KR20140049672A - A control system and heating structure - Google Patents

Abstract

The present invention relates to a structure of a heating film used for heating a large floor and its control system. The heating film of the present invention is to supply electricity to both ends of the carbon to heat using the heat generated from the carbon, the conventional heating film is composed of one line of copper foil busbars at each end of the carbon, 220V power is used to supply the copper foil busbars at both ends, and there is a problem in that the temperature controllers must be mounted in order to control a certain area of the wide area.
In addition, the control as described above has a problem that it is difficult to precisely control the temperature of a wide area because the temperature sensor is attached to only one place and electricity is cut off according to the state of the temperature sensor.
In order to solve the above problems, the heating film of the present invention is provided with two lines of copper foil busbars on both ends of carbon, and one line is supplied with main electric R and S, and the heating film divided into predetermined areas is It relates to the structure of a heating film configured to switch main electricity using another line and MCU board.
The present invention also relates to a heating film control system configured to control a heating film by using a computer or internet communication to supply and cut off electricity by connecting an MCU board to the divided predetermined station.

Description

Heating Film Structure and Control System

The present invention relates to a structure and a control system of a heating film. The structure of a heating film having an effect of shortening the installation time in the field by improving the structure of the heating film used when heating a large area floor and its manufacturing method. It's about.

In addition, the heating film can be saved by reducing the heating cost by dividing the heating film installed in a large area at regular intervals and controlling only the area divided by the regular interval by using the MCU board (hereinafter referred to as MCU board) with a temperature sensor and a microcontroller. A film control system.

The present invention relates to a structure and a control method of a heating film used for heating a large area of the floor, consisting of a copper foil booth bar of the heating film used for electricity supply to reduce the time and temperature control of the heating film during the installation site The purpose of the present invention is to provide a structure and a manufacturing method of a heating film configured to control by classifying each area.

In addition, by dividing the heating film installed on the floor of a large area into a certain area and configured to control the area individually by the MCU board, the user can save electricity bills by supplying electricity to a specific area and heating it. The purpose is to provide a film control system.

The present invention relates to a structure, a manufacturing method, and a control system of a heating film used for heating by installing on a large floor in a room.

In general, a heating film is installed on a floor of a large area for heating the room, and electricity is supplied to the heating film. In general, a heating film is installed based on a room, and the heating film installed in the room is installed and used to independently control using one temperature controller.

The installation method as described above has a problem in that a large amount of electricity can be generated since only one person is required to supply electricity to the heating film of the entire area by using only one temperature controller.

In addition, there is a problem that the user can not operate the temperature controller from the outside because the user has to adjust the temperature manually.

In order to solve the above problems, the copper foil bus bar constituted at both ends of the heating film is configured in two, one line of copper foil bus bar supplies power, and the other one line part of the copper foil bus bar at the part desired by the user. The copper foil booth of the heating film is composed of double so that the heating film can be partially operated by supplying electricity to the heating film in a certain area by connecting the removed copper foil booth and the sub-MCU board.

In addition, each sub-MCU board used to supply electricity to a certain area of the heating film has its own unique ID, is connected to the main MCU board and the communication line, respectively, and the state information of each sub-MCU board The MCU board is programmed to collect and manage.

The main MCU board is connected to a computer via a communication line, and is configured to control a sub-MCU board designated by a user by a program of the computer.

The present invention is installed by using a heating film consisting of a double floor of the room of a large area, and by supplying electricity by blowing the heating film by a predetermined area to select the area to be used and the area not to be used by the user to supply electricity. As a result, it is possible to save electricity costs without using unnecessary areas.

In addition, by controlling the sub-MCU board in each of the predetermined area can be further subdivided to control the heating film, the sub-MCU board is connected to the main MCU walkway and the communication line, the main MCU board is a computer Or it has an effect that can be controlled from the outside using the Internet communication.

1 is a perspective view showing a structure and a control method of a heating film according to individual heating of the present invention
Figure 2 is a perspective view showing an individual heating structure of a certain area according to the present invention
Figure 3 is a perspective view showing the structure of a heating film according to the present invention
4 is a perspective view showing a heating film and a temperature controller installed in a conventional room
5 is a perspective view showing the structure of a conventional heating film

Referring to the structure and control system of the heating film according to the present invention based on the drawings as follows.

