CN107978139B

CN107978139B - Wireless remote control switch device and wireless remote control electric appliance

Info

Publication number: CN107978139B
Application number: CN201611018354.4A
Authority: CN
Inventors: 张世扬
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-10-25
Filing date: 2016-11-17
Publication date: 2020-08-07
Anticipated expiration: 2036-11-17
Also published as: TWI612404B; CN107978139A; TW201816528A

Abstract

A wireless remote control switch device comprises a port unit, a switch unit comprising a first switch module and a second switch module, a wireless module for outputting a wireless switch signal according to a wireless control signal, and a regulation and control unit. The port unit comprises a first port, a second port and a third port which is electrically connected with an electric appliance load. The first switch module has a first end electrically connected to the second port and a second end. The second switch module is provided with a first end electrically connected with the first port, a second end electrically connected with the third port and a third end electrically connected with the second end of the first switch module. The control unit controls the switch unit, so that the electric appliance load and a power supply can be switched between a short-circuit state and a broken-circuit state, and when the device is abnormal, a user can still carry out switch control on the electric appliance load through the external switch.

Description

Wireless remote control switch device and wireless remote control electric appliance

Technical Field

The present invention relates to a switch device and an electric appliance, and more particularly, to a wireless remote control switch device and a wireless remote control electric appliance.

Background

Some existing electric appliances have no remote control function, and the lamp switch at home is not well arranged, so that a user needs to walk to the electric appliance or the lamp switch to operate, and inconvenience in use is caused.

Therefore, devices capable of providing a remote control function to existing electric appliances have been increasingly developed. Whether the adapter device is externally connected to the socket or the switch socket is directly replaced, the electric appliance inserted into the adapter device or the switch socket can be turned on or off in a wireless remote control mode.

However, for electrical appliances such as lamps and lanterns and ceiling fans, the circuit is usually hidden in the ceiling and turned on and off by a switch installed on the wall, so the switch is not suitable for the above-mentioned switching device, and the switch with wireless remote control function is necessarily modified to achieve remote control of the electrical appliances. However, the existing wireless remote control switch device directly replaces the existing wall switch, and only one wireless module is used for controlling the on-off of the circuit. Therefore, if the wireless module fails, the user cannot control the electrical appliance connected to the wireless module.

Disclosure of Invention

One of the objects of the present invention is to provide a wireless remote switch device, which can add the function of wireless switch control to the electrical appliance connected with the wireless remote switch device while maintaining the existing switch, and when the device is abnormal, the user can still control the electrical appliance through the external switch.

The invention discloses a wireless remote control switch device, which comprises a port unit, a switch unit, a wireless module and a regulation and control unit.

The port unit includes a first port, a second port, and a third port. One of the first port and the second port is suitable for being electrically connected with an external switch and a first power supply through the external switch, and the other one of the first port and the second port is suitable for being electrically connected with the first power supply. The third port is adapted to be electrically connected to an electrical load and to be electrically connected to a second power source via the electrical load. The first power source forms a first path from the first port to the third port, and the first power source forms a second path from the second port to the third port.

The switch unit comprises a first switch module and a second switch module. The first switch module has a first end electrically connected to the second port and a second end. The second switch module is provided with a first end electrically connected with the first port, a second end electrically connected with the third port and a third end electrically connected with the second end of the first switch module.

The wireless module is suitable for receiving a wireless control signal related to a remote control switching state and outputting a wireless switching signal related to the wireless control signal.

The regulation and control unit receives the wireless switch signal and detects a manual switching state of the external switch. The regulation and control unit can operate in a normal mode and an abnormal mode. In the normal mode, when any one of the remote control switching state and the manual switching state changes, the regulation and control unit controls the first switch module and the second switch module to switch the first power supply and the second power supply between a short-circuit state and an open-circuit state.

Preferably, the control unit controls the first switch module and the second switch module to make one of the first path and the second path conductive or both of the first path and the second path non-conductive.

Preferably, the first switch module is controlled by the control unit so that the first end of the first switch module is electrically connected or not electrically connected to the second end of the first switch module. The second switch module is controlled by the regulation and control unit to enable the second end of the second switch module to be switched and electrically connected with one of the first end and the third end of the second switch module.

