CN112104070A - Intelligent power distribution system and intelligent control equipment - Google Patents

Abstract

An intelligent power distribution system is suitable for a mobile device and a plurality of household devices and comprises a cloud server, a plurality of HID relays and an intelligent controller. The intelligent controller is electrically connected with the HID relay to detect whether the operation state of the HID relay is conducted or not, so that a plurality of operation states of the relay and the corresponding household equipment are obtained, and the operation states are displayed on the mobile device through the cloud server. When the operation state of any one of the HID relay and the household equipment is to be changed through the mobile device, the cloud server receives a control instruction generated by the mobile device, so that the intelligent controller generates a corresponding control signal according to the control instruction to change the operation states of the HID relay and the household equipment.

Description

Intelligent power distribution system and intelligent control equipment

Technical Field

The invention relates to a power distribution system and control equipment, in particular to an intelligent power distribution system and intelligent control equipment for an HID relay.

Background

In a general home environment, an overload Circuit breaker (or an electrical leakage breaker) is usually used in a distribution board to control whether each loop is conducted, and a user can only manually switch a power switch (e.g., an additional design switch) on a wall of a home or switch a wall socket through the overload Circuit breaker to turn on or off a power supply state of the socket, that is, the user cannot immediately know the conduction status of each loop. On the other hand, along with the popularization of the network and the development of science and technology, the application of the smart home is also gradually paid attention to and popularized, however, the existing smart home is almost implemented by relying on the smart home appliances with the networking function, that is, the consumer only purchases new smart home appliances again to have the opportunity to experience the advantages of the smart home. Therefore, it is an important issue to have another system or device that can solve the above conventional problems.

Disclosure of Invention

The invention aims to provide an intelligent power distribution system and intelligent control equipment which are integrated with an HID relay.

Therefore, according to an aspect of the present invention, an intelligent power distribution system is provided, which is suitable for a mobile device, N home appliances and a commercial power, and includes a cloud server, N HID relays, and an intelligent controller. The cloud server is connected with the mobile device.

The N HID relays are respectively and electrically connected with the N household devices, and N is a positive integer. Each HID relay receives and operates between a conducting state and a non-conducting state according to a corresponding control signal. When the household appliance is operated in the conducting state, the operating current of the commercial power is provided for the corresponding household appliance, and the household appliance is started. When the household appliance is operated in the non-conducting state, the operating current of the commercial power is not provided for the corresponding household appliance, and the household appliance is turned off.

The intelligent controller is electrically connected with the N HID relays, is connected with the cloud server, and comprises a first transmission control module, N first sensing modules, N first trigger modules, a first expansion module and a first processing module.

The first transmission control module is used for establishing a connection with the cloud server so as to transmit and receive information. The N first sensing modules are respectively and electrically connected with the N HID relays to respectively detect that the N HID relays are operated in the conducting state or the non-conducting state, and then corresponding N state signals are generated. The N first trigger modules are respectively and electrically connected with the N HID relays and controlled to generate corresponding N control signals. The first expansion module is electrically connected with the N first sensing modules and the N first trigger modules.

The first processing module is electrically connected with the first transmission control module and the first expansion module, receives the N state signals through the first expansion module, obtains N operation states of the N HID relays and the N household devices, and displays the N operation states of the N HID relays and the N household devices through the first transmission control module and the cloud server.

When the operation state of any one of the HID relay and the household equipment is to be changed through the mobile device, the mobile device generates a corresponding control instruction, and the cloud server receives the control instruction and transmits the control instruction to the first processing module through the first transmission control module. The first processing module controls the corresponding first trigger module to generate the control signal through the first expansion module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

In some embodiments, each of the first sensing modules obtains that the HID relay operates in the conductive state or the non-conductive state by detecting the operating current provided by the corresponding HID relay to the household appliance. When the control signal generated by each first trigger module is one of a positive pulse signal and a negative pulse signal, the corresponding HID relay operates in the conducting state. When the control signal generated by each first trigger module is the other one of the positive pulse signal and the negative pulse signal, the corresponding HID relay operates in the non-conducting state.

