KR102105080B1 - Power saving device for haeating and cooling wireless thermostat and haeating and cooling wireless thermostat having the same - Google Patents

Abstract

The present invention relates to a power saving device for a wireless temperature controller for heating and cooling. An object of the present invention is to save power by minimizing standby power consumption of a battery of a wireless temperature controller for heating and cooling. As an example, a power saving device for a wireless temperature controller for heating and cooling includes a power switch having a first terminal connected to a positive electrode of a battery; a relay connected to a second terminal of the power switch to open and close a contact according to whether the battery supplies power, the relay connecting between the first terminal and the second terminal of the power switch when the contact is connected; and a control unit that supplies the power of the battery to a load of the wireless temperature controller for heating and cooling connected between the second terminal of the power switch and a negative electrode of the battery by connecting the contact of the relay by receiving the power of the battery when the power switch is turned on, wherein the control unit turns off the operation of the relay when a predetermined time has elapsed so that the power of the battery supplied to the load is cut off.

Description

Power saving device for heating and cooling wireless thermostat and wireless heating and cooling thermostat including the same.

An embodiment of the present invention relates to a power saving device for a wireless temperature controller for heating and cooling and a wireless temperature controller for heating and cooling including the same.

In general, the air conditioning and heating device refers to a device that controls cooling and heating according to the season, such as a boiler, electric floor, cold and hot water heater, heater and electric fan. Most of these air conditioning units are equipped with a temperature controller.

A general temperature controller is used in a form that is embedded in a wall surface or installed at a specific location. Accordingly, there is a hassle that the user has to move to the corresponding installation location for temperature control.

To solve this inconvenience, a wireless temperature controller of a remote control type is used, but since the wireless temperature controller is supplied with power by installing a separate battery, the battery power is supplied by standby power when the device is not in use. Another unnecessary hassle that can be unnecessary and requires frequent battery replacement or charging.

Registered Patent Publication No. 10-153786 (Registration Date: November 26, 2015)

An embodiment of the present invention provides a power-saving device capable of saving power by minimizing standby power consumption of a battery of a wireless heating / cooling thermostat and a wireless heating / cooling thermostat including the same.

Power saving device for a wireless temperature controller for heating and cooling according to an embodiment of the present invention, the first terminal is a power switch connected to the positive electrode of the battery; A relay connected to the second terminal of the power switch, opening and closing a contact according to whether or not the battery is powered, and connecting between the first terminal and the second terminal of the power switch when connecting the contact; And when the power switch is turned on, the power of the battery is supplied to the load of the air conditioning wireless temperature controller connected between the second terminal of the power switch and the negative electrode of the battery by connecting the contact of the relay by receiving the power of the battery. It includes a control unit that controls to be supplied, and turns off the operation of the relay when a predetermined time has elapsed so that the power of the battery supplied to the load is cut off.

In addition, the power switch may include a tact switch that is switched only in the push state.

In addition, the relay, a contact switch including a first contact connected to the second terminal of the power switch, and a second contact connected between the positive terminal of the battery and the first terminal of the power switch; And a coil configured to operate the contact switch so that the first contact is connected to the second contact of the power switch, and the second contact is connected to the first contact by receiving power from the battery through control of the control unit. It can contain.

In addition, when the power switch is turned on, the control unit receives power from the battery and outputs a drive control signal for driving the relay through an output terminal, and the power saving device comprises a second terminal of the coil. A relay control switch connected between grounds and receiving the driving control signal to turn on so that current flows through the coil may be further included.

In addition, the control unit may control the power of the battery to be supplied to the load to be cut off by stopping the output of the driving control signal and turning off the relay when a predetermined time has elapsed.

A wireless temperature controller for heating and cooling according to another embodiment of the present invention includes a power switch having a first terminal connected to a positive electrode of a battery; A temperature control circuit unit connected between the second terminal of the power switch and the negative electrode of the battery and receiving power of the battery; A relay connected to the second terminal of the power switch, opening and closing a contact according to whether or not the battery is powered, and connecting between the first terminal and the second terminal of the power switch when connecting the contact; When the power switch is turned on, the battery is supplied with power to connect the relay contacts to control the temperature control circuit unit so that the battery is supplied with power, and when the preset time elapses, the relay is turned off. A control unit that controls the power of the battery supplied to the temperature control circuit unit to be cut off and is connected to the temperature control circuit unit; And a wireless communication unit connected to the control unit to wirelessly transmit temperature data to an external device.