Preferably, the first port is adapted to be electrically connected to the external switch, and the second port is adapted to be electrically connected to the first power source. The regulation and control unit can control the first end of the first switch module not to be electrically connected with the second end of the first switch module when the external switch is conducted according to the manual switching state in the normal mode. When the external switch is not conducted, the first end of the first switch module is controlled to be electrically connected to the second end of the first switch module, and when the remote control switching state is changed, the second end of the second switch module is controlled to be electrically connected to the other one of the first end and the third end of the second switch module in a switching mode. The regulation and control unit controls the second end of the second switch module to be electrically connected to the first end of the second switch module in the abnormal mode.

Preferably, the first port is adapted to be electrically connected to the first power source, and the second port is adapted to be electrically connected to the external switch. The regulation and control unit controls the first end of the first switch module not to be electrically connected with the second end of the first switch module in the normal mode, and controls the second end of the second switch module to be electrically connected with the other one of the first end and the third end of the second switch module in a switching way when any one of the remote control switching state and the manual switching state is changed. The regulation and control unit controls the first end of the first switch module to be electrically connected to the second end of the first switch module and controls the second end of the second switch module to be electrically connected to the third end of the second switch module in the abnormal mode.

Preferably, the control unit includes a detection module and a processing module in signal connection with the wireless module and the detection module. The detection module detects an electric signal of one end of the external switch opposite to the first power supply to output a sensing signal related to the manual switching state to the processing module.

Another object of the present invention is to provide a wireless remote control device capable of switching the on state through the existing switch and the wireless switch at the same time.

The wireless remote control electric appliance of the present invention is adapted to detachably electrically connect a power unit to form an electric circuit. The power unit comprises an external switch, a first power supply electrically connected with the external switch, and a second power supply.

The wireless remote control electric appliance comprises an electric appliance load electrically connected with the second power supply and the wireless remote control switch device.

One of the first port and the second port is suitable for being electrically connected with one end of the external switch opposite to the first power supply, and the other one of the first port and the second port is suitable for being electrically connected with the first power supply. The third port is adapted to electrically connect an end of the electrical load opposite the second power source.

Preferably, the electrical load is one of an electric lamp and an electric fan.

The invention has the beneficial effects that: by means of the control and regulation of the regulation and control unit, the electric appliance load connected with the wireless remote control switch device can be switched between a short-circuit state and an open-circuit state between the first power supply and the second power supply when any one of the remote control switching state and the manual switching state is changed, so that the electric appliance load has the function of wireless switch control, and when the wireless remote control switch device breaks down, a user can still control the electric appliance load through the external switch, and the robustness of the whole system is effectively improved.

Drawings

Other features and effects of the present invention will become apparent from the following detailed description of the embodiments with reference to the accompanying drawings, in which:

fig. 1 is a schematic circuit diagram illustrating a first embodiment of the wireless remote control appliance of the present invention and its application state;

fig. 2 is a schematic circuit diagram illustrating a second embodiment of the wireless remote control appliance of the present invention and its application state;

fig. 3 is a schematic circuit diagram illustrating a third embodiment of the wireless remote-control electric appliance of the present invention and its application state;

fig. 4 is a schematic circuit diagram illustrating a fourth embodiment of the wireless remote-control electric appliance of the present invention and its application state;

fig. 5 is a schematic circuit diagram illustrating a fifth embodiment of the wireless remote controller of the present invention and its application state;

fig. 6 is a schematic circuit diagram illustrating a sixth embodiment of the wireless remote-control electric appliance of the present invention and its application state;

fig. 7 is a timing chart illustrating a switching situation of the first switch module, the second switch module and the electrical load thereof when any one of a remote control switching state and a manual switching state in the first embodiment and the second embodiment is changed;

fig. 8 is a timing chart illustrating a switching situation of the first switch module, the second switch module and the electrical load thereof when any one of a remote control switching state and a manual switching state in the third embodiment and the fourth embodiment is changed;

fig. 9 is a timing chart illustrating the switching of the first switch module, the second switch module and the electrical load when any one of the remote control switching state and the manual switching state is changed in the fifth embodiment and the sixth embodiment.

Detailed Description

Various embodiments of the present invention will be described below with reference to the drawings. Also, for simplicity, some conventional structures and components are shown in the drawings in a simplified schematic manner, and repeated components are denoted by the same reference numerals.