In other implementation aspects, the intelligent power distribution system is further suitable for M household devices, and further comprises M HID relays and an extended controller. The M HID relays are respectively and electrically connected with the M household devices, and M is a positive integer. Each HID relay receives and operates between the conducting state and the non-conducting state according to the corresponding control signal. When the household appliance is operated in the conducting state, the operation current of the commercial power is provided for the corresponding household appliance, and the household appliance is started. When the household appliance is operated in the non-conducting state, the operating current of the commercial power is not provided for the corresponding household appliance, and the household appliance is turned off.

The expansion controller is electrically connected with the M HID relays and the intelligent controller and comprises M second sensing modules, M second trigger modules and second expansion modules. The M second sensing modules are respectively and electrically connected with the M HID relays to respectively detect that the M HID relays are operated in the conducting state or the non-conducting state, and then corresponding M state signals are generated. The M second trigger modules are respectively and electrically connected with the M HID relays and controlled to generate corresponding M control signals. The second expansion module is electrically connected with the M second sensing modules, the M second trigger modules and the first expansion module of the intelligent controller so as to transmit and receive the M state signals and the M control signals.

The first processing module of the intelligent controller receives the M state signals through the first expansion module and the second expansion module to obtain M operation states of the M HID relays and the M household devices, and displays the M operation states of the M HID relays and the M household devices through the first transmission control module and the cloud server. The first processing module further controls the corresponding first trigger module or the second trigger module to generate the control signal through the first extension module or the first extension module and the second extension module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

In other embodiments, the intelligent power distribution system is further adapted to a plurality of environment detectors and a plurality of actuators, and further comprises an alarm controller, wherein the alarm controller comprises a second transmission control module and a second processing module. The second transmission control module is connected with the environment detector, the actuator and the first transmission control module of the intelligent controller.

The second processing module is electrically connected with the second transmission control module, wherein when the environmental parameter detected by any one of the environment detectors reaches an alert condition, an alarm signal is generated. The second processing module receives the warning signal through the second transmission control module, controls the corresponding one of the actuators to operate according to which one of the environment detectors generates the warning signal, and displays a message that the environment parameter of the one of the environment detectors reaches the warning condition and the corresponding actuator is operated on the mobile device through the second transmission control module, the first transmission control module and the cloud server.

In some embodiments, any of the first transmission control module and the second transmission control module, the environment detector and the second transmission control module, and the actuator and the second transmission control module are connected by a wired network technology or a wireless network technology. The wired network technology includes any one of Ethernet (Ethernet) and Power line communication (Power line communication), and the wireless network technology includes any one of Bluetooth (Bluetooth), Zigbee (Zigbee), and Z-Wave.

Therefore, according to another aspect of the present invention, an intelligent control device is provided, which is suitable for a mobile device, N home appliances, a utility power, a cloud server connected to the mobile device, and N HID relays. The N HID relays are respectively and electrically connected with the N household devices, and N is a positive integer. Each HID relay receives and operates between a conducting state and a non-conducting state according to a corresponding control signal. When the household appliance is operated in the conducting state, the operating current of the commercial power is provided for the corresponding household appliance, and the household appliance is started. When the household appliance is operated in the non-conducting state, the operating current of the commercial power is not provided for the corresponding household appliance, and the household appliance is turned off.

The intelligent control equipment comprises an intelligent controller, wherein the intelligent controller is electrically connected with the N HID relays, is connected with the cloud server, and comprises a first transmission control module, N first sensing modules, N first triggering modules, a first expansion module and a first processing module.

The first transmission control module is used for establishing a connection with the cloud server so as to transmit and receive information. The N first sensing modules are respectively and electrically connected with the N HID relays to respectively detect that the N HID relays are operated in the conducting state or the non-conducting state, and then corresponding N state signals are generated. The N first trigger modules are respectively and electrically connected with the N HID relays and controlled to generate corresponding N control signals. The first expansion module is electrically connected with the N first sensing modules and the N first trigger modules.