According to the present invention, it is possible to provide a power-saving device capable of saving power by minimizing standby power consumption of a battery of a heating / cooling wireless temperature controller and a wireless heating / cooling temperature controller including the same.

1 is a circuit diagram showing the configuration of a power saving device for a wireless temperature controller for heating and cooling according to an embodiment of the present invention.
2 to 4 are circuit diagrams for explaining a driving method of a power saving device for an air conditioning wireless temperature controller according to an embodiment of the present invention.
5 is a circuit diagram showing the configuration of a wireless temperature controller for heating and cooling according to another embodiment of the present invention.

Terms used in the present specification will be briefly described, and the present invention will be described in detail.

The terminology used in the present invention was selected from the general terms that are currently widely used while considering the functions in the present invention, but this may vary according to the intention or precedent of a person skilled in the art or the appearance of new technologies. In addition, in certain cases, some terms are arbitrarily selected by the applicant, and in this case, their meanings will be described in detail in the description of the applicable invention. Therefore, the terms used in the present invention should be defined based on the meanings of the terms and the contents of the present invention, not simply the names of the terms.

When a part of the specification "includes" a certain component, this means that other components may be further included instead of excluding other components unless specifically stated otherwise. In addition, terms such as “... unit” and “module” described in the specification mean a unit that processes at least one function or operation, which may be implemented in hardware or software, or a combination of hardware and software. .

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art to which the present invention pertains may easily practice. However, the present invention can be implemented in many different forms and is not limited to the embodiments described herein. In addition, in order to clearly describe the present invention in the drawings, parts irrelevant to the description are omitted, and like reference numerals are assigned to similar parts throughout the specification.

1 is a circuit diagram showing the configuration of a power saving device for a wireless temperature controller for heating and cooling according to an embodiment of the present invention.

Referring to FIG. 1, the power saving device 100 according to an embodiment of the present invention is a device for saving power of a wireless temperature controller for heating and cooling, a power switch (SW1), a relay (RLY), and a control unit (MCU). And a relay control switch TR.

The power switch SW1 includes a first terminal and a second terminal, of which the first terminal is connected to the positive electrode of the battery BAT, and the second terminal is connected to the first contact c of the relay RLY. Can be connected.

The power switch SW1 may include a tact switch that is switched only in the push state. That is, the tact switch maintains a turn-on state only when the user presses it, and may be turned off when the switch is released.

The relay RLY may open and close the contact according to whether or not the battery BAT is powered. To this end, the relay RLY may include a contact switch SW2 and a coil Co.

The contact switch SW2 may include a first contact c and a second contact a, and the first contact c is between the positive electrode of the battery BAT and the first terminal of the power switch SW1. It may be connected to, the second contact (a) may be connected to the second terminal of the power switch (SW1). The second contact (a) side may be connected to the first terminal of the coil (Co). In addition to the contact switch SW2, a movable iron plate and a spring for switching the first contact a may be additionally configured.

The coil Co has first and second terminals, the first terminal is connected to the second terminal of the power switch SW1, and the second terminal is connected to the relay control switch TR.

Here, the relay control switch (TR) is connected between the second terminal of the coil (Co) and the ground, and receives the drive control signal of the control unit (MCU) through the control terminal to the battery (BAT) through the coil (Co) ) Can be turned on so that the current by the power supply flows. The relay control switch TR may include a transistor, but in this embodiment, various switch elements that are switched on / off according to a control signal as well as a transistor may be applied.

As described above, the coil Co is supplied with the power of the battery BAT through the control of the control unit MCU, so that the second contact a of the contact switch SW2 is connected to the first contact c Operate (SW2), and accordingly, the positive terminal of the battery (BAT), the relay (RLY) and the second terminal of the power switch (SW1) are connected, and the second terminal of the power switch (SW1) and the battery (BAT) A load (Road), which is a circuit configuration for the operation of the air conditioning thermostat, is connected between the cathodes, so that power can be supplied to the load (Road).