Referring to fig. 1, a first embodiment of the wireless remote control electric appliance of the present invention is adapted to be detachably electrically connected to a power unit 300 and is controlled by a wireless control signal outputted from a wireless signal transmitting device 400. The power unit 300 includes an external switch 310, a first power source 320 electrically connected to the external switch 310, and a second power source 330.

In this embodiment, the power unit 300 is a general single-phase three-wire household power supply, and its wires are drawn according to the voltage of the power supply to correspond to the first power source 320 and the second power source 330. For example, if the power supply voltage of the power unit 300 is 110 volts, the first power source 320 is a hot line, and the second power source 330 is a neutral line (ground); if the power supply voltage of the power unit 300 is 220 volts, the first power source 320 and the second power source 330 are both hot. Thus, the first power source 320 and the second power source 330 electrically connected to each other can obtain a power. However, the power unit 300 is not limited to this, and a three-phase three-wire or three-phase four-wire commercial power supply may be used. In addition, the external switch 310 is a one-way switch commonly installed on a wall surface of a home for turning on an electric appliance.

The wireless remote control electric appliance comprises an electric appliance load 100 electrically connected with the second power supply 330 and a wireless remote control switch device 200.

In the present embodiment, the electrical load 100 is an electric lamp, but not limited thereto, and can also be an electric fan or other types of electrical appliances. It should be noted that before the wireless remote control switch device 200 is not installed, the electrical load 100 is electrically connected between the end of the external switch 310 away from the first power source 320 and the second power source 330, and the electrical load 100 is turned on or off by the operation of the external switch 310. When the wireless remote switch device 200 is to be installed, the pin of the electrical load 100 that is originally electrically connected to the first power source 320 is connected to the wireless remote switch device 200.

The wireless remote control switching device 200 includes a port unit 210, a switching unit 220, a wireless module 230, a control unit 240, and a power module 250.

The port unit 210 has a first port 211, a second port 212, and a third port 213. The first port 211 is electrically connected to the external switch 310 and is electrically connected to the first power source 320 via the external switch 310. The second port 212 is directly electrically connected to the first power source 320. The third port 213 is electrically connected to the electrical load 100 and is electrically connected to the second power source 330 via the electrical load 100. The first power source 320 forms a first path from the first port 211 to the third port 213, and the first power source 320 forms a second path from the second port 212 to the third port 213.

The switch unit 220 has a first switch module 260 and a second switch module 270. In the embodiment, the first switch module 260 and the second switch module 270 are both electromagnetic relays (relays), but not limited thereto, can also be Solid State Relays (SSRs) or transistors (transistors). Moreover, the first switch module 260 includes a first end 261, a second end 262, a third end 263, and a driver 264; the second switch module 270 includes a first terminal 271, a second terminal 272, a third terminal 273, and a driver 274. In addition, the contact symbols in the drawings correspond to the common contact names of a common electromagnetic relay, such as a common contact COM, a normally open contact no (normal open), and a normally closed contact nc (normal close).

Therefore, in the present embodiment, the first end 261 serves as a normally open contact NO and is electrically connected to the second port 212, the second end 262 serves as a common contact COM and is electrically connected to the third end 273, the third end 263 serves as a normally closed contact NC but is free, the first end 271 serves as a normally closed contact NC and is electrically connected to the first port 211, and the second end 272 serves as a common contact COM and is electrically connected to the third port 213. In addition, the driver 264 and the driver 274 are respectively controlled by the control unit 240 to switch between an excited state and a non-excited state.

The wireless module 230 is adapted to receive the wireless control signal and output a wireless switch signal related to the wireless control signal. It should be noted that the wireless signal transmitting device 400 in this embodiment is a device, such as a smart phone or a tablet, which can output the wireless control signal through application programming and a wireless signal transmitting module (not shown), but the wireless signal transmitting module can also be a wireless signal transmitting module that only has a function of outputting the wireless control signal. In addition, the wireless control signal may be a radio frequency signal, a bluetooth signal, or an infrared signal. In addition, the wireless control signal includes a message of a remote control switching status as a basis for the control unit 240 to switch the switch unit 220.

The control unit 240 has a detecting module 241 and a processing module 242 in signal connection with the wireless module 230 and the detecting module 241. The detecting module 241 is used for detecting an electrical signal, such as a voltage or a current, of the external switch 310 at an end opposite to the first power source 320, so as to output a sensing signal to the processing module 242. Thus, the sensing signal is related to a manual switching state of the external switch 310. The processing module 242 receives the wireless switch signal and the sensing signal, and can control the driver 264 and the driver 274 to make one of the first path and the second path conductive or neither when any one of the remote control switching state and the manual switching state changes.

