KR102367297B1 - Electric device with standby power cufoff function - Google Patents

Abstract

The present invention relates to an electric device having a standby power blocking function that prevents standby power consumption by enabling conversion between a standby state and a power off state using a single power switch, and operates by an external force to supply commercial power and A first commercial power supply path comprising a power switch for shutting off, a first rectifier configured to receive the commercial power through the power switch and generate a first AC power, and receive the first AC power to receive the first AC A first AC signal unit for generating a signal; A second commercial power supply path comprising a rectifying unit, and receiving the first AC power or second AC power, a first DC power for driving the control unit or a second DC power for performing a unique function of an electric device, respectively A DC power supply unit to generate a unique function, a unique function unit for performing a unique function of the electric device, and a unique function by controlling the unique function unit to perform a unique function, and to apply the first DC power or the second DC power from the DC power supply unit After receiving, when receiving the first AC signal from the first AC signal unit, the control unit is configured to control the operation and cut-off state of the relay unit according to the current power state.

Description

ELECTRIC DEVICE WITH STANDBY POWER CUFOFF FUNCTION

The present invention relates to an electrical device, and more particularly, to an electrical device having a standby power blocking function that prevents standby power consumption by enabling conversion between a standby state and a power cut-off state using a single power switch.

In general, in the case of electric devices such as TVs, computers, electric cookers, facsimiles, etc., the plugs of the electric devices are used for a long period of time in a state of being plugged into an outlet or a multi-tap, and in particular, even when not in use for a long time, they are left plugged into an outlet or a multi-tap. As a result, electric current is supplied to the electric device, resulting in unnecessary power consumption. Such standby power consumption can be prevented by unplugging the power plug from the outlet or turning off the multi-tap when the electric device is not in use. However, it is very cumbersome to plug in or unplug an electrical device from an electrical outlet every time it is used.

In order to reduce this inconvenience, the user operates a specific button of the electric device (for example, input the cancel button for 3 seconds) or when the preset power saving time elapses, it is converted to a power saving mode to minimize standby power (about 0.8W). Although the power saving mode is operated, the microcomputer has to wait while minimizing power consumption (entering the microcomputer's sleep mode) in order to wake up electrical devices by user input during power saving mode, so it was difficult to completely cut off standby power (0W).

The present invention enables conversion between a standby state and a power cut-off state (a state where standby power is 0W) by operating a single power switch without manipulating the plug of the electric device, and the commercial power supply to the electric device is cut off due to a power failure An object of the present invention is to provide an electric device having a standby power cut-off function that allows a previously performed unique function to be performed again when commercial power is re-supplied.

An electric device having a standby power cutoff function according to the present invention includes a power switch for supplying and blocking commercial power by operating by an external force, and a first power supply by receiving the commercial power through the power switch and rectifying the commercial power by full wave A first commercial power supply path comprising a first rectifying unit for generating A second commercial power supply path comprising a relay unit for supplying and cutting off power, and a second rectifying unit receiving the commercial power through the relay unit and generating second power by rectifying the commercial power by radio wave; DC receiving the first power from the first rectifying unit or the second power from the second rectifying unit to generate a first DC power for driving the control unit or a second DC power for performing a unique function of the electric device, respectively A power supply unit, a unique function unit performing a unique function of the electric device, and performing a unique function by controlling the unique function unit, after receiving the first DC power or the second DC power from the DC power supply unit, When the first AC signal from the first AC signal unit is received, the control unit is configured to control the operation of the relay unit and a state in which the relay unit is switched off according to a current power state.

Preferably, the electric device includes a second AC signal unit that receives the commercial power supply through the relay unit, generates a second AC signal, and applies the second AC signal to the control unit.

In addition, it is preferable that the control unit controls the operation of the relay unit and the blocking state when the first AC signal is normal.

In addition, when the power state is a standby state, it is preferable that the control unit applies a cutoff signal to the relay unit in response to the first AC signal so that the power cutoff state proceeds.

In addition, when the power state is a power cut off state, the control unit may apply an operation signal to the relay unit so that the DC power supply unit supplies the second DC power.

