KR101176906B1 - Structure for radiating heat of electronic display of LCD monitor type and system for managing the electronic display of LCD monitor type - Google Patents

Abstract

According to the present invention, four surfaces are sealed except for the air intake slit portion provided in the lower portion of the rear surface and the air discharge slit portion provided in the upper portion of the rear surface. A display board housing having a closed lower airtight space except a vent and a second vent; The first vent space communicating with the first vent is vertically formed between the tempered glass and the second vent between the LCD panel and the board. An LCD monitor vertical line comprising at least one LCD monitor vertically installed to form a second ventilation space communicating with the LCD; A third ventilation opening configured to be joined to the air discharge slit by joining the first ventilation space and the second ventilation space to an upper portion of the LCD monitor vertical line in the display housing; A temperature sensor installed on an upper side in the display housing; A fan installed in a lower sealed space of the housing; The fan is driven in accordance with a detection signal of the temperature sensor to introduce external air from the air intake slit to pass the air through the first and second vent holes, the first and second vent holes, and the third vent. Provided is a heat dissipation structure of an LCD monitor display board having a control board for discharging to the discharge slit part, and an electric sign management system for managing an electric light plate having a control board having such a heat dissipation structure.

Description

Structure for radiating heat of electronic display of LCD monitor type and system for managing the electronic display of LCD monitor type}

The present invention relates to an electronic display board employing an LCD monitor, and more particularly, the blackening of an LCD monitor panel according to an increase in the panel temperature caused by the direct sunlight irradiation of the LCD monitor panel at the time of outdoor installation together with the efficient heat dissipation of the heat generated from the LCD monitor itself. The present invention relates to a heat dissipation structure of an LCD monitor display board configured to prevent a phenomenon and to maintain a constant humidity and temperature inside the display board, and an electronic sign management system for efficiently managing the display boards.

Recently, with the development of LCD panel technology, an LCD panel employing an LCD monitor is being developed. The LCD monitor display board is vulnerable to heat due to the characteristics of the LCD panel, so when the panel rises above a certain temperature, a blackening phenomenon that turns black occurs. In particular, such a blackening phenomenon appears when the direct sunlight is irradiated on the front panel of the LCD monitor when the LCD monitor signboard is installed outdoors, the panel temperature increases rapidly.

Therefore, it is possible to efficiently dissipate the heat generated by the LCD monitor itself in the LCD monitor display board, and the direct sunlight is applied to the front panel of the LCD monitor during the outdoor installation of the LCD monitor. It is desirable to develop a new technology that can prevent the phenomenon and maintain a constant humidity and temperature inside the electronic display.

In addition, as the LCD monitor display board is widely installed, it is desired to develop a technology for efficiently operating and managing the display board at a center for operating and managing the display board.

Accordingly, the present invention was invented to solve the above-mentioned problems of the prior art and to meet the above-mentioned prior requirements, and the panel by the direct light irradiation of the LCD monitor panel in outdoor installation with the efficient heat dissipation of the heat generated in the LCD monitor itself. The purpose of the present invention is to provide a heat dissipation structure of an LCD monitor display board, which can prevent blackening of the LCD monitor panel according to a rise in temperature, and to maintain a constant humidity and temperature inside the display board.

In addition, an object of the present invention is to provide an electronic sign management system that can efficiently manage and manage the electronic sign in a center that operates and manages a large number of electronic signs.

In order to achieve the above object, the heat dissipation structure of the LCD monitor display board according to the present invention has four surfaces except for the air intake slit part 32 installed at the bottom of the rear surface and the air discharge slit part 34 installed at the top of the rear surface. Is sealed and has a closed lower sealed space except for the air suction slit 32, the first vent 41a, and the second vent 41b in the interior corresponding to the air suction slit 32. An electronic board housing; A first ventilation space 72 communicating with the first vent is vertically formed between the tempered glass in the upper display housing of the lower sealed space whose front surface is sealed by tempered glass, and is formed between the LCD panel and the LCD board. An LCD monitor vertical line including at least one LCD monitor vertically installed such that a second ventilation space 72 communicating with the second vent is vertically formed; A third vent hole 53 configured to combine the first vent space and the second vent space in an upper portion of the LCD monitor vertical line to communicate with the air discharge slit part 34; A temperature sensor installed on an upper side in the display housing; A fan installed in a lower sealed space of the housing; The fan is driven in response to the detection signal of the temperature sensor to introduce external air from the air suction slit part 32 to pass through the first and second vent holes, the first and second vent holes, and the third vent hole. It characterized in that it comprises a control board for controlling to be discharged to the air discharge slit 34.