The power module 250 is electrically connected between the first power source 320 and the second power source 330 and outputs a converted power related to the power to the wireless module 230 and the control unit 240. In the embodiment, the power module 250 is used for ac/dc conversion to provide the dc power required by the wireless module 230 and the regulation unit 240, but if the wireless module 230 and the regulation unit 240 can directly use ac power, the conversion by the power module 250 is not needed.

Therefore, referring to fig. 7, the two diagrams (a) and (b) respectively show timing diagrams with different initial states: (a) is initiated by the first power source 320 and the second power source 330 being in an off state (low level); (b) starting from a short circuit (high level) between the first power source 320 and the second power source 330, one of the embodiments can be selected according to the user's requirement. Moreover, as long as any one of the remote control switching state and the manual switching state changes, the processing module 242 controls the driver 264 and the driver 274 to change the state between the first power source 320 and the second power source 330 from the open circuit state to the short circuit state or from the short circuit state to the open circuit state.

Taking (a) as an example, further description is given. Initially, when the external switch 310 is turned on to make the sensing signal be at a low level and the wireless control signal is also at a low level, the driver 264 is controlled by the control unit 240 to be in the excited state, such that the second terminal 262 is connected to the first terminal 261; the driver 274 is controlled by the control unit 240 to be in the non-excited state, such that the second end 272 is connected to the first end 271. At this time, the first path and the second path are both non-conductive, and the first power source 320 and the second power source 330 are in the open circuit state, so that the electrical load 100 is not operated (low level).

Then, if the wireless control signal is switched to the high level, the processing module 242 detects that the remote control switching state changes, and controls the driver 274 to be in the excitation state, so that the second terminal 272 is connected to the third terminal 273. At this time, since the second terminal 262 is connected to the first terminal 261, the second path is conducted, and the first power source 320 and the second power source 330 are in the short circuit state, so that the electrical load 100 operates (high level). On the other hand, if the external switch 310 is turned off and the sensing signal is switched to the high level, the processing module 242 detects that the manual switching state changes, and controls the driver 264 to be in the non-excited state, so that the second terminal 262 is connected to the third terminal 263. At this time, since the second terminal 272 is connected to the first terminal 271, the first path is turned on, and the first power source 320 and the second power source 330 are in the short circuit state, so that the electrical load 100 can be operated.

Similarly, as long as any one of the remote control switching state and the manual switching state changes, the processing module 242 controls the driver 264 and the driver 274, so that the first path and the second path are not conducted, the first power source 320 and the second power source 330 are in the open circuit state, and the electrical load 100 is not operated. In addition, for the implementation aspect presented in (b), it can be seen that the difference of the initial state only affects the control of the second switch module 270 by the processing module 242.

Therefore, when any one of the remote control switching state and the manual switching state changes, the first power source 320 and the second power source 330 can be switched between the short-circuit state and the open-circuit state, so that the electrical load 100 can have a function of wireless switch control.

It should be noted that the above situations are all the implementation results when the regulation unit 240 is in a normal mode, but if the regulation unit 240 is in an abnormal mode, it fails to control the

drivers

264 and 274. At this time, the driver 264 and the driver 274 are in the non-excited state, so that the second end 262 is connected to the third end 263, the second end 272 is connected to the first end 271, the second path is constantly non-conductive, and whether the first path is conductive or not can still be switched by the external switch 310, so that the user can still switch the electrical load 100 through the external switch 310.

In addition, the connection relationship between the contacts of the first switch module 260 can be adjusted correspondingly as the implementation manner of the first embodiment, so as to form a second embodiment (see fig. 2), a third embodiment (see fig. 3), and a fourth embodiment (see fig. 4) of the wireless remote control electric appliance of the present invention, respectively.

Therefore, as shown in fig. 2, the second embodiment is different from the first embodiment only in that the first end 261 of the second embodiment is used as the common contact COM, and the second end 262 thereof is used as the normally open contact NO. In addition, the timing diagrams of the first embodiment and the second embodiment are shown in fig. 7.

