KR101515947B1 - Power controlling unit in bidet power supplier of bidet - Google Patents

Abstract

A power control unit in the bidet power supply of the bidet is provided. The power supply control unit in the bidet power supply unit of the bidet includes a first power supply unit, an auxiliary microcomputer, an input / output signal receiving unit and a button receiving unit. The auxiliary microcomputer senses a user in the toilet from the access signal receiving unit And to operate the first power supply unit in a power down mode when corresponding to an electrical signal that is not in operation.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a bidet power supply unit,

Embodiments of the present invention relate to a power control unit in a bidet power supply of a bidet.

Generally, a bidet is located on the left side of a toilet in a guest house or a general household and is widely used as a left-side facility. The bidet is configured to spray hot water to the anus and / or the vicinity of the user through the bidet nozzle device after user's use to remove the dirty-related dirt from the user's body.

In order to reduce the standby power, the bidet may be driven by electrically connecting the power plug to the switchboard of the toilet every time the user uses the bidet, or by detecting the user's body of the user of the body detection sensor in the bidet or the bidet Is performed by using the user's button operation on the button operation portion.

However, when the human body of the user is not detected through the human body sensor or the button operation portion of the button operation portion is not operated through the user, the bidet power supply portion of the bidet may be operated with the AC voltage (about 220 to 330 volts (About 3 volts (V)) formed by reducing the magnitude of the DC voltage (i.e., the value of the DC voltage). Therefore, the DC voltage is further reduced to minimize the consumption of the standby power.

Further, since the bidet power supply unit of the bidet does not monitor the DC voltage, it does not have a circuit scheme for preventing the DC voltage from dropping. Thus, the drop of the DC voltage causes the bidet to be abnormally driven by making the electrical states of the components of the bidet power supply unit unsecure. Abnormal driving of the bidet makes the bidet unfamiliar to the user.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a power down mode in which an electric signal that does not sense a user in a toilet is received from an access signal receiving unit or an electric signal of a button operated by a user is not received from a button receiving unit ) Capable of minimizing the standby power consumption and preventing the DC voltage from dropping, in a bidet power supply unit of a bidet.

Other problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems not mentioned here will be fully understood by those skilled in the art from the following description.

There is provided a power control unit in a bidet power supply part of a bidet according to embodiments of the present invention. Wherein the power control unit in the bidet power supply unit of the bidet includes a first power receiving unit electrically connected to the switchboard of the toilet so as to be located in the bidet power supply unit of the bidet and sequentially positioned from the switchboard and electrically connected to each other, and a low voltage drop out (LDO) regulator, the controller comprising: a first power supply unit and a second power supply unit; and a switching element electrically connected to the first power supply unit and the second power supply unit, A first power supply unit; An auxiliary micom electrically connected to the low voltage down regulator; And an input / output signal receiving unit and a button receiving unit electrically connected to the auxiliary microcomputer, wherein the first power receiving unit and the second power receiving unit are electrically isolated from each other through the transformer, The controller and the low-voltage down-regulator are powered down when corresponding to an electric signal which does not sense the in-room user from the receiving unit or when the electric signal of the button operation of the user is not supplied from the button receiving unit 38 Mode (power down mode).

The first power receiving unit is configured to receive an AC voltage from the switchboard.

The transformer is configured to change the AC voltage of the switchboard to a DC voltage.

And the second power receiving unit is configured to receive a DC voltage from the transformer.

The switching element includes a field effect transistor for interrupting the connection between the switchboard and the transformer.

Wherein the controller controls the switching state of the switching element to be 'off' in the power down mode, thereby disconnecting the electrical connection between the switchboard and the transformer, and receiving the AC voltage from the switchboard, And the first DC voltage is generated by lowering the magnitude of the AC voltage to output the first DC voltage to the low voltage down regulator.

The AC voltage has a value between about 220 and 330 volts and the first DC voltage has a value between about 4 and 8 volts.

The switching element and the controller are electrically connected in one chip.

When the auxiliary microcomputer periodically monitors the first DC voltage and measures the first DC voltage at a value less than about 4 volts, the auxiliary microcomputer wakes-up the controller, Quot; signal to control the controller to " on " the switching state of the switching element.

The second power receiving unit is configured to supply the second DC voltage to the low voltage down regulator in a switching 'on' state of the switching device.

The second direct current voltage has a value of about 5 volts (V).

Wherein the low voltage down regulator receives the first DC voltage from the controller or the second DC voltage from the second power receiving unit to reduce the magnitude of the first DC voltage or the second DC voltage to output a third DC voltage do.

The third direct current voltage has a value between about 1.5 and 2.5 volts (V).

