KR20090116368A - Outdoor display enclosure - Google Patents

Abstract

PURPOSE: An outdoor display housing is provided to adjust a thermal load due to sun heat and separate a display unit from outside conditions. CONSTITUTION: An outdoor display housing includes a display unit(200), a transparent plate(20), a housing(10), a heater(130), a heat exchange(120), and a cooling and heating unit(100). The transparent plate protects the front side of the display unit. The housing comprises an inner wall(12), an outer wall(11) and an insulating material(15). The inner wall protects the display unit. The outer wall is exposed to the outside. A gap between the inner wall and the outer wall is filled with the insulating material. The heater is arranged in lower or rear sides of the display unit. The heater heats the first air of the inside of the housing. The heat exchange heat-exchanges the first air with the second air outside the housing through a heat exchange medium to cool the first air. The cooling and heating unit includes the first fan(110) for circulating the first air and the second fan(160) for circulating the second air.

Description

Outdoor Display Enclosure {OUTDOOR DISPLAY ENCLOSURE}

The present invention relates to an outdoor display enclosure, and more particularly, to an outdoor display enclosure that can protect a display unit exposed to an unstable external environment from temperature and humidity changes.

Hereinafter, the display unit is defined as including all display devices using CRTs, such as CRTs, as well as flat panel display devices such as LCD liquid crystal panels, PDPs, and OLEDs.

Originally, the display device was developed to be used indoors with low environmental changes. Therefore, when the display device is used in an unstable external environment, such as an outdoor environment exposed to solar heat, rainfall, snow, frost, extreme temperature changes, or similar conditions, the malfunction of parts Life deterioration is inevitable.

In addition, when the display device is directly exposed to sunlight, the surface temperature may rise to exceed the normal operating temperature range, thereby making image display impossible.

The present invention is to improve the above-mentioned problems, it is possible to isolate the external environment and the display unit from each other, to cope with the external temperature change passively or actively, to adjust the heat load due to solar heat, and to automatically adjust the temperature and humidity Provide outdoor display enclosures.

In order to achieve the above object, the outdoor display enclosure of the present invention, the display unit for displaying an image; A transparent plate protecting a front surface of the display unit; A housing having an inner wall surrounding the display unit, an outer wall exposed to the outside, and a heat insulating material filled between the inner wall and the outer wall; The first air is disposed below or behind the display unit, and the first air is heated by heat-exchanging the first air and the second air outside the housing with a heater that heats the first air inside the housing and a heat exchange medium. Cooling heat means having a heat exchanger for cooling, a first fan for circulating the first air, and a second fan for circulating the second air; Characterized in that it comprises a.

According to the outdoor display enclosure of the present invention, by separating the external environment and the display unit from each other, it is possible to protect the display unit from external debris or external access, and to cope with the external temperature change passively or actively, thereby causing malfunction and reliability according to the temperature change of the display unit. Deterioration can be prevented, and heat load caused by solar heat can be controlled to prevent inoperation of the display unit due to the action of solar load, and can automatically control feedback of temperature and humidity.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms that are specifically defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be made based on the contents throughout the specification.

1 is a perspective view showing the appearance of an outdoor display enclosure of the present invention. Referring to FIG. 1, a transparent plate 20 made of tempered glass or the like is installed on a front surface thereof so that an image displayed on the display unit 200 is not obscured. The housing 10 is provided outside the transparent plate 20. The housing 10 may wrap and protect the display unit 200, block external foreign substances from entering, and prevent damage and theft of the display unit 200 by external intruders. The stand 40 firmly supports the outdoor display enclosure.

The cooling means 100 adjusts the temperature or humidity inside the housing 10 to prevent the display unit 200 from malfunctioning due to an external environment change or deterioration of reliability of components. In front of the cooling means 100, an air hole for introducing external air into the cooling means 100 is provided. Although the cooling means 100 is disposed below the display unit 200 in the illustrated outdoor display enclosure, an embodiment in which the cooling means 100 is disposed on the rear side of the display unit 200 may be used. It is shown in FIG.