Here, the filter 42 may be further provided at a position corresponding to the air intake slit 32 in the lower sealed space of the housing.

In addition, a heater is additionally installed in a lower sealed space of the housing, and the control board drives the fan to control the fan when the temperature from the temperature sensor 75 becomes greater than or equal to a predetermined set upper limit. External air flows through the air through the first and second air vents 41a and 41b and the first and second air vents 72 and 74 and the third air vent 53. The discharge board is discharged to the discharge slit part 34, and the control board controls the driving of the heater and the fan when the temperature from the temperature sensor 75 is lower than a predetermined lower limit value. Hot air heated by the heater through the external air is introduced into the first and second vent holes 41a and 41b and the first and second vent holes 72 and 74 and the third vent hole 53. It is preferable to be discharged to the air discharge slit part 34 via the). All.

Further, an illuminance sensor is further provided at a predetermined position adjacent to the LCD panel 62 on the front surface of the electronic sign housing, and when the illuminance from the illuminance sensor 76 is equal to or greater than a predetermined set value, External air is introduced through the air intake slit part 32 by controlling the fan 46 to drive the first and second vent holes 41a and 41b and the first and second vent spaces 72 and 74. And it is preferable to be discharged to the air discharge slit 34 through the third vent (53).

On the other hand, in order to achieve the above object, the heat dissipation structure of the LCD monitor display board according to the present invention, except the air intake slit 132 and the air discharge slit 134 provided on the upper surface of the lower surface is four sides. An electric light plate housing having an airtight lower sealed space except for the air suction slit 132 and the ventilation space 172 in the airtight, the air suction slit 132; A vertical line of the LCD monitor including at least one LCD monitor vertically installed so that the ventilation space 172 is vertically formed between the tempered glass in the upper display housing of the lower sealed space whose front surface is sealed with tempered glass; ; A ventilation opening 153 configured to communicate the ventilation space to the air discharge slit portion 134 in an upper portion of the LCD monitor vertical line in the display housing; A temperature sensor installed on an upper side in the display housing; A fan installed in a lower sealed space of the housing; The fan is driven in accordance with a detection signal of the temperature sensor to introduce external air from the air intake slit unit 132 to pass through the ventilation space 172 and the vent 153 to discharge the air slit unit 134. It characterized in that it comprises a control board for controlling to be discharged to.

Here, the filter 142 is preferably provided at a position corresponding to the air intake slit 132 in the lower sealed space of the housing.

In addition, a heater is additionally installed in a lower sealed space of the housing, and the control board drives the fan when the temperature from the temperature sensor 175 exceeds a predetermined set upper limit to control the air intake slit. External air is introduced through the air 132 to be discharged to the air discharge slit part 134 via the air vent 172 and the air vent 153, and the control board has a temperature from the temperature sensor 715. Is less than or equal to a predetermined lower limit to drive and control the heater and the fan, the outside air flows through the air intake slit 132, the hot air heated by the heater is the ventilation space 172 and the vent ( It is preferable to be discharged to the air discharge slit 134 via 153.

In addition, an illuminance sensor is additionally installed at a predetermined position adjacent to the LCD panel 162 on the front of the display panel housing, and when the illuminance from the illuminance sensor 176 is equal to or greater than a predetermined setting value, By controlling the fan 146 to drive the outside air through the air intake slit 132 to be discharged to the air discharge slit 134 via the ventilation space 172 and the vent 153. desirable.

In addition, a partition wall 131 having a height corresponding to a vertical line of the LCD monitor including at least one LCD monitor is formed at an upper inner back side of the display housing, and the partition 131 has a plurality of internal slits in a vertical direction. 135 may be formed.

On the other hand, to achieve the above object, the electronic sign management system according to the present invention includes a plurality of electronic signs having a heat dissipation structure of the LCD monitor and having a control board; A computer communicatively coupled to the control board of the billboard; A network in communication with the computer; An electronic board management server communicatively coupled to the network; And a manager computer connected to the management server through the computer, and transmits state information including a current setting state value and a current operating state value to the management server through the computer. Is characterized in that the request to receive the status information of the control board of the particular sign board.

According to the present invention configured as described above, it is possible to prevent the blackening phenomenon of the LCD monitor panel according to the rise of the panel temperature due to the direct sunlight irradiation of the LCD monitor panel at the time of outdoor installation together with the efficient heat dissipation of the heat generated from the LCD monitor itself, The humidity and temperature inside can be kept constant.

In addition, according to the present invention, it is possible to efficiently manage and manage the signboard in the center of operating and managing a large number of signboards that are installed widely, and to perform a quick and accurate maintenance by analyzing the abnormal signs when a particular signboard occurs It becomes possible.