The auxiliary microcomputer includes an energy charging device, and the energy charging device is electrically connected to the low voltage down regulator.

The electric signal of the button operation is generated from a button operation unit including a power save button, a hot water temperature control button, a bidet operation control button, a water pressure control button and a toilet seat operation control button in the bidet.

As described above, in the standby state (= power down mode) in which the input / output signal receiving unit responds to an electric signal that does not sense the user in the toilet, or receives no electric signal of the user's button operation from the button receiving unit ,

The power control unit in the bidet power unit of bidet according to the embodiments of the present invention lowers the alternating current of the switchboard of the toilet to a DC voltage having a value between about 1.5 and 2.5 volts, Consumption can be minimized.

The power supply control unit includes an energy charging device (= super capacitor) to prevent the DC voltage from dropping to secure the electrical states of the components of the bidet power supply unit so that the bidet can be driven normally.

1 is a block diagram showing a bidet power supply in a bidet according to embodiments of the present invention.
FIG. 2 is a block diagram showing a power control unit in the bidet power supply unit of FIG. 1. FIG.

First, a power control unit in a bidet power supply unit of a bidet according to embodiments of the present invention will be described in detail with reference to FIGS.

1 is a block diagram showing a bidet power supply in a bidet according to embodiments of the present invention.

Referring to FIG. 1, a bidet power supply unit 100 according to an embodiment of the present invention includes a power stabilization circuit 20, a power supply control unit 40, a relay driving circuit 50, An earth leakage breaker 60, a second power supply unit 70, and a function control unit 90.

The power stabilization circuit 20 is configured to receive the AC voltage 10 from the switchboard of the toilet. The power stabilization circuit 20 includes a fuse. The power supply control unit 40 includes a first power supply unit 32, an auxiliary micom 34, an access signal receiving unit 36, and a first button receiving unit 38 for electrically connecting to each other.

The power supply control unit 40 receives the AC voltage 10 from the power stabilization circuit 20 and converts the AC voltage 10 into the DC voltage in the standby state and outputs the DC voltage in the operating state to the function control unit 90 . The power control unit 40 will be described in more detail with reference to FIG.

The relay driving circuit 50 interrupts a circuit between the power stabilization circuit 20 and the earth leakage breaker 114. The earth leakage breaker 60 monitors a short circuit of the power stabilization circuit 20, the power supply control unit 40 and / or the relay driving circuit 50 and controls the relay driving circuit 50, (70).

The second power supply unit 70 is configured to receive the AC voltage 10 from the power stabilization circuit 20 and convert it into AC voltage DC power. The second power supply unit 32 includes a switching mode power supply. The function control unit 90 is configured to receive a direct current voltage from the second power supply unit 70 to drive a bidet (not shown).

The function control unit 90 includes a main micom 81 electrically connected to each other, a memory 82, a remote control receiver 83, a seating signal receiver 84, a second button receiver 85, A hot water heater portion 87, and a toilet seat heater portion 89.

FIG. 2 is a block diagram showing a power control unit in the bidet power supply unit of FIG. 1. FIG.

Referring to FIG. 2, the power supply control unit 40 is located in a bidet power supply unit of a bidet and is electrically connected to the switchboard of the toilet through the power stabilization circuit 20 of FIG. The power supply control unit 40 includes a first power supply unit 32, an auxiliary microcomputer 34, an input / output signal receiving unit 36, and a first button receiving unit 38 that are electrically connected to each other.

The first power supply unit 32 includes a first power supply unit 32-1, a transformer 32B and a second power supply unit 32-2 that are electrically connected to each other. The first power supply unit 32-2, (Not shown), a controller 32C, and a low voltage drop out (LDO) 32D regulator that electrically connects the second power supply unit 32-1 to the second power supply unit 32-2 .

The first power receiving unit 32-1 and the second power receiving unit 32-2 are electrically isolated from each other through the transformer 32B. The first power receiving unit 32-1 is configured to receive the AC voltage 32A from the power stabilization circuit 20. [ The AC voltage 32A has the same magnitude as the AC current 10 of the switchboard of FIG.

The transformer 32B is configured to convert the AC voltage 32A of the power stabilization circuit 20 into a DC voltage (hereinafter referred to as a second DC voltage). The second power receiving unit 32-2 is configured to receive a second DC voltage from the transformer 32B. The switching device includes a field effect transistor for interrupting the connection of the power stabilization circuit 20 and the transformer 32B.

In this case, the auxiliary microcomputer 34 receives the electric signal from the entrance / exit signal receiving unit 36 corresponding to the electric signal which does not sense the user in the toilet or receives the electric signal of the user's button operation from the first button receiving unit 38 The controller 32C and the low voltage down regulator 32D in a power down mode.