In addition, even if the normal first AC signal is received while performing the unique function, the control unit may continue to maintain the operation state of the relay unit to perform the unique function.

The present invention has the effect of preventing unnecessary power consumption by enabling the conversion from the standby state to the power cut-off state (the state in which the standby power is 0W) by manipulating the power switch of the electric appliance without detaching the plug of the electric appliance.

In addition, the present invention has the effect of improving the convenience of the user by enabling the conversion between the standby state and the power cut-off state using a single power switch.

In addition, the present invention enables the original function that was previously performed to be performed again when the commercial power is re-supplied even when the commercial power supply to the electric device is cut off due to a power failure, so that when the commercial power is re-supplied, the unique function before the power failure is performed This has the effect of eliminating the inconvenience of the user having to re-enter the control input for this purpose.

In addition, the present invention does not change the power state, even if there is a user input of the power switch while performing the unique function, continuously performs the currently performed unique function and guides the cancellation procedure of the unique function, so that the user accidentally switches the power switch is activated, it has the effect of preventing the execution of the unique function being performed from being canceled.

1 is a block diagram of an electric device having a standby power cutoff function according to the present invention.
FIG. 2 is a flowchart illustrating power control of the electric device of FIG. 1 .

Hereinafter, the present invention will be described in detail through examples and drawings.

1 is a block diagram of an electric device having a standby power cut-off function according to the present invention.

The electric device is connected in series between the commercial power connection part 1 (eg, a plug, etc.) receiving commercial power, and the commercial power supply connection part 1 and the first rectifying part 3 operated by an external force. A power switch 2 for supplying and cutting off commercial power to the rectifying unit 3, and a DC power supply unit 15 and a first AC signal unit receiving commercial power by supplying commercial power from the power switch 2 (4) a first rectifying unit 3 for generating and supplying first power by full-wave rectification of commercial power, and a control unit 20 by receiving the first power input from the first rectifying unit 3 and generating a first AC signal The first AC signal unit 4 applied to the , the display unit 5 for displaying the status (standby state, currently performed function, failure) of the electric device, and input from the user (specific function setting, cancel input, The input unit 6 for obtaining the power cut-off time input, etc.) and the commercial power supply connection unit 1 and the second rectifying unit 13 are connected in series between the second rectifying unit 13 and the second AC signal unit 14 A relay unit 12 that performs supply and cut-off of commercial power to and from the control unit 20 by a control signal from the control unit 20, and a DC power supply unit 15 that receives commercial power by supplying commercial power from the relay unit 12 The second rectifying unit 13 for supplying second power by full-wave rectification of commercial power with the relay unit 12 receives commercial power by supply of commercial power and generates a second AC signal to the control unit 20 DC power (Vref, Vdd, Vref, Vdd, Vpp, etc.) to the control unit 20 and other components, the DC power supply unit 15, and a unique function to perform a unique function (eg, heating unit, cooling unit, communication unit, motor unit, etc.) of the electric device The unit 18 controls the above-described components to perform a unique function, stores a currently performed state (standby state, performing a unique function), and performs conversion between a standby state and a power cut-off state as a power control process It is composed of a control unit (20). However, the commercial power connection unit 1, the first and second rectifying units 3 and 13, the display unit 5, and the input unit 6 are naturally recognized by those of ordinary skill in the art to which the present invention belongs. It corresponds to the description of , and the description thereof is omitted.

The power switch 2 is a switch that performs a function of supplying commercial power (operational state) when pressed by an external force and a function of cutting off commercial power when the external force is released (blocking state), for example, a normally open contact type switch is used.