1 is a front view of an LCD monitor display board employing a heat dissipation structure according to a first embodiment of the present invention.
2 is a rear view of an LCD monitor display board employing a heat dissipation structure according to a first embodiment of the present invention.
3 is a side cross-sectional view of an LCD monitor with a heat dissipation structure according to a first embodiment of the present invention.
4 is a block diagram of a heat radiation control circuit in the LCD monitor display board adopting a heat radiation structure according to the first embodiment of the present invention.
5 is a front view of an LCD monitor display board employing a heat dissipation structure according to a second embodiment of the present invention.
6 is a rear view of an LCD monitor display board employing a heat dissipation structure according to a second embodiment of the present invention.
7 is a side cross-sectional view of an LCD monitor display board employing a heat dissipation structure according to a second embodiment of the present invention.
8 is a block diagram of a heat dissipation control circuit in an LCD monitor display board employing a heat dissipation structure according to a second embodiment of the present invention.
9 is a system diagram showing an electronic board management system for managing the LCD monitor display board adopting a heat dissipation structure according to the present invention.

Hereinafter, a heat dissipation structure and an LED management system of an LCD monitor according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

First, an LCD monitor display board adopting a heat dissipation structure according to a first embodiment of the present invention will be described with reference to FIGS. 1 to 4. The LCD monitor display board of this embodiment is a heat dissipation structure applied to a tower display board standing upright on the floor.

As shown in the drawings, on the base 10 positioned on the bottom as supporting the display board, a four-side sealed display board housing is installed except for the air suction slit part and the air discharge slit part of the back side.

The display housing includes a front housing 20, a rear housing 30, an upper housing and left and right housings, the front housing 20 and the upper housing and the left and right housings are integrally formed, and the rear housing 30 is sealed at the rear. It is preferable that it is a structure combined.

An air intake slit 32 formed of a plurality of slits for air intake is formed in the lower portion of the rear housing 30, and an air discharge made of a plurality of slits for exhausting air is formed in an upper portion of the rear housing 30. The slit part 34 is formed. Here, the air suction slit part 32 and the air discharge slit part 34 form a pair, and are preferably formed one by one corresponding to the vertical line of the at least one LCD monitor.

The lower part of the housing is provided with a closed space except for the air intake slit 32, the first vent 41a and the second vent 41b. The sealed spaces are preferably formed one by one corresponding to the vertical line of the at least one LCD monitor.

A filter 42, a control board 44, and a turbo fan 46 are provided in the lower sealed space of the housing, and the first vent hole 41a and the upper portion of the sealed space on the upper side of the turbo fan 46 are provided. Two vent holes 41b are formed so that the air wind generated by the turbo fan 46 flows into the upper portion of the housing through the first vent holes 41a and the second vent holes 41b.

The filter 42 is installed at a position corresponding to the air intake slit 32 to filter foreign matter contained in the air introduced through the air intake slit 32.

The control board 44 is a component in charge of the overall control of the heat dissipation structure according to the present invention.

The turbo fan 46 is rotated under the control of the control board 44 so that external air flows from the air intake slit 32 and is discharged through the first vent 41a and the second vent 41b. do. In the present embodiment, four turbo fans 46 are provided for the vertical line of the LCD monitor including at least one LCD monitor, but the present invention is not limited thereto.

Meanwhile, a heater may be additionally installed in the lower sealed space of the housing, and the heater may be installed in a space between the filter 42 and the turbo fan 46 so as to control the turbo fan according to the control of the control board 44. 46) may be configured to heat the air flowing into.

At least one of the LCD monitors 62 and 64 is attached to the upper part of the housing by a bracket 55 on a bracket fixing frame 51 installed in the housing vertically upwardly corresponding to the one lower closed space. That is, vertical lines of the LCD monitor including at least one LCD monitor are installed vertically corresponding to one lower sealed space. In addition, the upper portion of the housing is preferably sealed with the rear of the LCD monitor except for the first vent hole (41a) and the second vent hole (41b), and the third vent hole 53 located on the upper portion.

Here, in the present embodiment, the LCD monitors 62 and 64 exemplarily illustrate and describe an outdoor LCD monitor in which the LCD panel 62 and the LCD board 64 are separated, but the present invention is not limited thereto. something to do.

Tempered glass 66 coated with a UV blocking film is installed on the front surface corresponding to the panel 62 of the LCD monitor, and a first ventilation space 72 is provided between the tempered glass 66 and the LCD panel 62. The second ventilation space 74 is formed between the LCD panel 62 and the LCD board 64.

