KR100989932B1 - Apparatus of display using a frost and method therefor - Google Patents

Abstract

The present invention relates to a display device using the method and the method, and more particularly, to a display device and a method using the Kim seorim to implement a display of a constant resolution by adjusting the amount of the seolim produced by the temperature difference.

According to the present invention, a display apparatus using a lather is provided such that a display panel unit in which each heating element of a lattice structure arranged in a mattress shape is patterned on a glass surface, a memory unit for storing display data, and a display panel unit for displaying display data. And a controller configured to turn on or turn off a part of the rows and columns of the heating element lattice structure corresponding to the display data.

According to the present invention, it is possible to display information by using the rim, and to save energy by preventing only the rim occurring in a specific part of the mirror.

Steaming, display, temperature difference

Description

Apparatus of display using a frost and method therefor}

The present invention relates to a display device using the method and the method, and more particularly, to a display device and a method using the Kim seorim to implement a display of a constant resolution by adjusting the amount of the seolim produced by the temperature difference.

Steaming is usually caused by the condensation of warm water vapor on the inner wall of the glass adjacent to the cold outside when the room is hot and rich in water vapor. In the case of summer, on the contrary, a cold wind such as air conditioner lowers the temperature of the glass adjacent to the outside, and consequently, hot external water vapor condenses and adheres to the glass outer wall.

Conventionally, antifogging agents made of substances such as surfactants are used to prevent fogging, but when antifogging agents are used, the antifogging agent may be seen for the first predetermined time, but over time. Accordingly, as the glass surface is washed by the loss of the effectiveness of the antifogging agent or by the splash of water and small droplets of the antifog, there is a problem that the antifogging agent should be provided at all times along with the inconvenience of treating the glass surface as the antifogging agent every time it is used.

And conventionally, in the anti-fog, there is a problem in that it is not possible to display the specific information by varying the temperature for each area to display the specific information or to prevent the anti-fog only for energy saving.

In order to solve the above problems, it is an object of the present invention to provide a display device that can display information by using the seorim.

In addition, another object of the present invention is to provide a display device that saves energy by preventing only a certain portion of the mirror from being fogged.

In addition, another object of the present invention is to provide a display device for blocking the external cold from the building exterior wall.

In order to achieve this technical problem, a display device using a seorim, the display panel unit 100, each heating element of the grid structure arranged in a mattress shape is patterned on the glass surface; A memory unit 200 for storing display data; And a control unit (300) for turning on or turning off a part of rows and columns of the heating element lattice structure corresponding to the display data so that the display data is displayed on the display panel unit. Characterized in that it comprises a.

On the other hand, in the display method using the Kim Seorim, (a) the control unit 300 of the display device receiving the display data from the memory unit 200; (b) turning on or turning off a part of a row and a column of each heating element lattice structure of the display panel unit 100 corresponding to the display data received by the controller; (c) the control unit detecting the temperature of each heating element turned on and off in the display panel unit or the humidity on the glass surface to output detection value data; (d) receiving, by the controller, the detection value data through the comparison module 340, comparing the temperature difference between the heating elements that are turned on and off, and outputting comparison data; And (e) the control unit receiving the comparison data of the comparison module 340, comparing the temperature difference between the heating elements turned on and off and a predetermined temperature difference value through the voltage adjusting module 350 to determine the temperature difference. Controlling a voltage supplied to each heating element; Characterized in that it comprises a.

According to the present invention as described above, the present invention has an effect that can display the information using the seorim.

In addition, the present invention has the effect of saving energy by preventing only fogging occurring in a specific portion of the mirror.

In addition, the present invention by implementing the building exterior wall display using a natural frost, there is an effect of blocking the external cold from the building exterior wall.

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, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. In addition, when it is determined that the detailed description of the known function and its configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

According to the present invention, a display apparatus using a seorim, comprising: a display panel unit (100) in which each heating element of a lattice structure arranged in a mattress shape is patterned on a glass surface; A memory unit 200 for storing display data; And a control unit 300 for turning on or turning off a part of rows and columns of the heating element lattice structure corresponding to the display data. Characterized in that it comprises a.