The first processing module is electrically connected with the first transmission control module and the first expansion module, receives the N state signals through the first expansion module, obtains N operation states of the N HID relays and the N household devices, and displays the N operation states of the N HID relays and the N household devices through the first transmission control module and the cloud server.

When the operation state of any one of the HID relay and the household equipment is to be changed through the mobile device, the mobile device generates a corresponding control instruction. And the cloud server receives the control instruction and transmits the control instruction to the first processing module through the first transmission control module. The first processing module controls the corresponding first trigger module to generate the control signal through the first expansion module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

In some embodiments, each of the first sensing modules obtains that the HID relay operates in the conductive state or the non-conductive state by detecting the operating current provided by the corresponding HID relay to the household appliance. When the control signal generated by each first trigger module is one of a positive pulse signal and a negative pulse signal, the corresponding HID relay operates in the conducting state. When the control signal generated by each first trigger module is the other one of the positive pulse signal and the negative pulse signal, the corresponding HID relay operates in the non-conducting state.

In other implementation aspects, the intelligent control device is also suitable for M household devices and M HID relays. The M HID relays are respectively and electrically connected with the M household devices, and M is a positive integer. Each HID relay receives and operates between the conducting state and the non-conducting state according to the corresponding control signal. When the household appliance is operated in the conducting state, the operation current of the commercial power is provided for the corresponding household appliance, and the household appliance is started. When the household appliance is operated in the non-conducting state, the operating current of the commercial power is not provided for the corresponding household appliance, and the household appliance is turned off.

The intelligent control equipment further comprises an extension controller, wherein the extension controller is electrically connected with the M HID relays and the intelligent controller and comprises M second sensing modules, M second trigger modules and second extension modules.

The M second sensing modules are respectively and electrically connected with the M HID relays to respectively detect that the M HID relays are operated in the conducting state or the non-conducting state, and then corresponding M state signals are generated. The M second trigger modules are respectively and electrically connected with the M HID relays and controlled to generate corresponding M control signals. The second expansion module is electrically connected with the M second sensing modules, the M second trigger modules and the first expansion module of the intelligent controller so as to transmit and receive the M state signals and the M control signals.

The first processing module of the intelligent controller receives the M state signals through the first expansion module and the second expansion module to obtain M operation states of the M HID relays and the M household devices, and displays the M operation states of the M HID relays and the M household devices through the first transmission control module and the cloud server. The first processing module further controls the corresponding first trigger module or the second trigger module to generate the control signal through the first extension module or the first extension module and the second extension module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

The invention has the beneficial effects that: the intelligent controller respectively detects the conduction states of the N HID relays through the N first sensing modules so as to obtain the corresponding N state signals. And receiving the N state signals through the first expansion module by the first processing module to obtain the N operation states, and displaying the N operation states on the mobile device through the first transmission control module and the cloud server. In addition, the first processing module further receives the control instruction of the mobile device through the first transmission control module and the cloud server, so that the first expansion module controls the corresponding first trigger module to change the operating states of the corresponding HID relay and the household appliance. Therefore, a user can not only know the operation states of the N HID relays and the N household appliances at any time and in real time at the mobile device, but also experience the advantages of the smart home.

Drawings

FIG. 1 is a block diagram illustrating one embodiment of an intelligent power distribution system of the present invention; and

FIG. 2 is a block diagram illustrating an application aspect of an alarm controller of the embodiment.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and examples.

Before the present invention is described in detail, it should be noted that in the following description, like elements are represented by like reference numerals.

Referring to fig. 1 and 2, an embodiment of the intelligent power distribution system of the present invention is suitable for a user, a mobile device 9, N home appliances, M home appliances, a utility power 8, a plurality of environment detectors, and a plurality of actuators, and includes a cloud server 2, N HID relays, M HID relays, an intelligent control device 4, and an alarm controller 5. The intelligent control device 4 includes an intelligent controller 1 and an expansion controller 3. N and M are both positive integers. The HID Relay is, for example, WR6161K HID Relay manufactured by Pansonic, or other HID relays with similar functions and controls. The utility power 8 is, for example, 110 v ac voltage, and the mobile device 9 is, for example, a smart phone, a tablet computer, or other electronic equipment with networking function, but not limited thereto.