The controller 32C controls the switching state of the switching element to be 'off' in the power down mode to cut off the electrical connection between the power stabilization circuit 20 and the transformer 32B, The AC voltage 32A is received from the circuit 20 to decrease the size of the AC voltage 32A to form the first DC voltage and output the first DC voltage to the low voltage down regulator 32D.

The AC voltage 32A has a value between about 220 and 330 volts and the first DC voltage has a value between about 4 and 8 volts. The switching device and the controller 32C are electrically connected by one chip. The chip refers to the 'linkzero series (LNK574) chip' of 'power integration'.

When the auxiliary microcomputer 34 periodically monitors the first DC voltage in the power down mode and measures the first DC voltage at a value less than about 4 volts, the auxiliary microcomputer 34 controls the controller 32C, Wake-up " signal to the controller 32C to control the switching state of the switching element to 'on'.

The second power receiving unit 32-2 is configured to supply the second DC voltage to the low voltage down regulator 32D in the switching 'on' state of the switching device. The second direct current voltage has a value of about 5 volts (V). The low voltage down regulator 32D receives the first DC voltage from the controller 32C or the second DC voltage from the second power receiving unit 32-2 to decrease the magnitude of the first DC voltage or the second DC voltage, And outputs a DC voltage.

The third direct current voltage has a value between about 1.5 and 2.5 volts (V). The auxiliary microcomputer includes an energy charging device 37. The energy charging device 37 is electrically connected to the low voltage down regulator 32D. When the auxiliary microcomputer 34 periodically monitors the first DC voltage in the power-down mode and measures the first DC voltage to a value less than about 4 V, the energy charging device 37 supplies the low- And receives the third direct-current voltage from the second direct current source 32D to store the charge.

When the power plug of the bidet is not electrically connected to the switchboard, the energy charging device 37 uses the stored charge to supply power to the auxiliary microcomputer 34, the access signal receiving unit 36 and / or the first button receiving unit 38 . The entrance / exit signal receiving unit 36 is configured to receive an electric signal of the human body detection sensor in the bidet and to transmit the electric signal to the auxiliary microcomputer 34.

The first button receiving unit 38 receives the electric signal of the first button operating unit in the bidet and transmits the electric signal to the auxiliary microcomputer 34. The first button operating unit 38 includes a power saving button, a hot water temperature control button, a bidet operation control button, a water pressure control button, and a toilet seat operation control button.

A method of driving the power control unit in the bidet power supply unit of the bidet according to the embodiments of the present invention will be described with reference to Figs. 1 and 2. Fig.

1 and 2, when the power plug of the bidet is not electrically connected to the switchboard of the bathroom for a long period of time, the energy charging device 37 uses the stored electric charge to connect the auxiliary microcomputer 34, The input / output signal receiving unit 36 and / or the first button receiving unit 38 can be operated.

Next, when the power plug of the bidet is electrically connected to the switchboard of the toilet, the power supply control unit 40 can receive the AC voltage 32A from the power distribution board and the power stabilization circuit 20. [

The microcomputer 34 in the power supply control unit 40 responds to an electric signal from the entrance / exit signal receiving unit 36 that does not sense the user in the toilet or supplies the electric signal of the user's button operation from the first button receiving unit 38 The auxiliary microcomputer 34 can operate the switching element, the controller 32C and the low voltage down regulator 32D in the power down mode.

The power down mode is described in detail in FIG. Alternatively, the auxiliary microcomputer 34 in the power supply control unit 40 may correspond to an electric signal for detecting the user in the toilet from the entrance / exit signal receiving unit 36, When the signal is supplied, the auxiliary microcomputer 34 can turn off the power-down mode by setting the switching state of the switching element to 'on' through the controller 32C.

After the power down mode is released, the first DC voltage of the auxiliary microcomputer 34 and the second DC voltage of the first power supply unit 32 in the power supply control unit 40 are supplied to the relay driving circuit 50 Can be output. The relay driving circuit 50 receives the second DC voltage and the third DC voltage from the auxiliary microcomputer 34 and the first power supply unit 32 to electrically connect the power stabilization circuit 20 and the earth leakage breaker 60 to each other electrically .

The AC voltage 10 of the switchboard can be supplied to the second power supply unit 70 via the power stabilization circuit 20, the relay drive circuit 50 and the earth leakage breaker 60 in order. The second power supply unit 70 may convert the AC voltage 10 of the switchboard into a third DC voltage (about 5 volts) and output the third DC voltage to the function control unit 90.