Preferably, the control unit 300 is a row driving module electrically connected to the display panel and receiving display data from the memory unit to generate a driving signal for turning on or off a part of a row of the heating element lattice structure. 310); And a column driving module 320 electrically connected to the display panel to generate driving signals for receiving display data from the memory unit to turn on or off a part of the columns of the heating element lattice structure. Characterized in that it comprises a.

In addition, preferably, the control unit 300, the sensing sensor module 330 for sensing the temperature of each heating element is turned on or turned off arranged in a row and column of the lattice structure to output the detection value data; A comparison module 340 for receiving the detected value data of the detection sensor module and comparing the temperature difference between the heating elements turned on and off and outputting comparison data; And receiving comparison data of the comparison module and comparing the temperature difference between the heating elements turned on and off and the predetermined temperature difference value, thereby setting the temperature difference between the heating elements turned on and off. When the difference is less than the difference value, a predetermined voltage is supplied to each of the heating elements arranged in the rows and columns of the lattice structure, and when it is equal to or more than the preset temperature difference value, the voltage supplied to each of the heating elements arranged in the rows and columns of the lattice structure is reduced to preset temperature. A voltage regulation module 350 controlling to maintain the difference value; It characterized in that it further comprises.

In addition, more preferably the detection sensor module 330, the temperature sensor for sensing the temperature of each heating element arranged in rows and columns of the lattice structure; Characterized in that it comprises a.

In addition, preferably, the display panel unit 100 may further include a heat shielding film disposed between the heating elements of the lattice structure arranged in the mattress shape.

Preferably, the display panel unit 100 is patterned on the building exterior wall display surface.

On the other hand, in the operating method of the display device using the Kim Seorim, (a) the control unit 300 receiving the display data from the memory unit 200; (b) turning on or turning off a part of a row and a column of each heating element lattice structure of the display panel unit 100 corresponding to the display data received by the controller; (c) the control unit detecting temperature of each of the heating elements turned on and off in the display panel unit and outputting detection value data; (d) receiving, by the control unit, the detection value data through the comparison module 340, comparing the temperature difference between the heating elements that are turned on and off, and outputting comparison data; And (e) the control unit receives the comparison data of the comparison module 340, compares the temperature difference between the heating elements turned on and off, and compares the predetermined temperature difference value to control the voltage supplied to each heating element. Doing; Characterized in that it comprises a.

Preferably, in the step (e), (e-1) the control unit receives the comparison data, and sets the temperature difference value and the predetermined temperature difference value between the heating elements turned on and off. Judging through 350; And (e-2) when the temperature difference value between the heating elements turned on and off is greater than or equal to a predetermined temperature difference value as a result of the comparison determination in the step (e-1), the controller controls the voltage control module through the voltage adjusting module. Reducing the voltage supplied to each of the heating elements to maintain a predetermined temperature difference value; Characterized in that it comprises a.

Preferably, in the step (e), (e-1 ') the control unit receives the comparison data and adjusts the temperature difference value and the preset temperature difference value between the heating elements turned on and off. Comparing through the module 350; And (e-2 ') when the temperature difference value between the heating elements turned on and off is less than or equal to a predetermined temperature difference value as a result of the comparison determination in the step (e-1'), the controller controls the voltage regulation module. Supplying a predetermined voltage to each of the heating elements through and performing the procedure to the step (c); characterized in that it further comprises.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

1 is a block diagram of a display apparatus using a Kim Seorim according to an embodiment of the present invention, Figure 2 is a perspective view of a display panel unit according to an embodiment of the present invention.

As shown in FIG. 1, the display apparatus using the Kim Seorim according to an embodiment of the present invention includes a display panel unit 100, a memory unit 200, and a controller 300.