The control unit (MCU) is connected to the first and second contacts (c, a) of the relay (RLY) when the power switch (SW1) is turned on, the second terminal of the power switch (SW1) and the battery (BAT) Controls to supply the power of the battery (BAT) to the load (Road) connected between the cathodes, and when a certain time has elapsed in this state, the operation of the relay (RLY) is turned off to cut off the power supplied to the load (Road). Can be controlled.

When the power switch SW1 is turned on, the control unit MCU receives power from the battery BAT and outputs a drive control signal CTL for driving the relay RLY through the output terminal OP. . However, when a certain time has elapsed as described above, the output of the drive control signal CTL is stopped to turn off the relay RLY. In this case, since the power switch SW1 is also open, eventually, the load is The power of the battery BAT transferred to the battery may be cut off.

In addition, as shown in FIG. 1, when the power switch SW1 is turned on, a capacitor CP connected in parallel with the battery BAT, and a plurality of zener diodes DP1 and DP2 respectively connected in parallel with the capacitor may be configured. .

2 to 4 are circuit diagrams for explaining the driving method of the power saving device for the air conditioning wireless temperature controller according to an embodiment of the present invention.

First, as shown in FIG. 1, in the state in which the power switch SW1 is not pressed, power is not supplied to the control unit MCU and the relay RLY, so that no operation is performed, but power is as shown in FIG. 2. When the switch SW1 is pressed, power of the battery BAT may be supplied to the control unit MCU through the power switch SW1.

Accordingly, when the control unit MCU outputs the driving control signal CTL through the output terminal OP, the relay control switch TR to which the driving control signal CTL is applied is turned on, Current flows through the coil Co of the relay RLY. In this case, the second contact (a) is connected to the first contact (c), so that the battery (BAT) is connected to the load (Road) through the relay (RLY) to supply power to the load (Road).

As described above, the power switch SW1 is turned off as soon as the user releases the button with the tact switch, but as long as the control unit MCU applies the drive control signal CTL as shown in FIG. 3, the relay RLY ) Is maintained, so that the battery (BAT) through the bypass path connected to the second terminal (a) of the relay (RLY) and the second terminal of the power switch (SW1) is not a path through the power switch (SW1) With the load connected to the load, power can be continuously supplied.

However, as shown in Figure 4, the control unit (MCU) is configured to stop output when a certain period of time has elapsed, rather than continuously outputting the driving control signal (CTL). CTL) does not output, the operation of the relay RLY may be turned off. In this case, the above-described bypass path is also disconnected, so that the power supply of the battery BAT can be cut off by disconnecting the connection between the battery BAT and the load.

Subsequently, if the user wants to attempt a temperature control operation with a wireless temperature controller, it is possible after pressing the power switch SW1, and after a certain time, the standby power of the battery BAT supplied to the load is cut off. Can be.

5 is a circuit diagram showing the configuration of a wireless temperature controller for heating and cooling according to another embodiment of the present invention.

Air conditioning wireless temperature controller 200 according to another embodiment of the present invention is implemented in the form of a remote control, the first terminal is connected to the positive electrode of the battery (BAT) power switch (SW1), the second terminal of the power switch (SW1) And a negative electrode of the battery BAT, connected to a temperature control circuit unit (Circuit) that receives power from the battery BAT, and a second terminal of the power switch SW1, whether or not the battery BAT is supplied with power. Open and close the contact according to the contact, and when connecting the contact, the relay (RLY) connects between the first terminal and the second terminal of the power switch (SW1), and when the power switch (SW1) is turned on, it receives power from the battery (BAT). Connect the contacts of the relay (RLY) to control the power of the battery (BAT) to be supplied to the temperature control circuit unit (Circuit), and turn off the operation of the relay (RLY) when a preset time elapses, thereby controlling the temperature control circuit unit (Circuit) Controls to cut off the power of the battery (BAT) supplied to) A control unit (MCU) connected to a high temperature control circuit unit (Circuit) and a wireless communication unit 10 connected to the control unit (MCU) to wirelessly transmit temperature data to an external device (a cooling device or a heating device) can do.

Power switch (SW1), relay (RLY), control unit (MCU) and relay control switch (TR) of another embodiment of the present invention is a power switch (SW1), relay (RLY), control unit (MCU) and Since it is the same as the configuration of the relay control switch TR, detailed configuration thereof will be omitted.