The first AC signal unit 4 operates by receiving the first power input from the first rectifying unit 3 to generate a first AC signal, and transmits the generated first AC signal to the terminal INT1 of the control unit 20 . By applying, the control unit 20 confirms that there is a user input (power state change input) from the power switch 2 . That is, the first AC signal is generated by the first AC signal unit 4 only in the operating state of the power switch 2, for example, the first power is a signal of 120 Hz, and the first AC signal is an AC of 120 Hz. it's a signal

The second AC signal unit 14 receives commercial power applied through the relay unit 12, operates by the applied commercial power to generate a second AC signal, and transmits the generated second AC signal to the controller 20 ) to the terminal INT2 so that the control unit 20 confirms that commercial power is being supplied to the electric device including the second rectifying unit 13 through the relay unit 12 (power supply state). That is, the second AC signal is generated by the second AC signal unit 4 only in the operating state of the relay unit 12 , and for example, the second AC signal is an AC signal of 120 Hz.

The relay unit 12 converts between the operating state (conduction state or relay-on state) and the disconnection state (relay-off state) only by the operation signal and the blocking signal of the control unit 20, and the control (operation of the control unit 20) If there is no signal or blocking signal), it corresponds to a latching type relay that maintains the current state (relay on state or relay off state). For example, a device such as a double coil latching relay can be applied.

In this embodiment, commercial power consists of a first commercial power supply path consisting of a power switch 2 and a first rectifying unit 3 connected in series, and a relay unit 12 and a second rectifying unit 13 connected in series. It is supplied through a second commercial power supply path and a third commercial power supply path composed of a relay unit 12 and a second AC signal unit 14 connected in series, and a second rectifying unit 13 and a second AC signal unit (14) is connected in parallel. In addition, the first commercial power supply path is connected in parallel with the second and third commercial power supply paths, respectively.

The DC power supply unit 15 receives the first power from the first rectifying unit 3 when the power switch 2 is operated, and generates a DC power Vdd for driving the control unit 20 to thereby generate the control unit 20 . to activate the control unit 20 . In addition, the DC power supply unit 15 receives the second power supply during the operation of the relay unit 12, and generates DC power (Vdd, Vref, Vpp) for performing a unique function of the electric device, thereby generating the control unit 20 . , applied to the display unit 5 , the input unit 6 , and the unique function unit 18 .

The intrinsic function unit 18 is a component that performs a cooking function, a washing function, a cooling function, a communication function, etc., which are inherent functions of an electric device, and functions according to the type of the electric device (electric cooker, washing machine, refrigerator, telephone, etc.) is to perform

The control unit 20 controls the display unit 5, the input unit 6, and the unique function unit 18 to perform a specific function of the electric device, and the user input (power state change input) from the power switch 2 is If there is, it performs a transition between a standby state or a power-down state according to the current power state, or continues to perform the current unique function without changing the power state when performing the current unique function. That is, the control unit 20 performs the power control process of FIG. 2 to determine whether the state at the time of user input of the power switch 2 or before the user input is any one of a power-off state, a standby state, and a state of performing a unique function. and performs a power control process according to the determination, which is described in detail in FIG. 2 .

FIG. 2 is a power control flowchart of the electric device of FIG. 1 .

In step S11, the power switch 2 is operated by the user to supply commercial power through the first commercial power supply path, and the first rectifier 3 generates first power by rectifying the commercial power by full-wave rectification. It is applied to the DC power supply unit 15 through the path A, and also applied to the first AC signal unit 4 .

When the current power state is the power cut-off state, the DC power supply unit 15 supplies the DC power supply Vdd to the control unit 20 to activate the control unit 20 , and the first AC signal unit 4 generates the first AC A signal is generated and applied to the control unit 20 .

Alternatively, when the power state is a standby state or a unique function is being performed, the first AC signal unit 4 generates a first AC signal and applies it to the control unit 20 . In order for the controller 20 to control the relay unit 12 in response to the first AC signal, the first AC signal is received, the received first AC signal and the pre-stored first reference AC signal (eg, 120 Hz) of the AC signal) to determine whether it is a normal first AC signal. If the received first AC signal and the pre-stored first reference AC signal are the same, it is determined that the received first AC signal is normal and proceeds to step S13; otherwise, until a normal first AC signal is received Step S11 is performed.