On the other hand, in the front of the front housing 20 of the display board, the illumination sensor 76 (at least at any one of A, B, C, D, E, F, etc.) adjacent to the panel 62 of the LCD monitor; 4), a temperature sensor 75 (see FIG. 4) and a humidity sensor 77 (see FIG. 4) are installed between the LCD panel 62 and the LCD board 64 or at a predetermined position on the upper part of the housing. have.

As shown in Figure 4, the control circuit configuration in the heat dissipation structure according to the present invention is the control board 44, turbo fan 46, heater 49, temperature sensor 75, illuminance sensor 76 and humidity sensor It comprises 77.

The control board 44 includes a control unit 44a, a sensor input unit 44b, a fan driver 44c, a heater driver 44d, a communication unit 44e, a memory 44f, and an operation unit 44g. ,

The sensor input unit 44b transmits a temperature signal, an illuminance signal, and a humidity signal from the temperature sensor 75, the illuminance sensor 76, and the humidity sensor 77 to the control unit 44a. In addition, the fan driver 44c drives the turbo fan 46 according to the control signal of the control unit 44a, and the heater driver 44d is the heater 49 according to the control signal of the control unit 44a. ). In addition, the communication unit 44e communicates with an external device such as a computer device that provides an image to the electronic display, for example, and the memory 44f is generated during operation of the control program of the control unit 44a and the electronic display. Data or data provided from an external device is stored. In addition, the operation unit 44g is configured to set a set temperature, a set humidity, a set illuminance, and the like.

The control unit 44a receives the temperature signal, the illuminance signal and the humidity signal through the sensor input unit 44b, and compares the fan driver 44c and the heater driver 44e with the temperature, illuminance and humidity set according to the control program. By controlling the temperature, the heat dissipation generated by the LCD monitor itself can be prevented and the blackout of the LCD monitor panel can be prevented due to the rise of the panel temperature due to the direct sunlight of the LCD monitor panel during outdoor installation. Keep it constant.

In addition, the control unit 44a communicates with an external device through the communication unit 44e to transmit a current setting state and an operating state to an external device, and also receives a control signal and data from the external device. do. In addition, the control unit 44a also serves to transfer data to be displayed on the LCD monitor.

The operation of the heat dissipation structure of the LCD monitor display board according to the first embodiment of the present invention configured as described above will be described.

First, when the temperature from the temperature sensor 75 is above a predetermined set upper limit, the control unit 44a controls the fan drive unit 44c so that the turbo fan 46 rotates through the air intake slit unit 32. External air flows in and is discharged to the air discharge slit part 34 via the first and second vent holes 41a and 41b, the first and second vent holes 72 and 74, and the third vent hole 53. By dissipating the LCD board 64 and the LCD panel 62, the heat generated by the LCD monitor itself can be efficiently dissipated. Here, the speed of the turbo fan 46 may be controlled according to the amount of excess temperature exceeding a predetermined set upper limit so as to control the amount of air introduced therein.

On the other hand, when the temperature from the temperature sensor 75 falls below a predetermined lower limit, the control unit 44a controls the heater driver 44d to drive the heater 49 and the fan driver 44c to control the turbo fan. The first and second vent holes 41a and 41b and the first and second vent spaces are rotated by the 46 and the external air flows through the air intake slit 32 and is heated by the heater 49. The LCD board 64 and the LCD panel 62 do not freeze by being discharged to the air discharge slit part 34 via the 72 and 74 and the third vent hole 53. Here, the heating amount of the introduced air may be controlled by controlling the heating temperature of the heater 49 in accordance with the temperature amount below the predetermined set lower limit.

On the other hand, when the illuminance from the illuminance sensor 76 is greater than or equal to a predetermined set value, the control unit 44a controls the fan drive unit 44c to rotate the turbo fan 46 so that the outside through the air intake slit unit 32. Air is introduced into the air discharge slit part 34 through the first and second vent holes 41a and 41b, the first and second vent holes 72 and 74, and the third vent hole 53. As a result, the heat dissipation of the LCD board 64 and the LCD panel 62 is performed, thereby preventing blackening of the LCD monitor panel by preventing an increase in the temperature of the LCD panel by infrared radiation of direct sunlight. Here, the speed of the turbo fan 46 may be controlled according to the amount of excess illuminance exceeding a predetermined set value to control the amount of air introduced therein.

On the other hand, when the temperature from the humidity sensor 77 is more than a predetermined set value, the control unit 44a controls the heater driver 44d to drive the heater 49 and the fan driver 44c to control the turbo fan ( The first and second vent holes 41a and 41b and the first and second vent spaces (46) are rotated so that the outside air flows through the air intake slit part 32 and is heated by the heater 49. The humidity around the LCD board 64 and the LCD panel 62 is lowered by allowing the air outlet slit part 34 to be discharged through the 72 and 74 and the third vent hole 53. Here, the heating amount of the air introduced may be controlled by controlling the heating temperature of the heater 49 in accordance with the humidity amount exceeding a predetermined set value.