FIG. 2 is a side cross-sectional view illustrating a cooling mode of an outdoor display enclosure in which the cooling means 100 is disposed below the display unit 200 as an embodiment of the present invention. The cooling mode refers to a mode in which the air cooled by the cooling means 100 is circulated in the housing 10 to suppress a temperature increase in the housing 10.

3 is a side cross-sectional view illustrating a heating mode of the outdoor display enclosure illustrated in FIG. 2. The heating mode is a mode for maintaining a normal operating temperature of the display unit 200 by circulating the heated air inside the housing 10 when the external environment is low temperature. By cooling the inside of the housing 10 in the cooling mode or by heating the inside of the housing 10 in the heating mode, the temperature inside the housing 10 as well as humidity control and defrosting can be removed.

2 and 3, the configuration for preventing temperature and humidity changes inside the housing 10 may include the housing 10 as a passive means, and the cooling and heating means 100 as an active means. .

Since the housing 10 has a double structure of the inner wall 12 and the outer wall 11 and the heat insulating material 15 is filled therebetween, the influence of the external temperature change on the display unit 200 inside the housing 10. Reduces The rear surface of the housing 10 is equipped with a door 30 that can be opened and closed to facilitate maintenance of the display unit 200 and the driving PCB 210 driving the same.

The cooling means 100 is active by supplementing the function of passive heat control means such as the housing 10 and controls the temperature and humidity inside the housing 10. To this end, the cooling means 100 of the present invention cools the air by the heat exchanger 120 in the cooling mode and heats the air by the heat generated by the heater 130 in the heating mode.

Meanwhile, for convenience of description, the first air is defined as air circulating in the housing 10 by the cooling means 100, and the second air is introduced from the outside of the housing 10 by the second fan 160. It is defined as air passing through the cooling means 100.

The cooling means 100 of the present invention is a heater 130 for heating the first air, and a heat exchanger 120 for cooling the first air by heat-exchanging the first air and the second air around the heat exchange medium 125. ), A first fan 110 for circulating the first air, and a second fan 160 for circulating the second air. The cooling means 100 includes a housing outlet 310 for sucking the first air into the cooling means 100 and a housing inlet for returning the first air heated or cooled by the cooling means 100 into the housing 10. It is preferable to further include 320.

The heat exchanger 120 includes a heat exchange medium 125, a first chamber 129a positioned at one side thereof, and a second chamber 129b positioned at the other side thereof. The first air flows in the first chamber 129a and the second air flows in the second chamber 129b. The heat exchange medium 125 is preferably a material excellent in thermal conductivity and formability for widening the thermal conductive surface. For example, a high heat transfer efficiency for releasing heat taken from the air flowing through the first chamber 129a, such as a metal, a special heat transfer pulp, a functional corrugated medium, and a polymer, to the air flowing through the second chamber 129b. Material is preferable.

In addition, although the structures of the first chamber 129a and the second chamber 129b are schematically illustrated in the accompanying drawings, these are merely for convenience of description and form numerous bends to maximize the heat transfer surface in a limited space. It has to be complicated shape. At this time, it is desirable to secure a predetermined air permeability so that the flow of air in each chamber (129a, 129b) is not disturbed.

In the cooling mode, the operation of the heater 130 is stopped, and the first air is returned to the inside of the housing 10 through the first chamber 129a by the operation of the first fan 110, and by the second fan 160. The second air is discharged to the outside of the housing 10 again through the second chamber 129b. The air flowing from the housing outlet 310 enters the first chamber 129a through the first chamber inlet 121 and the air discharged from the first chamber outlet 122 passes through the first fan 110 through the housing inlet. Head to 320. The second chamber 129b has a second chamber inlet 123 and a second chamber outlet 124 for circulation of the second air.

In the heating mode, the heater 130 is operated and the first air is returned to the inside of the housing 10 through the heater 130 by the operation of the first fan 110 and the operation of the second fan 160 is stopped. The air flowing from the housing outlet 310 flows into the first chamber 129a through the first chamber inlet 121, but the second air is not circulated in the second chamber 129b, so the first air is not cooled. Do not. Air discharged from the first chamber outlet 122 is directed to the housing inlet 320 through the first fan 110 and the heater 130.