First, the display panel unit 100 is formed by patterning each heating element of a lattice structure arranged in a mattress shape on a glass surface. Here, the heating element is a heating element that generates heat by an external power source, and is characterized by being a highly conductive heating element distributed in a plurality of lattice on the glass surface.

The display panel unit 100 according to another embodiment of the present invention is formed by combining each heating element of a lattice structure arranged in a mattress shape on the glass surface, and when the predetermined voltage is applied to the heating element, the heating element generates heat. Heat is transferred to the glass surface, causing frost to disappear. In this case, in order to prevent the heat of the heating element from being transferred to another adjacent heating element, a heating blocking layer (not shown) is installed between the plurality of heating elements distributed in the lattice.

In this case, the heating element may be a heating element in the form of a wire, a net, or a planar shape, and it is preferable that the heating element is a planar heating element thinly made of carbon fiber or the like. In the case of the heat shielding film, it is made of a material having low thermal conductivity or leaves a certain space to reduce the heat conduction between adjacent heating elements.

In addition, the memory unit 200 stores display data. Here, the display data according to the present exemplary embodiment is set to data such as text and image form.

In addition, the control unit 300 performs a function of controlling the display panel unit 100 and the memory unit 200, and as shown in FIG. 2, the heating element lattice structure to display the display data on the display panel unit 100. Some of the rows and columns of the switching on (1) or turn off (2) control.

The controller 300 includes a row driving module 310, a column driving module 320, a sensing sensor module 330, a comparison module 340, and a voltage adjusting module 350.

The row driving module 310 turns on or off a part of the row of each of the heating element lattice structures to display the display data of the memory unit 200 on the display panel unit 100.

The column driving module 320 may turn on or turn off a part of a column of each heating element lattice structure to display the display data of the memory unit 200 on the display panel unit 100.

The sensing sensor module 330 detects the temperature of each heating element turned on and off in the display panel unit 100 or the humidity on the glass surface and outputs detection value data. The sensing sensor module 330 includes a humidity sensor for sensing humidity on the glass surface, and a temperature sensor for sensing the temperature of each heating element arranged in rows and columns of a lattice structure.

The comparison module 340 receives the detection value data of the detection sensor module 330 and compares the temperature difference between the heating elements that are turned on and off and outputs the comparison data. Here, the comparison data according to the present embodiment is set as data on a temperature difference value comparing the temperature difference between the heating elements turned on (1) and turned off (2).

The voltage regulating module 350 receives the comparison data of the comparison module 340, compares the temperature difference between the heating elements turned on and off, and compares the predetermined temperature difference value, thereby turning each heating element turned on and off. When the temperature difference between them is equal to or less than the predetermined temperature difference value, a constant voltage is supplied to each heating element arranged in the rows and columns of the lattice structure, and when the temperature difference is more than the predetermined temperature difference value, it is supplied to each heating element arranged in the rows and columns of the lattice structure. By controlling the voltage to be reduced, the temperature difference between each of the heating elements that are turned on and turned off maintains a predetermined temperature difference value.

Here, the constant voltage of the voltage regulation module 250 according to an embodiment of the present invention is a voltage higher than the reduced voltage of step S26, the temperature difference between each of the heating elements turned on and off is a predetermined temperature difference When the value is lower than the value, the temperature difference value between each of the heating elements that are turned on and turned off by supplying a constant voltage to the heating element is a voltage for reaching the predetermined temperature difference value.

In addition, the preset temperature difference value of the voltage regulation module 350 according to the embodiment of the present invention sets a temperature difference value such that the turned-on heating element is turned off and does not affect the temperature.

According to the present invention, by detecting the humidity or temperature, which is an environmental factor of steaming generated on the glass surface, and controlling the supply voltage corresponding to the heating value of the lattice structure heating element according to the detected humidity or temperature display panel unit ( The amount of steaming generated in some rows and columns of 100) is controlled to display specific information.