As shown in fig. 3, the third embodiment is different from the first embodiment only in that the first end 261 of the third embodiment is used as a common contact COM, the second end 262 thereof is used as a normally closed contact NC, and the third end 263 thereof is used as a normally open contact NO.

As shown in fig. 4, the fourth embodiment is different from the first embodiment only in that the first end 261 of the fourth embodiment is used as a normally closed contact NC, and the third end 263 thereof is used as a normally open contact NO. The timing diagrams of the third and fourth embodiments are shown in fig. 8.

Similarly, the connection relationship between the port unit 210 and the power unit 300 can be adjusted correspondingly as in the first embodiment, so as to form a fifth embodiment (see fig. 5) and a sixth embodiment (see fig. 6) of the wireless remote control device of the present invention, respectively.

Therefore, as shown in fig. 5 and fig. 6, the first port 211 of the fifth embodiment and the sixth embodiment is directly electrically connected to the first power source 320, and the second port 212 thereof is electrically connected to the external switch 310 and electrically connected to the first power source 320 via the external switch 310. The first port 211 is electrically connected to the first end 271 serving as a normally open contact NO, the second port 212 is electrically connected to the first end 261, and the third port 213 is electrically connected to the second end 272 serving as a common contact COM.

In addition, the fifth embodiment is different from the sixth embodiment only in that the first end 261 of the fifth embodiment is used as a normally closed contact NC, and the second end 262 thereof is used as a common contact COM and is electrically connected to the third end 273. The first end 261 of the sixth embodiment is used as the common contact COM, and the second end 262 thereof is used as the normally closed contact NC and is electrically connected to the third end 273. Fig. 9 shows timing diagrams of the fifth embodiment and the sixth embodiment.

It should be noted that, according to fig. 9, when the regulating unit 240 of the fifth embodiment and the sixth embodiment is in the normal mode, the driver 264 is controlled by the regulating unit 240 to be in the excited state constantly, so that the first end 261 is not electrically connected to the second end 262, and the second path is not conducted constantly. When any one of the remote-control switching state and the manual switching state changes, the driver 274 is controlled by the control unit 240 to switch between the excited state and the non-excited state, and the second terminal 272 is switched to one of the first terminal 271 and the third terminal 273, so as to drive the first power source 320 and the second power source 330 to switch between the short-circuit state and the open-circuit state.

If the control unit 240 is in the abnormal mode, at this time, the driver 264 and the driver 274 are both in the non-excited state, the first end 261 is not electrically connected to the second end 262, so that the first path is constantly non-conductive, the second end 272 is connected to the third end 273, so that whether the second path is conductive or not can still be switched through the external switch 310, and thus, a user can still switch the electrical load 100 through the external switch 310.

Through the above description, it can be understood that the main contribution of the wireless remote control switch device 200 of the present invention is that by designing the setting of the switch unit 220 and matching the control regulation of the processing module 242, the electrical load 100 connected to the wireless remote control switch device 200 can be switched between the short circuit state and the open circuit state between the first power source 320 and the second power source 330 when any one of the remote control switching state and the manual switching state is changed, so that the electrical load 100 can increase the function of wireless switch control. In addition, when the wireless remote control switch device 200 fails, the user can still control the electrical load 100 through the external switch 310, thereby effectively improving the robustness of the whole system.

The above description is only an example of the present invention, and the scope of the present invention should not be limited thereby, and the invention is still within the scope of the present invention by simple equivalent changes and modifications made according to the claims and the contents of the specification.

Claims

1. A wireless remote control switch device comprises a port unit, a switch unit, a wireless module and a regulation and control unit; the method is characterized in that:

the port unit comprises a first port, a second port and a third port, wherein one of the first port and the second port is suitable for being electrically connected with an external switch and a first power supply through the external switch, the other one of the first port and the second port is suitable for being electrically connected with the first power supply, the third port is suitable for being electrically connected with an electric appliance load and a second power supply through the electric appliance load, the first power supply forms a first path from the first port to the third port through the first port, and the first power supply forms a second path from the second port to the third port through the second port;

the switch unit comprises a first switch module and a second switch module, wherein the first switch module is provided with a first end electrically connected with the second port and a second end, and the second switch module is provided with a first end electrically connected with the first port, a second end electrically connected with the third port and a third end electrically connected with the second end of the first switch module;

the wireless module is suitable for receiving a wireless control signal related to a remote control switching state and outputting a wireless switch signal related to the wireless control signal;

the regulation and control unit receives the wireless switch signal and detects a manual switching state of the external switch, the regulation and control unit can operate in a normal mode and an abnormal mode, and when any one of the remote control switching state and the manual switching state changes in the normal mode, the regulation and control unit controls the first switch module and the second switch module to enable the first power supply and the second power supply to be switched between a conducting state and an open circuit state;

the first switch module is controlled by the regulation and control unit to enable the first end of the first switch module to be electrically connected or not to be electrically connected with the second end of the first switch module, and the second switch module is controlled by the regulation and control unit to enable the second end of the second switch module to be electrically connected with one of the first end and the third end of the second switch module in a switching mode.