On the other hand, it is preferable that the temperature sensor 410 for sensing the temperature inside the housing 10 and the humidity sensor 420 for sensing the humidity in the housing 10 is provided. The controller 400 controls the temperature and humidity inside the housing 10 by operating the cooling means 100 according to the measured values of the temperature sensor 410 and the humidity sensor 420. The temperature sensor 410 and the humidity sensor 420 may be located at any place inside the outdoor display enclosure, such as the top of the display unit 200, in addition to the position shown in the drawing. The cooling means 100 may be operated to remove frost inside the housing 10 generated by temperature, humidity as well as temperature change.

4 is a side cross-sectional view showing the operation of the solar load reducing means 500 of the present invention. 2 and 4, the front surface of the display unit 200 cannot be wrapped in the housing 10 because the front surface of the display unit 200 has to achieve an original purpose of displaying an image, and is only blocked from the outside by the transparent plate 20. At this time, the radiation energy of the sun introduced through the transparent plate 20 (which is defined as solar load) may increase the surface temperature of the display unit 200 to exceed the normal operating temperature range. In the case of the LCD panel, when it reaches a predetermined temperature (about 70 ° C.), it may be discolored and image display may be impossible.

That is, when the outdoor display enclosure of the present invention is installed outdoors, the solar load flowing into the housing 10 except for the transparent plate 20 is primarily blocked by the housing 10 having the insulation 15. By forcibly cooling the inside of the housing 10 with the cooling means 100, it can fully suppress. However, since most of the solar load flowing into the transparent plate 20 passes through the transparent plate 20 and reaches the surface of the display unit 200, it is insufficient to be controlled only by the heat insulating material 15 and the cooling means 100. have.

This is because the gap between the transparent plate 20 and the display unit 200 is very narrow for efficient image display, so that the incoming solar load is properly blocked from the transparent plate 20 without generating an air flow that can be sufficiently cooled. This is because most of them cannot be transmitted. Therefore, the solar load reduction means 500 that can suppress the temperature rise by cooling the surface of the display unit 200 when the solar load through the transparent plate 20 is required.

In addition, the solar load 600 introduced through the transparent plate 20 is concentrated on the short wavelength radiation corresponding to the case where the temperature is high. On the other hand, the surface radiation 610 emitted from the surface of the display 200 is concentrated on the long wavelength radiation corresponding to the case where the temperature is relatively low. The long wavelength radiation does not pass through the tempered glass, which is a material of the transparent plate 20, and accumulates on the front of the display unit 200 to increase the temperature. However, when the thermally conductive material is disposed on the front surface of the display unit 200, the screen is obscured to display an image. Therefore, it is very difficult to discharge the heat accumulated by the surface radiation of the display unit 200 by conduction.

Therefore, the radiant heat is inevitably emitted by convection, and the solar load reducing means 500 of the present invention forms an air flow 620 in the gap between the display unit 200 and the transparent plate 20 by convective heat radiation. The radiant heat of the surface of the display unit 200 is once discharged into the housing 10, and heat is released to the outside by forcibly cooling the inside of the housing 10 with the cooling means 100.

5 is a perspective view showing an embodiment of the solar load reducing means 500 of the present invention. 2 and 5, the air cooled by the cooling means 100 flows into the solar load reducing means 500 to cool radiant heat on the surface of the display unit 200. To this end, the solar load reduction means 500 may include the first duct 510 and the cold air guided by the first duct 510 to guide the cold air generated by the cold heat means 100 toward the display unit 200. A second duct 520 is guided between the transparent plate 20 and the display unit 200.

Meanwhile, in the heating mode, the air heated in the cooling means 100 passes through the solar load reducing means 500, but the temperature sensor 410 senses the temperature of the display unit 200 and feeds it back to the controller 400. Deviation from the normal temperature range of the display unit 200 due to the heating mode operation of the 100 can be prevented.