As described above, according to the first embodiment of the present invention, the black monitor of the LCD monitor panel is prevented due to the efficient heat dissipation of the heat generated by the LCD monitor itself and the rise of the panel temperature due to the direct sunlight irradiation of the LCD monitor panel during outdoor installation. It is possible to maintain a constant humidity and temperature inside the sign.

Next, an LCD monitor display board adopting a heat dissipation structure according to a second embodiment of the present invention will be described with reference to FIGS. 5 to 8. The LCD monitor display board of this embodiment is a heat dissipation structure applied to a mounted display board installed on a wall or a structure of a building apart from the floor by a predetermined height or more. In the drawings, the structure of mounting the electric light plate is omitted because it is irrelevant to the present invention.

As shown in the drawings, except for the air intake slit portion and the air discharge slit portion of the bottom is provided with a light-shielding plate housing is sealed.

The display housing includes a front housing 120, a rear housing 130, an upper housing and left and right housings, the front housing 120 and the upper housing and the left and right housings are integrally formed, and the rear housing 130 is sealed at the rear. It is preferable that it is a structure combined.

The lower housing 130 is formed with an air intake slit 132 consisting of a plurality of slits for air intake, and an air exhaust slit part consisting of a plurality of slits for exhausting air at an upper portion of the rear housing 130. 134 is formed. Here, the air intake slit 132 and the air discharge slit 134 is a pair, preferably formed one by one corresponding to the vertical line of the at least one LCD monitor.

A partition wall 131 having a height corresponding to a vertical line of the LCD monitor including at least one LCD monitor is formed at an upper inner side of the rear housing 130, and the partition 131 has a plurality of internal slits in a vertical direction. 135 is formed. This is for heat radiation of the LCD board 164 by allowing the circulating air to pass through the rear of the LCD board 164 as a whole.

The lower part of the housing is provided with a closed space except for the air suction slit part 132 and the ventilation space 172. The sealed spaces are preferably formed one by one corresponding to the vertical line of the at least one LCD monitor.

The lower sealed space of the housing is provided with a filter 142, a control board 144 (not shown), and a cross fan 146, and a ventilation space 172 at the upper end of the sealed space at the upper side of the cross fan 146. ) Is formed so that the air wind generated by the cross fan 146 flows into the upper portion of the housing through the ventilation space 172.

The filter 142 is installed at a position corresponding to the air intake slit 132 to filter foreign matter contained in the air introduced through the air intake slit 132.

The control board 144 (see FIG. 8) is a component in charge of the overall control of the heat dissipation structure according to the present invention.

The cross fan 146 rotates under the control of the control board 144 to operate so that the outside air is introduced from the air intake slit 132 and discharged through the ventilation space 172.

Meanwhile, a heater may be additionally installed in the lower sealed space of the housing, and the heater may be installed in a space between the filter 142 and the cross fan 146 to cross the fan according to the control of the control board 144. 146) may be configured to heat the air flowing into.

At least one LCD monitor 162 and 164 is attached to the upper part of the housing by a bracket 155 to a bracket fixing frame 151 installed inside the housing in a vertically upward direction corresponding to the one lower closed space. That is, vertical lines of the LCD monitor including at least one LCD monitor are installed vertically corresponding to one lower sealed space. In addition, the upper portion of the housing is preferably sealed with the rear of the LCD monitor, except for the ventilation space 172 and the vent 153.

Here, in the present embodiment, the LCD monitors 162 and 164 exemplarily illustrate and describe an outdoor LCD monitor in which the LCD panel 162 and the LCD board 164 are separated, but the present invention is not limited thereto. .

Tempered glass 166 coated with a UV blocking film is installed on a front surface corresponding to the panel 162 of the LCD monitor, and a ventilation space 172 is formed between the tempered glass 166 and the LCD panel 162. It is.

On the other hand, the illuminance sensor 176 is located at a predetermined position (a, b, c, d, e, f, g, etc.) adjacent to the panel 162 of the LCD monitor in front of the front housing 120 of the display board. FIG. 8 is provided, and a temperature sensor 175 (see FIG. 8) and a humidity sensor 177 (see FIG. 8) are disposed between the LCD panel 162 and the LCD board 164 or at a predetermined location on the upper portion of the housing. It is installed.