2. The wireless remote control switching device according to claim 1, wherein: the regulation and control unit controls the first switch module and the second switch module to enable one of the first path and the second path to be conducted or not conducted.

3. The wireless remote control switching device according to claim 2, wherein: the first port is suitable for being electrically connected with the external switch, the second port is suitable for being electrically connected with the first power supply, the regulation and control unit can control the first end of the first switch module to be electrically connected with the second end of the first switch module when the external switch is conducted according to the manual switching state in the normal mode, control the first end of the first switch module to be electrically connected with the second end of the first switch module when the external switch is not conducted, control the second end of the second switch module to be electrically connected with the other one of the first end and the third end of the second switch module when the remote control switching state is changed, and control the second end of the second switch module to be electrically connected with the first end of the second switch module in the abnormal mode.

4. The wireless remote control switching device according to claim 2, wherein: the first port is suitable for being electrically connected with the first power supply, the second port is suitable for being electrically connected with the external switch, the regulation and control unit controls the first end of the first switch module not to be electrically connected with the second end of the first switch module in the normal mode, and controls the second end of the second switch module to be electrically connected with the other one of the first end and the third end of the second switch module when any one of the remote control switching state and the manual switching state is changed, the regulation and control unit controls the first end of the first switch module to be electrically connected with the second end of the first switch module and the second end of the second switch module to be electrically connected with the third end of the second switch module in the abnormal mode.

5. The wireless remote control switching device according to claim 1, wherein: the regulation and control unit comprises a detection module and a processing module which is in signal connection with the wireless module and the detection module, wherein the detection module detects an electric signal of one end of the external switch opposite to the first power supply so as to output a sensing signal related to the manual switching state to the processing module.

6. A wireless remote control electric appliance is suitable for being detachably and electrically connected with an electric power unit to form a circuit, the electric power unit comprises an external switch, a first power supply electrically connected with the external switch, and a second power supply, the wireless remote control electric appliance comprises an electric appliance load electrically connected with the second power supply, and a wireless remote control switch device; the method is characterized in that:

the wireless remote control switch device as claimed in any one of claims 1 to 2, wherein one of the first port and the second port is adapted to be electrically connected to a terminal of the external switch opposite to the first power source, the other is adapted to be electrically connected to the first power source, and the third port is adapted to be electrically connected to a terminal of the electrical load opposite to the second power source.

7. The wireless remote control appliance according to claim 6, wherein: the first port is suitable for being electrically connected with the external switch, the second port is suitable for being electrically connected with the first power supply, the regulation and control unit can control the first end of the first switch module to be electrically connected with the second end of the first switch module when the external switch is conducted according to the manual switching state in the normal mode, control the first end of the first switch module to be electrically connected with the second end of the first switch module when the external switch is not conducted, control the second end of the second switch module to be electrically connected with the other one of the first end and the third end of the second switch module when the remote control switching state is changed, and control the second end of the second switch module to be electrically connected with the first end of the second switch module in the abnormal mode.

8. The wireless remote control appliance according to claim 6, wherein: the first port is suitable for being electrically connected with the first power supply, the second port is suitable for being electrically connected with the external switch, the regulation and control unit controls the first end of the first switch module not to be electrically connected with the second end of the first switch module in the normal mode, and controls the second end of the second switch module to be electrically connected with the other one of the first end and the third end of the second switch module when any one of the remote control switching state and the manual switching state is changed, the regulation and control unit controls the first end of the first switch module to be electrically connected with the second end of the first switch module and the second end of the second switch module to be electrically connected with the third end of the second switch module in the abnormal mode.

9. The wireless remote control appliance according to claim 6, wherein: the electric appliance load is one of an electric lamp and an electric fan.