On the other hand, the overall flow of the operation method (hereinafter, the display method) of the display apparatus using the Kim Seorim according to an embodiment of the present invention will be described with reference to FIG.

3 is an overall flowchart of a display method according to an exemplary embodiment of the present invention.

As shown in FIG. 3, the control unit 300 of the display apparatus using the Kim Seo-rim receives display data corresponding to text or an image from the memory unit 200 (S2).

Next, in order to display the received display data to the display panel unit 100, the controller 300 turns on or turns a portion of the row of each heating element lattice structure formed on the glass surface through the row driving module 310. Turn-off switching control (S4).

Herein, the control unit controls a part of a row of each of the heating element lattice structures of the display panel unit 100 corresponding to the display data to be turned on or turned off.

Next, in order to display the received display data to the display panel unit 100, the control unit 300 turns on or heats a part of the heat of the heating element lattice structure formed on the glass surface through the heat driving module 320. Turn off switching control (S6).

Here, the controller controls a part of the columns of the heating element lattice structure of the display panel unit 100 corresponding to the display data to be turned on or turned off.

Next, the control unit 300 detects the temperature of each heating element turned on and off in the display panel unit 100 through the sensing sensor module 330 and outputs detection value data (S8).

Next, the control unit 300 receives the detection value data of the sensing sensor module 330 and compares the temperature difference between the heating elements turned on and off through the comparison module 340 and outputs the comparison data (S10). ).

In addition, the controller 300 receives the comparison data of the comparison module 340, compares and supplies a temperature difference between the heating elements turned on and off and a predetermined temperature difference value through the voltage adjusting module 350. The voltage is controlled (S12).

4 is a detailed flowchart illustrating a process of controlling a voltage supplied to each heating element according to an embodiment of the present invention.

As shown in FIG. 4, the control unit 300 receives the comparison data of the comparison module 340 (S22), and sets the temperature difference between the heating elements turned on and off and a preset temperature difference value. The comparison is determined through 350 (S24).

As a result of the comparison of the step S24, when the temperature difference value between the heating elements turned on and off is higher than the predetermined temperature difference value, the controller reduces the voltage supplied to each heating element through the voltage adjusting module 250. Control to maintain the predetermined temperature difference value (S26).

As a result of the comparison of the step S24, when the temperature difference value between each of the heating elements that are turned on and off is lower than the predetermined temperature difference value, the controller supplies a constant voltage supplied to each heating element through the voltage adjusting module 250. (S28), the process proceeds to step S8 (S30).

Here, the constant voltage of the voltage regulation module 250 according to an embodiment of the present invention is a voltage higher than the reduced voltage of the step S26, the temperature difference between each of the heating elements turned on and off is a predetermined temperature difference When the value is lower than the value, the temperature difference value between each of the heating elements that are turned on and turned off by supplying a constant voltage to the heating element is a voltage for reaching the predetermined temperature difference value.

As described above and described with reference to a preferred embodiment for illustrating the technical idea of the present invention, the present invention is not limited to the configuration and operation as shown and described as described above, it is a deviation from the scope of the technical idea It will be understood by those skilled in the art that many modifications and variations can be made to the invention without departing from the scope of the invention. Accordingly, all such suitable changes and modifications and equivalents should be considered to be within the scope of the present invention.

1 is a block diagram of a display device using a Kim Seorim in accordance with an embodiment of the present invention.

2 is a perspective view of a display panel unit according to an embodiment of the present invention.

3 is an overall flowchart of a display method according to an embodiment of the present invention;

Figure 4 is a detailed flowchart of the process of controlling the voltage supplied to each heating element according to an embodiment of the present invention.