As shown in FIG. 8, the control circuit configuration of the heat dissipation structure according to the present invention includes a control board 144, a cross fan 146, a heater 149, a temperature sensor 175, an illuminance sensor 176, and a humidity sensor. 177 is configured.

The control board 144 includes a control unit 144a, a sensor input unit 144b, a cross fan driver 144c, a heater driver 144d, a communication unit 144e, a memory 144f, and an operation unit 144g. do,

The sensor input unit 144b transmits a temperature signal, an illuminance signal, and a humidity signal from the temperature sensor 175, the illuminance sensor 176, and the humidity sensor 177 to the control unit 144a. In addition, the cross fan driving unit 144c drives the cross fan 146 according to the control signal of the control unit 144a, and the heater driving unit 144d operates the heater (according to the control signal of the control unit 144a). 149). In addition, the communication unit 144e communicates with an external device such as a computer device that provides an image to the electronic display, for example, and the memory 144f is generated during operation of the control program of the control unit 144a and the electronic display. Data or data provided from an external device is stored. In addition, the operation unit 144g is configured to set a set temperature, a set humidity, a set illuminance, and the like.

The control unit 144a receives the temperature signal, illuminance signal and humidity signal through the sensor input unit 144b and compares the temperature, illuminance and humidity set according to the control program with the cross fan driver 144c and the heater driver 144e. By controlling the temperature, the heat dissipation generated by the LCD monitor itself can be prevented and the blackening of the LCD monitor panel can be prevented due to the rise of the panel temperature caused by the direct sunlight of the LCD monitor panel during outdoor installation. To keep it constant.

In addition, the control unit 144a communicates with an external device through the communication unit 144e to transmit a current setting state and an operating state to the external device, and also receives a control signal and data from the external device. do. In addition, the control unit 144a also serves to deliver data to be displayed on the LCD monitor.

The operation of the heat dissipation structure of the LCD monitor display board according to the second embodiment of the present invention configured as described above will be described.

First, when the temperature from the temperature sensor 175 is greater than or equal to a predetermined set upper limit, the control unit 144a controls the cross fan driving unit 144c so that the cross fan 146 rotates to move the air intake slit unit 132. External air is introduced through the discharge space 172, the vent 153, and the plurality of internal slit portions 135 so as to be discharged to the air discharge slit portion 134 by the LCD board 164 and the LCD panel 162. By conducting heat radiation, the heat generated by the LCD monitor itself is effectively radiated. Here, the speed of the cross fan 146 may be controlled according to the amount of excess temperature exceeding a predetermined set upper limit so as to control the amount of air introduced therein.

On the other hand, when the temperature from the temperature sensor 175 is less than or equal to a predetermined lower limit, the control unit 144a controls the heater driver 144d to drive the heater 149 and controls the cross fan driver 144c to cross it. The fan 146 is rotated so that external air flows through the air intake slit part 132 and is heated by the heater 149 through the ventilation space 172, the ventilation hole 153, and the inner slit part 135. By discharging to the air discharge slit 134 so that the LCD board 164 and the LCD panel 162 does not freeze. Here, the heating amount of the introduced air may be controlled by controlling the heating temperature of the heater 149 according to the temperature amount below the predetermined set lower limit.

On the other hand, when the illuminance from the illuminance sensor 176 is more than a predetermined set value, the control unit 144a controls the cross fan driving unit 144c so that the cross fan 146 rotates through the air intake slit unit 132. External air flows into the air discharge slit part 134 via the ventilation space 172, the ventilation hole 153, and the inner slit part 135 to prevent heat dissipation of the LCD board 164 and the LCD panel 162. As a result, the LCD panel temperature is prevented from rising by direct infrared ray irradiation to prevent blackening of the LCD monitor panel. Here, the amount of air flowing in may be controlled by controlling the speed of the cross fan 146 according to the excess illuminance amount exceeding a predetermined set value.

On the other hand, when the temperature from the humidity sensor 177 is higher than a predetermined set value, the control unit 144a controls the heater driver 144d to drive the heater 149 and controls the cross fan driver 144c to cross-fan. 146 is rotated so that the outside air flows through the air intake slit 132 and is heated by the heater 149 via the ventilation space 172, the vent 153, and the inner slit 135. By allowing the air discharge slit 134 to be discharged, the humidity around the LCD board 164 and the LCD panel 162 is lowered. In this case, the heating amount of the introduced air may be controlled by controlling the heating temperature of the heater 149 according to the humidity amount exceeding a predetermined set value.

As described above, according to the second embodiment of the present invention, the heat dissipation of the LCD monitor itself is prevented and the blackening of the LCD monitor panel is prevented due to the rise of the panel temperature caused by the direct sunlight of the LCD monitor panel during outdoor installation. It is possible to maintain a constant humidity and temperature inside the sign.