In the present embodiment, for convenience of illustration, only one first device 83, one second device 84, one first HID relay 81 and one second HID relay 82 are taken as the N home devices, the M home devices, the N HID relays and the M HID relays, respectively, for example, but in other embodiments, N and M may be other plural numbers. In addition, in the present embodiment, for the sake of convenience of description, only one carbon monoxide detector 71 and one gas detector 72, and one gas valve actuator 74 and one buzzer 73 are taken as examples of the environment detector and the actuator, respectively, and in other embodiments, the number of the environment detectors or the actuators may be a single number or other plural numbers.

The cloud server 2 is connected to the mobile device 9 and the intelligent controller 1 of the intelligent control device 4. For example, the cloud server 2, the mobile device 9 and the intelligent controller 1 support a wired network technology or a wireless network technology, such as any one of Ethernet (Ethernet), Power line communication (Power line communication) and Wi-Fi, but not limited thereto, as long as they can establish a connection with each other to transmit and receive information.

The N HID relays are respectively electrically connected with the N household devices, and each HID relay receives and operates between a conducting state and a non-conducting state according to a corresponding control signal. When operating in the conducting state, an operating current of the mains 8 is provided to the corresponding household appliance and the household appliance is started, and when operating in the non-conducting state, the operating current of the mains 8 is not provided to the corresponding household appliance and the household appliance is turned off. In the present embodiment, the first device 83 to which the first HID relay 81 is electrically connected is, for example, a ceiling fan, and an on-off switch for turning on or off the ceiling fan is provided on the wall, and the on-off switch is electrically connected to the first HID relay 81 via a wire provided in the wall. When the on-off switch is pressed, the control signal can be generated, so that the first HID relay 81 is switched between the conducting state and the non-conducting state, and the ceiling fan is correspondingly switched between the two operating states of starting and closing.

The intelligent controller 1 is electrically connected to the N HID relays (i.e., the first HID relay 81), and includes a first transmission control module 15, N first sensing modules, N first trigger modules, a first expansion module 12, and a first processing module 11. The first transmission control module 15 is used for establishing a connection with the cloud server 2, for example, supporting a wired network technology or a wireless network technology, so as to transmit and receive information. In the present embodiment, similarly, only one first sensing module 13 and one first triggering module 14 are exemplified as the N first sensing modules and the N first triggering modules, respectively.

The N first sensing modules are electrically connected to the N HID relays, respectively, to detect whether the N HID relays are operated in the on state or the off state, respectively, to generate corresponding N status signals, and are also electrically connected to the first expansion module 12. In this embodiment, the first sensing module 13 obtains that the first HID relay 81 operates in the conductive state or the non-conductive state by detecting the operating current provided by the corresponding first HID relay 81 to the first device 83. For example, the first sensing module 13 utilizes a pre-designed ac-to-dc rectifier circuit and Diode logic (Diode logic) to obtain the operating current, such as greater than zero or equal to zero, so as to sense the operating status of the first HID relay 81 in real time.

The N first trigger modules are respectively electrically connected to the N HID relays, and are controlled by the first processing module 11 to generate the corresponding N control signals, and are also electrically connected to the first expansion module 12. In this embodiment, the control signal generated by the first trigger module 14 is one of a positive pulse signal and a negative pulse signal, when the control signal is the positive pulse signal, the corresponding HID relay (i.e., the first HID relay 81) is operated in the conducting state, and when the control signal is the negative pulse signal, the corresponding HID relay (i.e., the first HID relay 81) is operated in the non-conducting state. In other embodiments, the positive pulse signal and the negative pulse signal may also correspond to the non-conducting state and the conducting state, respectively.

