of the heat radiation fin portion (F) of the neighboring unit fin structure,
In order to couple the unit structures, the length B1 of the housing is formed to correspond to the length B2 of the fastening member 115.
Prefabricated outdoor luminaires with prefabricated fin structure housing.
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