<Description of Drawing>

100: display panel unit 200: memory unit

300: control unit 310: row drive module

320: thermal drive module 330: detection sensor module

340: comparison module 350: voltage control module

Claims (9)

In a display device using a seorim, A display panel unit 100 in which each heating element of a lattice structure arranged in a mattress shape is patterned on a glass surface; A memory unit 200 for storing display data; And A controller (300) for turning on or turning off a part of the rows and columns of the heating element lattice structure corresponding to the display data; Display device using a kim seo rim, characterized in that it comprises a. The method of claim 1, The control unit 300, A row driving module 310 electrically connected to the display panel and configured to generate driving signals to receive display data from the memory unit and to turn on or off a part of the row of the heating element lattice structure; And A column driving module 320 electrically connected to the display panel to generate a driving signal for receiving display data from the memory unit to turn on or off a part of a column of the heating element lattice structure; Display device using a Kim Seorim characterized in that it comprises a. The method of claim 1, The control unit 300, A detection sensor module 330 arranged in rows and columns of the lattice structure to sense temperature of each heating element turned on or off and outputting detection value data; A comparison module 340 for receiving the detected value data of the detection sensor module and comparing the temperature difference between the heating elements turned on and off and outputting comparison data; And Receives the comparison data of the comparison module, compares the temperature difference between each of the heating elements turned on and off and the predetermined temperature difference value, the temperature difference between each of the heating elements turned on and turned off is a predetermined temperature difference When the value is less than the value, a predetermined voltage is supplied to each of the heating elements arranged in the rows and columns of the lattice structure, and when the value is higher than the preset temperature difference value, the voltage supplied to each of the heating elements arranged in the rows and columns of the lattice structure is reduced to reduce the predetermined temperature difference. A voltage regulation module 350 controlling to maintain a value; Display device using a Kim Seorim further comprising a. The method of claim 3, wherein The detection sensor module 330, A temperature sensor for sensing a temperature of each heating element arranged in rows and columns of the lattice structure; Display device using a Kim Seorim, characterized in that it comprises a. The method of claim 1, The display panel unit 100, The display device using the Kim seorim, characterized in that further comprising a heat shield is installed between the heating elements of the grid structure arranged in the mattress shape. The method of claim 1, The display panel unit 100, A display device using a Kim Seorim, characterized in that patterned on the building exterior wall display surface. In the operating method of the display device using the Kim Seorim according to claim 1, (a) the control unit 300 receiving display data from the memory unit 200; (b) turning on or turning off a part of a row and a column of each heating element lattice structure of the display panel unit 100 corresponding to the display data received by the controller; (c) the control unit detecting temperature of each of the heating elements turned on and off in the display panel unit and outputting detection value data; (d) receiving, by the control unit, the detection value data through the comparison module 340, comparing the temperature difference between the heating elements that are turned on and off, and outputting comparison data; And (e) The control unit receives the comparison data of the comparison module 340, compares the temperature difference between each of the heating elements turned on and off and the predetermined temperature difference value to control the voltage supplied to each heating element. Doing; Display method using a seorim, characterized in that it comprises a. The method of claim 7, wherein The step (e) is (e-1) receiving, by the controller, the comparison data and comparing the temperature difference value and the predetermined temperature difference value between the heating elements that are turned on and off through the voltage adjusting module 350; And (e-2) As a result of the comparison determination in the step (e-1), when the temperature difference value between each of the heating elements that are turned on and turned off is equal to or greater than a predetermined temperature difference value, the controller controls the voltage control module through the voltage adjusting module. Reducing the voltage supplied to each heating element to maintain a predetermined temperature difference value; Display method using a seorim, characterized in that it comprises a. The method of claim 7, wherein The step (e) is (e-1 ') the control unit receiving the comparison data and comparing the temperature difference value and the predetermined temperature difference value between each of the heating elements that are turned on and off through the voltage adjusting module 350; And (e-2 ') As a result of the comparison determination in the step (e-1'), when the temperature difference value between each of the heating elements turned on and off is less than or equal to a predetermined temperature difference value, the controller controls the voltage regulation module. And supplying a predetermined voltage to each of the heating elements and performing the procedure in the step (c).

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