The first processing module 11 is electrically connected to the first transmission control module 15 and the first expansion module 12, and receives the N status signals from the N first sensing modules 13 through the first expansion module 12 to obtain the N operating statuses of the N HID relays and the N home devices, and displays the N operating statuses of the N HID relays and the N home devices on the mobile device 9 through the first transmission control module 15 and the cloud server 2. For example, when the on/off switch of the ceiling fan (i.e. the first device 83) is pressed to make the first HID relay 81 operate in the on state, the operating state indicates that the first HID relay 81 is on and the ceiling fan is turned on. Conversely, when the first HID relay 81 is operating in the non-conducting state, the operating state indicates that the first HID relay 81 is not conducting and the ceiling fan is off.

On the other hand, when the user wants to change the operation status of any one of the HID relay and the household appliance through the mobile device 9, the mobile device 9 generates a corresponding control command, for example, the user selects to turn on the ceiling fan (i.e., the first appliance 83) through the mobile device 9. Then, the cloud server 2 receives the control instruction from the mobile device 9 and transmits the control instruction to the first processing module 11 through the first transmission control module 15, and the first processing module 11 controls the corresponding first trigger module to generate the control signal through the first extension module 12 according to the control instruction, so as to change the operation states of the HID relay (i.e., the first HID relay 81) and the home appliance (i.e., the first appliance 83).

The following are to be added: the control signal may be from a switch corresponding to the household appliance, such as the on-off switch of the ceiling fan, or from the first trigger module 14 of the intelligent controller 1. Therefore, no matter the HID relay is pressed by the user or the control command is selected by the mobile device 9, the corresponding first sensing module 13 will detect and generate the corresponding status signal, which is displayed on the mobile device 9 for the user to view at any time and in real time.

The M HID relays are respectively and electrically connected with the M household devices, and the operation mode of any one of the M HID relays is the same as that of one of the N HID relays. In the present embodiment, the second device 84 to which the second HID relay 82 is electrically connected is, for example, a bathroom lighting fixture. The second device 84 is similar to the first device 83 and also has another on/off switch.

The expansion controller 3 is electrically connected to the M HID relays and the intelligent controller 1, and includes M second sensing modules, M second trigger modules, and a second expansion module 32. The M second sensing modules are respectively and electrically connected with the M HID relays to respectively detect that the M HID relays are operated in the conducting state or the non-conducting state, and then corresponding M state signals are generated. The M second trigger modules are respectively electrically connected with the M HID relays and controlled to generate the corresponding M control signals. The second expansion module 32 is electrically connected to the M second sensing modules, the M second trigger modules and the first expansion module 12 of the intelligent controller 1, so as to transmit and receive the M status signals and the M control signals. In the present embodiment, similarly, only one second sensing module 33 and one second triggering module 34 are exemplified as the M second sensing modules and the M second triggering modules, respectively.

More specifically, the second sensing module 33 operates in substantially the same manner as the first sensing module 13, except that: the status signal is transmitted to the first processing module 11 of the intelligent controller 1 through the second sensing module 33, the second expansion module 32 and the first expansion module 12, and further transmitted to the mobile device 9 through the first transmission control module 15 and the cloud server 2. The M control signals are transmitted to the second triggering module 34 through the mobile device 9, the cloud server 2, the first transmission control module 15, the first processing module 11, the first expansion module 12, and the second expansion module 32.

In the present embodiment, the second expansion module 32 of the expansion controller 3 and the first expansion module 12 of the intelligent controller are electrically connected by a solid flat cable, but not limited thereto. For example, the upper limit of the number of the HID relays that the intelligent controller 1 and the expansion controller 3 can be electrically connected to is 10 (i.e., N is 10), when the environment (such as a home or an office) in which the intelligent power distribution system is applied has 30 HID relays, the intelligent controller 1 and the two expansion controllers 3 may be electrically connected to form two second expansion modules 32 through the first expansion module 12 to respectively control the 30 HID relays, so as to achieve the flexible and modular expansion characteristics. In other words, in other embodiments, the intelligent control device may only include the intelligent controller 1, and the expansion controller 3 is omitted.