FIG. 6 is a side sectional view illustrating a cooling mode of an outdoor display enclosure in which cooling means is disposed on a rear surface of a display unit as an embodiment of the present invention. FIG. 7 is a side cross-sectional view illustrating a heating mode of the outdoor display enclosure illustrated in FIG. 6. 6 and 7, the cooling means 100 ′, the controller 400 ′, the temperature sensor 410 ′, as the cooling means 100 ′ are installed on the rear surface of the display unit 200 ′, The shape and location of the humidity sensor 420 'and the solar load reducing means 500' are distinguished, but the function and operation of each component are the same as those of the embodiment shown in FIGS. As the cooling means 100 ′, the housing outlet 310 ′, and the housing inlet 320 ′ are disposed on the rear surface of the display 200 ′, the shape of the first duct 510 ′ is changed as shown.

Although embodiments according to the present invention have been described above, these are merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent embodiments of the present invention are possible therefrom. Therefore, the true technical protection scope of the present invention will be defined by the following claims.

1 is a perspective view showing the appearance of an outdoor display enclosure of the present invention.

FIG. 2 is a side sectional view illustrating a cooling mode of an outdoor display enclosure in which cooling means is disposed below the display unit as an embodiment of the present invention.

3 is a side cross-sectional view illustrating a heating mode of the outdoor display enclosure illustrated in FIG. 2.

4 is a side cross-sectional view showing the operation of the solar load reducing means of the present invention.

5 is a perspective view showing an embodiment of the solar load reducing means of the present invention.

FIG. 6 is a side sectional view illustrating a cooling mode of an outdoor display enclosure in which cooling means is disposed on a rear surface of a display unit as an embodiment of the present invention.

FIG. 7 is a side cross-sectional view illustrating a heating mode of the outdoor display enclosure illustrated in FIG. 6.

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

10 ... housing 11 ... outer wall

12 ... inner wall 15 ... insulation

20 ... transparent plate 30 ... door

40 Stand 100 Cooling means

110 first fan 120 heat exchanger

121 ... first chamber entrance 122 ... first chamber entrance

123 ... chamber 2 entrance 124 ... chamber 2 exit

125 ... heat exchange medium 129a ... chamber 1

129b ... second chamber 130 ... heater

160 ... 2nd Fan 200 ... Display Unit

210 ... driven PCB 310 ... housing exit

320 ... housing entrance 400 ... control

410 ... temperature sensor 420 ... humidity sensor

500 ... solar load reduction means 510 ... first duct

520 ... second duct

Claims (6)

A display unit for displaying an image; A transparent plate protecting a front surface of the display unit; A housing having an inner wall surrounding the display unit, an outer wall exposed to the outside, and a heat insulating material filled between the inner wall and the outer wall; The first air is disposed below or behind the display unit, and the first air is heated by heat-exchanging the first air and the second air outside the housing with a heater that heats the first air inside the housing and a heat exchange medium. Cooling heat means having a heat exchanger for cooling, a first fan for circulating the first air, and a second fan for circulating the second air; Outdoor display housing comprising a. The method of claim 1, The heat exchanger includes a first chamber disposed on one side of the heat exchange medium to flow the first air and a second chamber disposed on the other side of the heat exchange medium to flow the second air, In the cooling mode, the operation of the heater is stopped and the first air is returned to the inside of the housing through the first chamber by the first fan, and the second air is transferred to the second chamber by the second fan. Is discharged to the outside of the housing again, And the heater is operated in the heating mode, the first air is returned to the inside of the housing through the heater, and the operation of the second fan is stopped by the first fan. The method of claim 2, The cooling means, And a housing outlet for sucking the first air into the cooling means, and a housing inlet for supplying the first air heated or cooled by the cooling means into the housing. The method of claim 1, Solar load reduction means for reducing a solar load transmitted through the display unit; Outdoor display housing further comprises a. The method of claim 4, wherein The solar load reduction means, And a first duct for guiding the air cooled by the cooling means toward the display unit, and a second duct for guiding the air guided by the first duct between the transparent plate and the display unit. Outdoor display enclosure. The method according to any one of claims 1 to 5, A control unit which feedback-controls the temperature and humidity inside the housing by operating the cooling means according to measured values of a temperature sensor sensing a temperature inside the housing and a humidity sensor sensing humidity inside the housing; Outdoor display housing further comprises a.

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