Next, a display board management system for managing LCD monitor display boards adopting a heat dissipation structure according to the present invention will be described.

The signboard management system of the present invention comprises a signboard (200_1) (200_2) (...) (200_n) having a control board (210_1) (210_2) (...) (210_n) of the heat radiation structure according to the present invention and Computer 220_1 (220_2) (...) communicatively coupled to the control boards 210_1, 210_2 (...) 210_n of the billboard 200_1, 200_2, (...) (200_n). 220_n, a network 230 communicatively coupled with the computers 220_1, 220_2, (...) 220_n, a billboard management server 240 communicatively coupled to the network 230, and the management server 240 And a manager computer 250 connected to each other.

In the electronic board management system configured as described above, in the control boards 210_1, 210_2, (...) 210_n, the current setting state value and the current operation state value are stored in the computer 220_1, 220_2 (...) (220_n). Through the periodic communication or aperiodic communication to the management server 240 through the). Accordingly, the manager may monitor the state of the electronic signs 200_1, 200_2 (...) 200_n through the manager computer 250.

In addition, the administrator may request and receive the current setting state value and the current operating state value of the control board 210_1, 210_2 (...) 210_n through the manager computer 250, and accordingly the administrator It is possible to monitor the status of the electric sign 200_1, 200_2 (...) (200_n) through the manager computer 250 in real time.

In addition, the administrator may request to change or modify the setting state values of the control boards 210_1, 210_2 (...) 210_n through the administrator computer 250, and thus the administrator may change the administrator computer 250 in real time. The control panel 200_1, 200_2, (...) (200_n) can be controlled through.

As described above, it is possible to efficiently operate and manage a signboard in a center that operates and manages a plurality of signboards according to the present invention, and performs maintenance quickly and accurately by analyzing abnormal signs when a specific sign is generated. You can do it.

On the other hand, the present invention is not limited to the above-described specific embodiments, but can be carried out by various changes and modifications without departing from the gist of the present invention. If such changes and modifications are included in the appended claims, it will be obvious that they belong to the present invention.

10: base 20: front housing
30 back housing 32 air intake slit
34: air discharge slit part 41a: first vent hole
41b: second vent hole 42: filter
44: control board 46: turbo fan
51: bracket fixing frame 53: third vent opening
55: bracket 62: LCD panel
64: LCD board 66: tempered glass
72: first ventilation space 74: second ventilation space
75: temperature sensor 76: light sensor
77: humidity sensor

Claims (10)