The alarm controller 5 includes a second transmission control module 52 and a second processing module 51. The second tcp module 52 establishes connection with the environment detectors (i.e. the co detector 71 and the gas detector 72), the actuators (i.e. the gas valve actuator 74 and the buzzer 73) and the first tcp module 15 of the intelligent controller 1. The connection between the second transmission control module 52 and the first transmission control module 15, between the second transmission control module 52 and the environment detector, and between the second transmission control module 52 and the actuator is implemented by using a wired network technology or a wireless network technology, the wired network technology includes any one of Ethernet (Ethernet) and Power line communication (Power line communication), and the wireless network technology includes any one of Bluetooth (Bluetooth), Zigbee (Zigbee) and Z-Wave, but not limited thereto.

The second processing module 51 is electrically connected to the second transmission control module 52. When an environmental parameter detected by any one of the environment detectors reaches a warning condition, an alarm signal is generated, the second processing module 51 receives the alarm signal through the second transmission control module 52, controls a corresponding one of the actuators to operate according to which one of the environment detectors generates the alarm signal, and displays the information that the environmental parameter of the corresponding one of the environment detectors reaches the warning condition and the corresponding actuator has operated on the mobile device 9 through the second transmission control module 52, the first transmission control module 15 and the cloud server 2.

For example, the gas detector 72 has a preset alarm threshold at the time of factory shipment, when detecting that the gas concentration of the environment (i.e., the environmental parameter) is greater than the alarm threshold (i.e., the alarm condition), that is, when the environmental parameter reaches the alarm condition, the second processing module 51 selectively controls the corresponding actuator to operate according to the environmental parameter, i.e., controls the gas valve actuator 74 to close the gas valve, and displays the message that the gas concentration is greater than the alarm threshold and the gas valve actuator 74 has closed the gas valve on the mobile device 9. Similarly, when the carbon monoxide detector 71 detects that the carbon monoxide concentration in the environment is greater than another alarm threshold, the second processing module 51 selectively controls the buzzer 73 to sound an alarm.

To sum up, the intelligent controller 1 respectively detects the N HID relays through the N first sensing modules to generate the N status signals. The first processing module 11 receives the N status signals through the first expansion module 12, and then the first transmission control module 15 and the cloud server 2 can display the N operating statuses on the mobile device 9. The first processing module 11 further receives the control instruction of the mobile device 9 through the first transmission control module 15 and the cloud server 2, so as to control the corresponding first trigger module to change the operating states of the HID relay and the home appliance through the first extension module 12. In addition, by the serial connection of the expansion controller 3 and the intelligent controller 1, a larger number of HID relays can be controlled, and further modular expansion performance is realized. Moreover, the alarm controller 5 and the intelligent controller 1 are combined, so that the user can immediately know whether the environment detector reaches the warning condition or not at the mobile device 9, and can control the corresponding actuator to immediately react and process, thereby achieving the purpose of the present invention.

It should be understood that the above description is only exemplary of the present invention, and should not be taken as limiting the scope of the invention, which is intended to cover all the modifications and equivalents of the claims and the specification.

Claims (8)

1. The utility model provides an intelligent power distribution system, is applicable to mobile device, N domestic equipment and commercial power, its characterized in that: the intelligent power distribution system includes:

the cloud server is connected with the mobile device;

the HID power supply comprises N HID relays and a power supply, wherein the N HID relays are respectively and electrically connected with the N household devices, N is a positive integer, each HID relay receives and operates between a conducting state and a non-conducting state according to a corresponding control signal, when the HID relay operates in the conducting state, the operating current of the mains supply is provided for the corresponding household device and starts the household device, and when the HID relay operates in the non-conducting state, the operating current of the mains supply is not provided for the corresponding household device and stops the household device; and

the intelligent controller is electrically connected with the N HID relays, establishes a connection line with the cloud server and comprises

