KR100433478B1 - Illuminance control method for cable remote controller of a boiler - Google Patents

Abstract

The present invention relates to a method for adjusting the brightness of the display means constituting the boiler remote controller, the auxiliary control means 21 determines the mode state input from the function setting means 22 to the display means 25 Since the voltage is controlled by the set voltage (Vmin, Vs) for each mode, it is possible to reduce the power consumption of the display means 25 without using a separate illuminance detection means 22.

Description

Brightness control method for boiler remote controller {Illuminance control method for cable remote controller of a boiler}

The present invention relates to a method for adjusting the brightness of the display means constituting the boiler remote controller, the display means brightness control of the boiler remote controller is designed to reduce the power consumption by the display means of the remote controller without increasing the number of parts It is about a method.

As is well known, the main body of the boiler, in which various components such as a heat exchanger and a main control means (see FIG. 1) are installed, is installed in a boiler room or a veranda or balcony, which are separately provided when the building is designed. In order to control the boiler, it is inconvenient to operate the control panel of the boiler body directly after the user moves to the boiler installation place every time.

In order to solve this problem, in recent years, as shown in FIG. 1, the remote controller 20 is connected to the main control means 10 of the boiler body, and the remote controller 20 is indoors of a building (a space for living). Installed in, so that the user can control the operation of the boiler through the remote controller (20).

Referring to FIG. 1, the general remote controller 20 is electrically connected to the main control means 10 to output a control signal to the main control means 10 or to input an output signal from the main control means 10. Auxiliary control means 21 for receiving and transmitting it to the display means 25; Function setting means (22) composed of function keys for selecting modes such as indoor, sleeping, going out, hot water supply (or bathing) of the auxiliary control means 21; Temperature setting means 23 for selecting a boiler operating temperature of the auxiliary control means 21; A temperature sensing means 24 which detects the indoor temperature and outputs it to the auxiliary control means 21; By the control signal from the auxiliary control means 21 forms a structure consisting of the display means 25 for visually outputting the operating state of the boiler, the room temperature, the selection mode and the like to the outside. Further, if necessary, as shown in Fig. 1, the boiler is reserved and / or reserved, or the reserve mode is switched, and the target heating temperature of the heating water filled in the heat exchanger (not shown) is reset. The setting means 26 may be connected to the auxiliary control means 21.

Referring to the operation of the boiler according to the operation of the remote controller 20 schematically, first, in a state where the target heating temperature (Tws) of the heating water filled in the heat exchanger is set, the function setting means 22 is indoor (normal operation). Mode, the auxiliary control means 21 determines this, and then the indoor target heating temperature Tas input from the temperature setting means 23 and the indoor current temperature input from the temperature sensing means 24. In comparison with each other, when the indoor current temperature Tax is lower than the indoor target heating temperature Ta, the boiler operation control signal is output to the main control means 10, and the indoor current temperature Tax is the indoor target heating. When the temperature is equal to or greater than Ta, the boiler stop control signal is output to the main control means 10.

When the boiler start control signal of the auxiliary control means 21 is input to the main control means 10, the main control means 10, the heating in the heat exchanger input from a separate temperature sensing means (not shown; installed in the heat exchanger) The water current temperature Twx is compared with the heating water target heating temperature Tws, and when the heating water current temperature Twx is equal to or higher than the heating water target heating temperature Tws, the burner (not shown) is brought into a fire state. While maintaining the circulation pump (not shown; installed in the heating line), the hot water of the heat exchanger is circulated along the heating line by the circulation pump. On the other hand, when the heating water present temperature Twx is lower than the heating water target heating temperature Tws, the heating water present temperature Twx is converted into the circulation pump operating temperature {Twp; Normally set to 10 ° lower than the heating water target heating temperature (Tws)}, when the heating water current temperature (Twx) is lower than the circulation pump operating temperature (Twp), the circulation pump is stopped. If the burner is ignited, but the heating water current temperature (Twx) is higher than the circulation pump operating temperature (Twp), the circulation pump is operated while the burner is ignited, and the heating water current temperature (Twx) is the heating water target heating temperature ( If Tws) is over, the circulation pump is operated with burner extinguished. On the other hand, when the heating water current temperature Twx is equal to or higher than the circulation pump operating temperature Twp, the circulation pump is operated while the burner is ignited, and the heating water current temperature Twx is the heating water target heating temperature Tws. If abnormal, the circulation pump is operated with the burner extinguished.

Thereafter, when the indoor current temperature Tax is equal to or higher than the indoor target heating temperature Ta, the circulating pump is stopped to stop the operation of the boiler.

On the other hand, when the output signal of the function setting means 22 and the temperature sensing means 24 is input to the auxiliary control means 21, the display means 25 is operated by the auxiliary control means 21, the mode currently set When the current room temperature is visually displayed and an output signal from the main control means 10 is input to the auxiliary control means 21, the display means 25 is operated by the auxiliary control means 21, The operating status of the boiler is visually displayed.

Therefore, the user can recognize the operating state of the boiler through the display means 25.

When the function setting means 22 is switched from the indoor mode to the sleep mode, the outing mode, the hot water mode, or the like, the auxiliary control means 21 recognizes this and controls the operation of the boiler according to the control conditions for each mode.