1 is a perspective view illustrating a structure and a control method of a heating film according to individual heating according to the present invention. The main MCU board 100 is connected to the sub-MCU board 120 by a communication line 110. Although not shown in the figure, the main MCU board 100 is configured to be externally controlled through a computer or the Internet (hereinafter referred to as a computer).

The sub-MCU board 120 is installed one by one in a certain area (VIEW A).

2 is a perspective view showing an individual heating structure of a predetermined area according to the present invention, the sub-MCU board 120 is connected to the temperature sensor 230 through a temperature sensor cable 231 and checks the temperature in real time through a relay. It will switch.

The sub-MCU board 120 has a built-in memory, and when the temperature set by the computer program is transmitted, the supply and shut-off of electricity is automatically performed by the temperature set value.

The power S copper bus bar connection point 201 and the individual power S1 connection point 211 supply and cut off electricity of the power S copper bus bar 200 through a relay configured in the sub-MCU board 120.

If the user cuts the individual power S1 copper foil busbar 210 by the desired area, it is possible to supply and cut off electricity only to the carbon 250 of the area.

3 is a perspective view showing the structure of a heating film according to the present invention.

There is a line of power S copper foil busbars 200 at the upper end, the individual power S1 copper bus bar 210 is configured directly below. The power S copper bus bar 200 line is not connected to the carbon 250, only the main of electricity is connected.

The individual power S1 copper bus bar 210 is connected to carbon and the electricity of the power S copper bus bar 200 is supplied through the sub-MCU board 120.

In addition, between the carbon 250 and the carbon 250 there is a narrow carbon separation zone 240 and a wide spaced heating film cutting unit 260, the heating film cutting unit 260 can be cut by the user's desired length. have.

Figure 4 is a perspective view showing a heating film and a temperature controller installed in a conventional room for comparison with the heating film of the present invention.

Conventional heating film is similar to the structure of the heating film of the present invention will be described by bending the sign and name to distinguish it.

Both ends of the conventional heating film is composed of a conventional power S copper foil bus bar 310 and a conventional power R copper foil bus bar 311, each one line, and the conventional power S copper foil bus bar 310. When electricity of the conventional power S 350 and the conventional power R 360 is supplied to the conventional power R copper foil bus bar 311, heat is generated in the conventional carbon 320 to be heated.

The conventional temperature sensor 340 transmits a state value to the conventional temperature controller 300 through the conventional temperature sensor cable 341.

5 is a perspective view showing the structure of a conventional heating film.

Unlike the structure of the heating film of the present invention shown in FIG. 3, a conventional power S copper foil bus bar 310 and a conventional power R copper bus bar 311 are configured at both ends.

The conventional carbon separation region 321 and the conventional heating film cutout 330 are formed between the conventional carbon 320 and the conventional carbon 320.

As described above, the structure of the heating film of the present invention is the biggest difference that the copper foil bus bar is composed of two lines, and has the effect of significantly shortening the construction time during the site construction.

100 Main MCU Board
110 communication lines
120 Sub MCU Board
130 NEW Heating Film
200 power S copper foil booth
201 Power S Copper Busbar Connection Point
210 Individual Power S1 Copper Booth Bar
211 Individual Power S1 Connection Points
220 Electric Power Copper Booth Bar
230 temperature sensor
231 temperature sensor cable
240 Carbon Division
250 carbon
260 heating film cutout
300 conventional thermostat
310 conventional power S copper foil booth
311 Conventional Power R Copper Busbar
320 conventional carbon
321 Conventional Carbon Classification
330 Conventional Heating Film Cutout
340 conventional temperature sensor
341 Conventional temperature sensor cable
350 power S
360 power

Claims (2)

In the heating film used for heating on a large floor,
There are a plurality of carbons in the horizontal direction,
A heating film having a structure of a heating film in which two or more lines of copper foil busbars are formed at both ends of the carbon. 3. The method of claim 1,
Divide the heating film installed in a large area into a certain area,
Configure the sub MCU board on the heating film divided into the predetermined area,
The sub MCU board is connected to the main MCU board by a communication line,
The main MCU board and sub MCU board each have a unique ID,
Heating film control system configured to control each MCU board using a computer or Internet communication.

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