In step S13 , the control unit 20 determines whether the current power state is a standby state. If the current power state is a standby state, the process proceeds to step S15, otherwise, the process proceeds to step S19. The control unit 20 may determine whether the currently stored power state is a standby state to determine step S13. Alternatively, when the control unit 20 receives the DC power supply (Vdd, Vref) from the DC power supply unit 15 before or when the first AC signal is received, but does not perform a unique function, it is in a standby state (relay on state) , when the DC power supply (Vdd, Vref) is not supplied from the DC power supply unit 15, it may be determined that the power supply state is the power cut-off state (relay-off state).

In step S15, the control unit 20 generates a relay cut-off signal and applies it to the relay unit 12 through the terminals So and Sf, and puts the relay unit 12 in a power-off state (relay off) in an operating state. state) to

In step S17 , since the control unit 20 cuts off the power from the relay unit 12 , it enters a power cut-off state in which all power supplies in the electric device are cut off, and the power control process ends. That is, the control unit 20 converts the power state from the standby state to the power cut-off state using the single power switch 2 to enable conversion to the power cut-off state in which the standby power is 0W, so that unnecessary power It prevents consumption and improves user convenience. In order for the user to operate the electric device in the standby state, the power switch 2 in step S11 must be operated so that the power control process after step S11 is performed.

In step S19, the control unit 20 checks whether the specific function is currently being performed, and if the specific function is performed, proceeds to step S21; otherwise, the power state is changed before the execution of step S11. Since the power is cut off, the process proceeds to step S23.

In step S21, if the control unit 20 is currently performing its own function, even if there is a user input (power state change input) of the power switch 2 (that is, even if the received first AC signal is normal), the standby Instead of converting between the state and the power-off state, that is, the operation state of the relay unit 12 is maintained to continuously perform a unique function. In addition, the control unit 20 guides the unique function currently being performed through the display unit 5 or guides the user to perform a cancellation input of the input unit 6 for the cancellation procedure of the unique function, and the power control process is terminated .

In step S23, the control unit 20 generates a relay operation signal and applies it to the relay unit 12 through terminals So and Sf. The relay unit 12 is converted from a blocked state (relay off state) to an operational state (relay on state) according to the relay operation signal, so that commercial power is transferred to the second and third commercial power supply paths (second rectifying unit 13 and to be supplied to the second AC signal unit 14). The DC power supply unit 15 receives the second power through the path (B) and generates DC power (Vdd, Vref, Vpp) for performing a unique function of the electric device, the control unit 20, the display unit 5, It is applied to the input unit 6 and the intrinsic function unit 18 . Also, the second AC signal unit 14 receives commercial power, generates a second AC signal, and applies it to the terminal INT2 of the control unit 20 .

In step S25 , the controller 20 receives the second AC signal, compares the received second AC signal with a pre-stored second reference AC signal (eg, a 120Hz AC signal), and the received second AC signal Determine if the signal is normal. If the received second AC signal and the pre-stored second reference AC signal are the same, it is determined that the received second AC signal is normal and proceeds to step S27; otherwise, the process proceeds to step S29.

In step S27, the control unit 20 proceeds to the standby state, and the power control process is terminated. That is, the control unit 20 uses a single power switch 2 to enable conversion from the power cut-off state to the standby state, thereby improving user convenience.

In step S29, the control unit 20 does not generate and apply a normal second AC signal due to a failure of the second AC signal unit 14, or a failure in any one or more of the second or third commercial power supply paths It is determined that there is a failure guide through the display unit 5 visually and audibly displayed, and the power control process is terminated. In such a failure state, the control unit 20 performs a failure mode, so that no input or control process through the input unit 6 is performed at all, and repair of the electric device is required.

Even if the commercial power outage occurs while the electric device of FIG. 2 is in a standby state or performing a unique function (relay on state of the relay unit 12), the relay unit 12 is latching Since it is a relay of Therefore, when commercial power is re-supplied, the electric device receives commercial power immediately due to the maintenance of the operation state of the relay unit 12, and the control unit 20 controls the state at the time of a power outage (standby state, performance state of a unique function) ) can be performed again, in particular, it eliminates the inconvenience of having to re-enter a control input in order to perform a unique function before power failure.