delete Except for the air intake slit portion provided in the lower portion of the rear surface and the air discharge slit portion provided in the upper portion of the rear surface is sealed, the air intake slit portion and the first vent and second inside the corresponding air intake slit portion A display board housing having a closed lower sealed space except for a vent;
A first ventilation space communicating with the first vent is vertically formed between the tempered glass in the upper electronic housing of the lower sealed space whose front surface is sealed by tempered glass, and the second vent between the LCD panel and the LCD board. An LCD monitor vertical line including at least one LCD monitor installed vertically such that a second ventilation space communicating with the vent is vertically formed;
A third ventilation opening configured to be joined to the air discharge slit by joining the first ventilation space and the second ventilation space to an upper portion of the LCD monitor vertical line in the display housing;
A temperature sensor installed on an upper side in the display housing;
A fan installed in a lower sealed space of the housing;
The fan is driven in accordance with a detection signal of the temperature sensor to introduce external air from the air intake slit to pass the air through the first and second vent holes, the first and second vent holes, and the third vent. A control board for controlling discharge to the discharge slit portion;
And a filter installed in a position corresponding to the air intake slit in the lower sealed space of the housing. Except for the air intake slit portion provided in the lower portion of the rear surface and the air discharge slit portion provided in the upper portion of the rear surface is sealed, the air intake slit portion and the first vent and second inside the corresponding air intake slit portion A display board housing having a closed lower sealed space except for a vent;
A first ventilation space communicating with the first vent is vertically formed between the tempered glass in the upper electronic housing of the lower sealed space whose front surface is sealed by tempered glass, and the second vent between the LCD panel and the LCD board. An LCD monitor vertical line including at least one LCD monitor installed vertically such that a second ventilation space communicating with the vent is vertically formed;
A third ventilation opening configured to be joined to the air discharge slit by joining the first ventilation space and the second ventilation space to an upper portion of the LCD monitor vertical line in the display housing;
A temperature sensor installed on an upper side in the display housing;
A fan installed in a lower sealed space of the housing;
The fan is driven in accordance with a detection signal of the temperature sensor to introduce external air from the air intake slit to pass the air through the first and second vent holes, the first and second vent holes, and the third vent. A control board for controlling discharge to the discharge slit portion;
It is provided with a heater installed in the lower sealed space of the housing,
When the temperature from the temperature sensor exceeds a predetermined upper limit, the control board drives the fan so that external air flows through the air intake slit so that the first and second vent holes and the first and second vent holes are provided. Discharge to the air discharge slit via the ventilation space and the third vent,
The control board, when the temperature from the temperature sensor is less than a predetermined set lower limit to drive the heater and the fan to control the outside air flows through the air intake slit to the hot air is heated by the heater The heat dissipation structure of the LCD monitor display board, characterized in that the discharge through the air discharge slit through the first and second vents, the first and second vent spaces and the third vent. The method according to claim 2 or 3,
An illuminance sensor is further installed at a predetermined position adjacent to the LCD panel at the front of the display panel housing.
The control board, when the illuminance from the illuminance sensor is more than a predetermined set value to drive the fan to the outside air flows through the air intake slit, the first and second vents and the first and second vents The heat dissipation structure of the LCD monitor display board, characterized in that it is discharged to the air discharge slit through the space and the third vent. delete The four surfaces are sealed except for the air intake slit portion provided on the lower surface and the air discharge slit portion provided on the upper surface thereof, and the air intake slits and the ventilation space are sealed inside the air intake slit portion. An electronic board housing having a lower sealed space;
An LCD monitor vertical line comprising at least one LCD monitor vertically installed in the upper display housing of the lower sealed space whose front surface is sealed with tempered glass so that a ventilation space is formed vertically between the tempered glass;
A ventilation hole configured to communicate the ventilation space to the air discharge slit in the upper portion of the LCD monitor vertical line in the display housing;
A temperature sensor installed on an upper side in the display housing;
A fan installed in a lower sealed space of the housing;
A control board for driving the fan according to the detection signal of the temperature sensor to control the air to be discharged to the air discharge slit via the ventilation space and the vent by introducing external air from the air suction slit;
And a filter installed in a position corresponding to the air intake slit in the lower sealed space of the housing. The four surfaces are sealed except for the air intake slit portion provided on the lower surface and the air discharge slit portion provided on the upper surface thereof, and the air intake slits and the ventilation space are sealed inside the air intake slit portion. An electronic board housing having a lower sealed space;
An LCD monitor vertical line comprising at least one LCD monitor vertically installed in the upper display housing of the lower sealed space whose front surface is sealed with tempered glass so that a ventilation space is formed vertically between the tempered glass;
A ventilation hole configured to communicate the ventilation space to the air discharge slit in the upper portion of the LCD monitor vertical line in the display housing;
A temperature sensor installed on an upper side in the display housing;
A fan installed in a lower sealed space of the housing;
A control board for driving the fan according to the detection signal of the temperature sensor to control the air to be discharged to the air discharge slit via the ventilation space and the vent by introducing external air from the air suction slit;
It is provided with a heater installed in the lower sealed space of the housing,
The control board, when the temperature from the temperature sensor is more than a predetermined set upper limit to drive the fan so that the outside air flows through the air intake slit part to be discharged to the air discharge slit part through the ventilation space and vent holes ,
The control board, when the temperature from the temperature sensor is less than a predetermined set lower limit to drive the heater and the fan to control the outside air flows through the air intake slit to the hot air heated by the heater is ventilated The heat dissipation structure of the LCD monitor display board, characterized in that to be discharged to the air discharge slit via a space and a vent. 8. The method according to claim 6 or 7,
An illuminance sensor is further installed at a predetermined position adjacent to the LCD panel at the front of the display panel housing.
The control board, when the illuminance from the illuminance sensor is greater than a predetermined set value to drive the fan so that the outside air is introduced through the air intake slit portion to be discharged to the air discharge slit portion through the ventilation space and the vent hole. The heat dissipation structure of the LCD monitor display board. 9. The method of claim 8,
The upper and rear rear of the display housing is formed with a partition wall having a height corresponding to the vertical line of the LCD monitor consisting of at least one LCD monitor, the partition wall is formed with a plurality of internal slits in the vertical direction Heat dissipation structure of monitor display board. A plurality of electronic signs having a heat dissipation structure of the LCD monitor and a control board;
A computer communicatively coupled to the control board of the billboard;
A network in communication with the computer;
An electronic board management server communicatively coupled to the network;
It is configured to include an administrator computer connected to the management server,
The control board of the electronic board transmits the state information including the current setting state value and the current operating state value to the management server through the computer, and the manager computer to request and receive the status information of the control board of the specific electronic board Monitor management system characterized by.

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