However, there is a difference between the temperature control circuit unit (Circuit) and the wireless communication unit 10, but since this configuration is a well-known common configuration applied to a general wireless temperature controller (remote control type), a description thereof will also be omitted.

What has been described above is only one embodiment for implementing a power-saving device for a heating / cooling wireless temperature controller according to the present invention and a heating / cooling wireless temperature controller including the same, and the present invention is not limited to the above embodiment, and the following patents As claimed in the claims, any person skilled in the art to which the present invention pertains without departing from the gist of the present invention will have the technical spirit of the present invention to the extent that various changes can be made.

100: power saver
SW1: Power switch
RLY: Relay
SW2: contact switch
c: first contact
a: second contact
Co: coil
MCU: Control unit
OP: Output terminal
TR: Relay control switch
Road: Load (circuit for temperature control)
10: wireless communication unit
200: wireless heating and cooling thermostat

Claims (6)

It relates to a power-saving device for a heating and cooling wireless thermostat,
A power switch having a first terminal connected to the positive electrode of the battery;
A relay connected to the second terminal of the power switch, opening and closing a contact according to whether or not the battery is powered, and connecting between the first terminal and the second terminal of the power switch when connecting the contact; And
When the power switch is turned on, the power of the battery is supplied to a load of the air conditioning wireless temperature controller connected between the second terminal of the power switch and the negative electrode of the battery by connecting the contact of the relay by receiving the power of the battery. It includes a control unit that controls so as to control, and turns off the operation of the relay when a predetermined time has elapsed so that the power of the battery supplied to the load is cut off,
The power switch includes a tact switch that is switched only in the push state,
The relay,
A contact switch including a first contact connected to the second terminal of the power switch, and a second contact connected between the positive terminal of the battery and the first terminal of the power switch; And
The first terminal is connected to the second terminal of the power switch, and receives the power of the battery through control of the control unit, and includes a coil that operates the contact switch so that the second contact is connected to the first contact. and,
When the power switch is turned on, the control unit receives power from the battery and outputs a drive control signal for driving the relay through an output terminal.
The power saving device further includes a relay control switch that is connected between the second terminal of the coil and ground, and is turned on to receive the driving control signal and flow current through the coil.
The load is connected between the second terminal of the power switch and the negative electrode of the battery,
The control unit,
The power saving device for a heating and cooling wireless temperature controller, characterized in that, when a predetermined time has elapsed, the output of the driving control signal is stopped to turn off the operation of the relay so that the power of the battery supplied to the load is cut off.
delete delete delete delete A wireless temperature controller for heating and cooling equipped with a power saving function,
A power switch having a first terminal connected to the positive electrode of the battery;
A temperature control circuit unit connected between the second terminal of the power switch and the negative electrode of the battery and receiving power of the battery;
A relay connected to the second terminal of the power switch, opening and closing a contact according to whether or not the battery is powered, and connecting between the first terminal and the second terminal of the power switch when connecting the contact;
When the power switch is turned on, the battery is supplied with power to connect the relay contacts, so that the battery is supplied to the temperature control circuit unit, and the relay is turned off when a preset time elapses. A control unit that controls the power of the battery supplied to the temperature control circuit unit to be cut off and is connected to the temperature control circuit unit; And
A wireless communication unit connected to the control unit to wirelessly transmit temperature data to an external device,
The power switch includes a tact switch that is switched only in the push state,
The relay,
A contact switch including a first contact connected to the second terminal of the power switch, and a second contact connected between the positive terminal of the battery and the first terminal of the power switch; And
The first terminal is connected to the second terminal of the power switch, and receives the power of the battery through the control of the control unit, and includes a coil that operates the contact switch so that the second contact is connected to the first contact. and,
When the power switch is turned on, the control unit receives power from the battery and outputs a drive control signal for driving the relay through an output terminal.
The air conditioning wireless temperature controller further includes a relay control switch that is connected between the second terminal of the coil and ground, and is turned on to receive the driving control signal and flow current through the coil.
The load of the air conditioning wireless temperature controller is connected between the second terminal of the power switch and the negative electrode of the battery,
The control unit,
When the preset time has elapsed, the output of the driving control signal is stopped to turn off the operation of the relay to control the power of the battery to be supplied to the load to be cut off. .

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