A first transmission control module for establishing a connection with the cloud server to transmit and receive information,

n first sensing modules which are respectively and electrically connected with the N HID relays to respectively detect that the N HID relays are operated in the conducting state or the non-conducting state so as to generate corresponding N state signals,

n first trigger modules which are respectively and electrically connected with the N HID relays and controlled to generate corresponding N control signals,

a first expansion module electrically connected to the N first sensing modules and the N first trigger modules, and

a first processing module electrically connected to the first transmission control module and the first expansion module, and receiving the N status signals through the first expansion module to obtain N operating statuses of the N HID relays and the N household devices, and displaying the N operating statuses of the N HID relays and the N household devices on the mobile device through the first transmission control module and the cloud server,

when the operation state of any one of the HID relay and the household equipment is to be changed through the mobile device, the mobile device generates a corresponding control instruction, the cloud server receives the control instruction and transmits the control instruction to the first processing module through the first transmission control module, and the first processing module controls the corresponding first trigger module to generate the control signal through the first expansion module according to the control instruction so as to change the operation state of the HID relay and the household equipment.

2. The intelligent power distribution system of claim 1, wherein: each of the first sensing modules detects the operating current provided by the corresponding HID relay to the household appliance to obtain that the HID relay is operated in the conducting state or the non-conducting state, when the control signal generated by each of the first trigger modules is one of a positive pulse signal and a negative pulse signal, the corresponding HID relay is operated in the conducting state, and when the control signal generated by each of the first trigger modules is the other one of the positive pulse signal and the negative pulse signal, the corresponding HID relay is operated in the non-conducting state.

3. The intelligent power distribution system of claim 1, further adapted for M household devices, wherein: the intelligent power distribution system further comprises:

the M HID relays are respectively and electrically connected with the M household devices, M is a positive integer, each HID relay receives and operates between the conducting state and the non-conducting state according to the corresponding control signal, when the HID relay operates in the conducting state, the operating current of the mains supply is provided for the corresponding household device and starts the household device, and when the HID relay operates in the non-conducting state, the operating current of the mains supply is not provided for the corresponding household device and closes the household device; and

an expansion controller electrically connected to the M HID relays and the intelligent controller, and including

M second sensing modules which are respectively and electrically connected with the M HID relays to respectively detect that the M HID relays are operated in the conducting state or the non-conducting state so as to generate corresponding M state signals,

m second trigger modules which are respectively and electrically connected with the M HID relays and controlled to generate corresponding M control signals,

a second expansion module electrically connected to the M second sensing modules, the M second trigger modules and the first expansion module of the intelligent controller for transmitting and receiving the M status signals and the M control signals,

the first processing module of the intelligent controller further receives the M status signals through the first expansion module and the second expansion module to obtain M operating statuses of the M HID relays and the M home appliances, and further displays the M operating statuses of the M HID relays and the M home appliances on the mobile device through the first transmission control module and the cloud server,

the first processing module further controls the corresponding first trigger module or the second trigger module to generate the control signal through the first extension module or the first extension module and the second extension module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

4. The intelligent power distribution system of claim 1, further adapted for use with a plurality of environmental detectors and a plurality of actuators, wherein: the intelligent power distribution system further includes an alarm controller, the alarm controller including:

a second transmission control module connected to the environment detector, the actuator and the first transmission control module of the intelligent controller; and

a second processing module electrically connected to the second transmission control module, for generating a warning signal when the environmental parameter detected by any one of the environment detectors reaches a warning condition, the second processing module receiving the warning signal through the second transmission control module, controlling the corresponding one of the actuators according to which one of the environment detectors generates the warning signal, and displaying the information that the environmental parameter of the one of the environment detectors reaches the warning condition and the corresponding actuator has operated on the mobile device through the second transmission control module, the first transmission control module and the cloud server.

5. The intelligent power distribution system of claim 4, wherein: the connection mode between the first transmission control module and the second transmission control module, between the environment detector and the second transmission control module, and between the actuator and the second transmission control module is wired network technology or wireless network technology, the wired network technology comprises any one of Ethernet and power line communication, and the wireless network technology comprises any one of Bluetooth, Zigbee and Z-Wave.