However, in the related art, a method of controlling the voltage of the current supplied to the display means 25 according to the situation cannot be devised so that a current having a constant voltage Vx is always supplied to the display means 25, so that the remote controller 20 The power consumption amount by the display means 25 of () is unnecessarily increased, resulting in a problem that the power consumption of the boiler is increased.

In order to solve this problem, conventionally, as shown in FIG. 2, the illuminance detecting means 27 is provided with the remote controller 20, and the illuminance detecting means 27 is connected to the auxiliary control means 21 to display the display means. A method has been proposed in which the voltage Vx to (25) is automatically controlled in correspondence with the indoor illuminance.

However, this method is such that the brightness of the display means 25 is correspondingly high when the indoor illuminance is large, and the brightness of the display means 25 is correspondingly low when the indoor illuminance is small, When the room is kept dark, such as when going to bed or at night, the power consumption by the display means 25 is reduced, but when the day goes out, it is not possible to expect a reduction in power consumption, and moreover, indoor lighting is no longer necessary. In the bright case, the power consumption by the display means 25 is increased.

In addition, since such a prior art requires the illuminance detecting means 27, there is a problem that productivity is lowered and product cost is increased due to an increase in the number of parts.

The present invention has been invented to solve the above problems, and provides a display means brightness control method of the boiler remote controller to reduce the power consumption by the display means of the remote controller without increasing the number of parts. There is a purpose.

1 is a schematic diagram illustrating a general remote controller;

Figure 2 is a schematic configuration diagram showing a remote controller to which the display means brightness adjustment method according to the prior art is applied,

3 is a flowchart illustrating a method of adjusting brightness of display means according to the present invention.

-Explanation of terms for the main parts of the accompanying drawings-

10; Main control means; Remote controller,

21; Auxiliary control means; Function setting means,

23; Temperature setting means; Temperature Sensing Means,

25; Display means, 26; Setting means,

27; Illuminance detection means.

The present invention for achieving the above object is a method characterized in that the auxiliary control means determines the mode state input from the function setting means, and controls the voltage to the display means to the set voltage for each mode. .

Figure 3 is a flow chart showing an example of the display means brightness adjustment method according to the present invention, the remote controller to which the display means brightness adjustment method according to the present invention is configured to have the same configuration as the general remote controller shown in FIG. Hereinafter, the present invention will be described in detail with reference to FIGS. 1 and 3.

3, the display means brightness adjustment method according to the present invention, when the function setting means 22 is not in the outing mode or sleep mode, the voltage (Vx) to the display means 25 is converted to the standard set voltage (Vs). On the other hand, when the function setting means 22 is in the outing mode or in the sleep mode, the voltage Vx to the display means 25 is controlled to be the minimum setting voltage Vmin lower than the standard setting voltage Vs. It is.

According to the present invention, after the auxiliary control means 21 determines the mode state of the function setting means 22, the voltage Vx to the display means 25 is set to the set voltages Vmin and Vs corresponding to the setting mode. In this case, the conventional illuminance detecting means 27 (see Fig. 2) is unnecessary.

In addition, when the function setting means 22 is switched to the sleep mode or the outing mode regardless of the indoor illuminance, the voltage Vx to the display means 25 is maintained at the minimum set voltage Vmin. Unnecessary power consumption is suppressed as much as possible.

In the case of this embodiment, when the function setting means 22 is in the sleep mode or the go out mode, the voltage Vx to the display means 25 is maintained at the minimum set voltage Vmin, and is not in the sleep mode or the go out mode. In this case, the voltage Vx to the display means 25 is maintained at the standard set voltage Vs. However, if necessary, the voltage Vx to the display means 25 may be set differently for each mode. Of course.

According to the present invention as described above, the auxiliary control means determines the mode state input from the function setting means, and controls the voltage to the display means by the set voltage for each mode, without using a separate illumination detection means Therefore, the power consumption of the display means can be reduced, thereby reducing the product cost.

In addition, according to the present invention, since the voltage to the display means is maintained at the set voltage for each mode regardless of the indoor illuminance, the power consumption by the display means is effectively reduced.

The present invention is not limited to the embodiment as described above, and of course, various modifications can be made without departing from the scope of the following claims.

Claims (2)

An auxiliary control means electrically connected to the main control means 10 to output a control signal to the main control means 10 or to receive an output signal from the main control means 10 and to transmit it to the display means 25; 21); Function setting means (22) composed of function keys for selecting modes such as indoor, sleeping, going out, hot water supply (or bathing) of the auxiliary control means (21); Temperature setting means (23) for selecting a boiler operating temperature of the auxiliary control means (21); A temperature sensing means 24 for detecting the indoor temperature and outputting the same to the auxiliary control means 21; In the remote controller of the boiler comprising a display means 25 for visually outputting the operating state, room temperature, selection mode, etc. of the boiler to the outside by the control signal from the auxiliary control means 21, When the function setting means 22 is in the outing mode or in the sleep mode, the voltage Vx to the display means 25 is controlled to the minimum setting voltage Vmin lower than the standard setting voltage Vs. When the function setting means 22 is not in the outing mode or in the sleep mode, the remote controller of the boiler, characterized in that to control the voltage (Vx) to the display means 25 to the standard set voltage (Vs). Display means of brightness control method. delete