In addition, while maintaining the standby state after the step (S27), when the preset power cut-off time elapses, the control unit 20 applies a cut-off signal to the relay unit 12 as in steps (S15) and (S17). This may allow the power cut-off state to proceed.

In FIG. 2 described above, steps (S13) to (S17) are a process in which the conversion from the standby state to the power-off state is performed, and steps (S13), (S19) to (S21) are performed when a unique function is being performed. It is a process of processing a user input of the power switch 2, and steps (S13), (S19), (S23) to (S27) are processes in which the conversion from the power cut-off state to the standby state is performed.

In Fig. 2 described above, the step (S13) of determining the standby state and the step of determining whether to perform a unique function (determining the performance state of the unique function and the power cut-off state) (S19) are exemplary, and the control unit ( 20) may include steps of determining each of the standby state, the performance state of a unique function, and the power cut-off state in an order or steps different from those of FIG. 2 . For example, the control unit 20 performs the steps of determining the power cut-off state and determining the standby state (determining the standby state and the performance state of the unique function) to determine the standby state, the performance state of the unique function, and The power cut-off state may be determined individually.

As described above, the present invention is not limited to the specific preferred embodiments described above, and anyone with ordinary skill in the art to which the invention pertains can use various methods without departing from the gist of the present invention as claimed in the claims. It goes without saying that modifications are possible, and such modifications are intended to be within the scope of the claims.

1: Commercial power supply 2: Power switch
3, 13: first and second rectifying unit 4, 14: first and second AC signal unit
5: display unit 6: input unit
12: relay unit 18: unique function unit
20: control unit

Claims (10)

A first commercial power switch that operates by an external force to supply and cut off commercial power, and a first rectifier that receives the commercial power through the power switch and full-wave rectifies the commercial power to generate first power a power supply path;
a first AC signal unit receiving the first power from the first rectifying unit and generating a first AC signal;
A second rectifier comprising: a relay unit operating under the control of the control unit to supply and cut off commercial power; and a second rectifying unit receiving the commercial power through the relay unit and full-wave rectifying the commercial power to generate second power a commercial power supply path;
First power from the first rectifying unit or second power from the second rectifying unit is applied to generate a first DC power for driving the control unit or a second DC power for performing a unique function of an electric device, respectively a direct current power supply;
a unique function unit performing a unique function of the electric device;
When the first AC signal from the first AC signal is received after receiving the first DC power or the second DC power from the DC power supply, the current An electric device having a standby power cut-off function, characterized in that it comprises a control unit for controlling the operation of the relay unit and a state of cut-off according to a power state. The electric device of claim 1, wherein the first commercial power supply path is configured in parallel with the second commercial power supply path. According to claim 1,
The electric device having a standby power cut-off function, characterized in that it includes a second AC signal unit for receiving the commercial power supply through the relay unit to generate a second AC signal and apply it to the control unit. 4. The method according to any one of claims 1 to 3,
The control unit is an electric device with a standby power cut-off function, characterized in that when the first AC signal is normal, the operation of the relay unit and control to the cut-off state. 5. The method of claim 4,
When the power state is the standby state, the control unit applies a cutoff signal to the relay unit in response to the first AC signal so that the power cutoff state proceeds. 5. The method of claim 4,
When the power state is the power cut-off state, the control unit applies an operation signal to the relay unit so that the DC power supply unit supplies the second DC power. 7. The method of claim 6,
When the second AC signal is normal, the control unit is an electric device having a standby power cutoff function, characterized in that performing a standby state. 7. The method of claim 6,
The control unit is an electric device having a standby power cut-off function, characterized in that when the second AC signal is not normal, performs a failure guidance. According to claim 1,
The control unit is an electric device with a standby power cut-off function, characterized in that even when the normal first AC signal is received while performing the unique function, the relay unit continues to maintain the operation state to perform the unique function. 10. The method of claim 9,
The electric device includes a display unit,
The control unit is an electric device with a standby power cut-off function, characterized in that guide to perform a guide to the unique function through the display unit, or to perform a cancellation input for the cancellation procedure of the unique function.

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