6. The utility model provides an intelligent control equipment, be applicable to mobile device, N domestic appliance, commercial power, with the cloud end server and N HID relay of line are established to the mobile device, N HID relay electricity respectively connects N domestic appliance, and N is positive integer, each HID relay receives and operates between conducting state and non-conducting state according to corresponding control signal, when the operation is in during conducting state, provides the running current of commercial power for corresponding domestic appliance and start domestic appliance, when the operation is in during non-conducting state, does not provide the commercial power the running current for corresponding domestic appliance and close domestic appliance, its characterized in that: the intelligent control equipment contains intelligent control ware, intelligent control ware electricity is connected N HID relay to with the line is established to high in the clouds server, and includes:

the first transmission control module is used for establishing a connection with the cloud server so as to transmit and receive information;

the N first sensing modules are respectively and electrically connected with the N HID relays to respectively detect that the N HID relays are operated in the conducting state or the non-conducting state, and further generate corresponding N state signals;

the N first trigger modules are respectively and electrically connected with the N HID relays and controlled to generate corresponding N control signals;

the first extension module is electrically connected with the N first sensing modules and the N first trigger modules; and

a first processing module electrically connected to the first transmission control module and the first expansion module, and receiving the N status signals through the first expansion module to obtain N operating statuses of the N HID relays and the N household devices, and displaying the N operating statuses of the N HID relays and the N household devices on the mobile device through the first transmission control module and the cloud server,

when the operation state of any one of the HID relay and the household equipment is to be changed through the mobile device, the mobile device generates a corresponding control instruction, the cloud server receives the control instruction and transmits the control instruction to the first processing module through the first transmission control module, and the first processing module controls the corresponding first trigger module to generate the control signal through the first expansion module according to the control instruction so as to change the operation state of the HID relay and the household equipment.

7. The intelligent control device according to claim 6, wherein: each of the first sensing modules detects the operating current provided by the corresponding HID relay to the household appliance to obtain that the HID relay is operated in the conducting state or the non-conducting state, when the control signal generated by each of the first trigger modules is one of a positive pulse signal and a negative pulse signal, the corresponding HID relay is operated in the conducting state, and when the control signal generated by each of the first trigger modules is the other one of the positive pulse signal and the negative pulse signal, the corresponding HID relay is operated in the non-conducting state.

8. The intelligent control device according to claim 6, further adapted to M household devices and M HID relays, wherein the M HID relays are electrically connected to the M household devices respectively, M is a positive integer, each of the HID relays receives and operates between the conducting state and the non-conducting state according to the corresponding control signal, when operating in the conducting state, the operating current of the utility power is provided to the corresponding household device and the household device is started, and when operating in the non-conducting state, the operating current of the utility power is not provided to the corresponding household device and the household device is turned off, and the intelligent control device is characterized in that: the intelligent control equipment still includes the extension controller, the extension controller electricity is connected M HID relay reaches the intelligent control ware to include:

the M second sensing modules are respectively and electrically connected with the M HID relays to respectively detect that the M HID relays are operated in the conducting state or the non-conducting state, and then corresponding M state signals are generated;

the M second trigger modules are respectively and electrically connected with the M HID relays and controlled to generate corresponding M control signals; and

the second expansion module is electrically connected with the M second sensing modules, the M second trigger modules and the first expansion module of the intelligent controller so as to transmit and receive the M state signals and the M control signals;

the first processing module of the intelligent controller further receives the M status signals through the first expansion module and the second expansion module to obtain M operating statuses of the M HID relays and the M home appliances, and further displays the M operating statuses of the M HID relays and the M home appliances on the mobile device through the first transmission control module and the cloud server,

the first processing module further controls the corresponding first trigger module or the second trigger module to generate the control signal through the first extension module or the first extension module and the second extension module according to the control instruction so as to change the operation states of the HID relay and the household equipment.

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