The function control unit 90 can receive the third direct current voltage from the auxiliary microcomputer 34 and the second direct current voltage from the second power source unit 70 using the main microcomputer 81. [ The main microcomputer 81 reads the data corresponding to the usage patterns of the user from the memory unit 82 before the off state of the main microcomputer 81 by using the second direct current voltage and the third direct current voltage, 81 can be stored in the memory unit 82 in accordance with the usage patterns of the user.

The main microcomputer 81 can receive an electric signal of the button operation from the remote controller located around the bidet from the remote controller receiver 83 using the second DC voltage and the third DC voltage.

The main microcomputer 81 can receive the electric signal of the seating sensor corresponding to whether or not the user is seated in the toilet seat of the bidet through the seating signal receiving unit 84 using the second DC voltage and the third DC voltage.

The main microcomputer 81 can receive a button operation electric signal from the second button operation unit of the bidet through the second button receiving unit 85 using the second DC voltage and the third DC voltage. The second button operation unit may have the same buttons as the first button operation unit or may have other buttons.

The main microcomputer 81 may transmit the first DC voltage and the third DC voltage to the hot water heater 87 and the toilet seat heater 89. The third DC power source may be an AC voltage having a magnitude larger than that of the second DC power source.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive.

10, 32A; AC voltage 20; The power stabilization circuit (20)
32; A first power supply unit, 32-1; The first power-
32-2; A second power receiving unit, 32B; Trance
32C; Controller 32D; Low-dropout regulator
34; Auxiliary microcomputer 36; [0035]
37; Energy charging device, 38; The first button receiver
40; A power supply control unit, 50; Relay driving circuit
60; An earth leakage breaker, 70; The second power supply unit
81; Main microcomputer 82; Memory
83; Remote control receiver 84, [0035]
85; A second button receiving section, 87; Hot water heater part
89; A toilet seat heater section 90; Function control unit

Claims (15)

In order to be placed in the bidet power supply of the bidet,
A transformer and a second power receiving unit which are electrically connected to the switchboard of the bathroom and are sequentially positioned from the switchboard and electrically connected to each other, A first power supply unit including a controller and a low voltage drop out (LDO) regulator;
An auxiliary micom electrically connected to the low voltage down regulator; And
An access signal receiving unit and a button receiving unit electrically connected to the auxiliary microcomputer,
And the auxiliary microcomputer is configured to receive electrical signals from the access signal receiving unit not corresponding to the user in the toilet, (38) to operate the switching element, the controller and the low-voltage down-regulator in a power-down mode when the user does not receive an electric signal of the button operation from the user. The method according to claim 1,
And the first power receiving unit is configured to receive an AC voltage from the switchboard. The method according to claim 1,
And the transformer is configured to change an alternating-current voltage of the distribution board to a direct-current voltage. The method according to claim 1,
And the second power receiving unit is configured to receive a DC voltage from the transformer. The method according to claim 1,
Wherein the switching element includes a field effect transistor for interrupting a connection between the switchboard and the transformer. The method according to claim 1,
Wherein the controller controls the switching state of the switching element to be 'off' in the power down mode, thereby disconnecting the electrical connection between the switchboard and the transformer, and receiving the AC voltage from the switchboard, And to output the first DC voltage to the low voltage down regulator by reducing the magnitude of the AC voltage to form a first DC voltage. The method according to claim 6,
Wherein the alternating voltage has a value within the range of 220 to 330 volts and the first direct voltage has a value within the range of 4 to 8 volts. The method according to claim 1,
Wherein the switching element and the controller are electrically connected in one chip. The method according to claim 6,
The auxiliary microcomputer may be configured to 'wake-up' to the controller when the auxiliary microcomputer periodically monitors the first DC voltage and measures the first DC voltage to a value less than 4 volts, And to transmit the signal to the controller to control the switching state of the switching element to 'on'. 10. The method of claim 9,
And the second power receiving unit is configured to supply a second direct current voltage to the low voltage down regulator in a switching 'on' state of the switching device. 11. The method of claim 10,
And the second DC voltage has a value of 5 volts (V). 11. The method according to any one of claims 6 to 10,
Wherein the low voltage down regulator receives the first DC voltage from the controller or the second DC voltage from the second power receiving unit to reduce the magnitude of the first DC voltage or the second DC voltage to output a third DC voltage Lt; / RTI > 13. The method of claim 12,
And the third direct-current voltage has a value within a range of 1.5 to 2.5 volts (V). The method according to claim 1,
The auxiliary microcomputer includes an energy charging device,
And the energy charging device is electrically connected to the low voltage down regulator. The method according to claim 1,
Wherein the electric signal of the button operation is generated from a button operation unit including a power saving button, a hot water temperature control button, a bidet operation control button, a water pressure control button and a toilet seat operation control button in the bidet.

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