CN209657117U - Multi-area intelligent electrical control system - Google Patents

Abstract

The utility model discloses a kind of multi-area intelligent electrical control system.Multi-area intelligent electrical control system includes a first control device group, one first lamp device group, one first bluetooth infrared thread control device group, a second control device group, one second lamp device group and one second bluetooth infrared thread control device group.Mobile device provides a Bluetooth control signal to server, one second communication path and the first bluetooth infrared thread control device group or the second bluetooth infrared thread control device group by first control device group or second control device group, to control an electrical equipment.

Description

Multi-area intelligent electrical control system

Technical field

The utility model relates to a kind of electrical control system more particularly to a kind of combination wire communication and wireless communications Multi-area intelligent electrical control system.

Background technique

Traditional electrical control system, is limited to different wireless communication agreement, power supply can not be provided suitably, can not allow not same district The electrical equipment control in domain achievees the purpose that be uniformly controlled and accurately control.

Therefore it provides the multi-area intelligent electrical control system of a kind of combination wire communication and wireless communication, it has also become One important topic of industry.

Utility model content

The technical problem to be solved by the utility model is to provide a kind of multi-area intelligent in view of the deficiencies of the prior art Electrical control system, which is characterized in that the multi-area intelligent electrical control system includes: a first control device group, packet Multiple first control devices are included, each first control device includes a sequence control module, a Bluetooth control module and a drive Dynamic model block, the sequence control module of each first control device are electrically connected the institute of each first control device State Bluetooth control module, wherein the multiple first control device is electrically connected to each other, the institute of each first control device State the drive module that sequence control module is electrically connected each first control device；One first lamp device group, It is arranged in a first area, first lamp device group includes multiple first lamp devices, each first lamps and lanterns dress It sets and is electrically connected one of the multiple first control device；One first bluetooth infrared thread control device group, including it is more A first bluetooth infrared thread control device, every one first bluetooth infrared thread control device are electrically connected the multiple first control dress One of set, wherein every one first bluetooth infrared thread control device provides one first infrared signal to control an electric appliance Equipment；One second control device group, including multiple second control devices, the multiple second control device electrically connect each other It connecing, each second control device includes a sequence control module, a Bluetooth control module and a drive module, and each described the The sequence control module of two control devices is electrically connected the Bluetooth control module of each second control device, In, the sequence control module of each second control device is electrically connected the drive of each second control device Dynamic model block, wherein described in one of the multiple second control device of the second control device group is electrically connected One of the multiple first control device of first control device group；One second lamp device group is arranged one Second area, second lamp device group include multiple second lamp devices, and each second lamp device electrically connects Connect one of the multiple second control device；And one second bluetooth infrared thread control device group, including multiple Two bluetooth infrared thread control devices, every one second bluetooth infrared thread control device are electrically connected the multiple second control device One of them, wherein every one second bluetooth infrared thread control device provides one second infrared signal and is set with controlling another electric appliance It is standby；Wherein, one server of communication connection is distinguished by the first control device group and the second control device group；Its In, the first area and the second area are different zones；Wherein, a mobile device provides a lamps and lanterns and controls signal to institute Server is stated, is at least controlled by one first communication path of the first control device group or the second control device group Make one of the multiple first lamp device of first lamp device group, second lamp device group One of the multiple second lamp device, the electrical equipment or another electrical equipment；Wherein, the mobile dress It sets and provides a Bluetooth control signal to the server, pass through the first control device group or the second control device group One second communication path of group and the first bluetooth infrared thread control device group or the second bluetooth infrared thread control device Group, to control another electrical equipment.

Preferably, the gateway apparatus that passes through transmits the control signal to the first control device group or described Second control device group.

Preferably, the server carries out communication connection by one first communications protocol and the gateway apparatus.

Preferably, first communications protocol includes a Wireless Fidelity communications protocol (Wi-Fi), a ZigBee communication agreement (Zigbee), a bluetooth communication agreement (Bluetooth), a LoRa communications protocol and a Sigfox communications protocol.

Preferably, the sequence control module of each first control device be a RS485 sequence control module or One RS232 sequence control module.

Preferably, each first control device using the respective sequence control module and other described first Control device is electrically connected, and each second control device utilizes the respective sequence control module and other institutes Second control device is stated to be electrically connected, one first the multiple first control device of blue-tooth device communication connection wherein it One of one Bluetooth control module or the multiple first bluetooth infrared thread control device.

Preferably, the multiple first bluetooth infrared thread control device of the first bluetooth infrared thread control device group It is to provide driving power by the corresponding the multiple first control device being electrically connected.

Preferably, the multiple first control device of the first control device group is respectively provided with a sequence numbering, The multiple respective sequence numbering of first control device is ranked up according to one first sequence, the multiple first control Device sequentially transmits signal, the multiple second control device point of the second control device group according to first sequence Not Ju You a sequence numbering, the respective sequence numbering of the multiple second control device arranged according to one second sequence Sequence, the multiple second control device sequentially transmit signal according to second sequence.

For the feature and technology contents that can be further understood that the utility model, please refer to below in connection with the utility model Detailed description and schema, however provided schema is merely provided for reference and description, is not used to add the utility model With limitation.

Detailed description of the invention

Fig. 1 is the schematic diagram of the multi-area intelligent electrical control system of the utility model first embodiment.

Fig. 2 is another schematic diagram of the multi-area intelligent electrical control system of the utility model second embodiment.

Fig. 3 is the schematic diagram of the first control device of the utility model embodiment.

Fig. 4 is that the part signal of first area is arranged in the multi-area intelligent electrical control system of the utility model embodiment Figure.

Fig. 5 is that another part of first area is arranged in the multi-area intelligent electrical control system of the utility model embodiment Schematic diagram.

Specific embodiment

It is the implementation illustrated by particular specific embodiment in relation to " lamp device " disclosed in the utility model below The advantages of mode, those skilled in the art can understand the utility model by content disclosed in this specification and effect.This is practical Novel to be implemented or be applied by other different specific embodiments, the various details in this specification may be based on difference Viewpoint and application, carry out various modifications and change under the design for not departing from the utility model.In addition, the attached drawing of the utility model It is only simple schematically illustrate, not according to the description of actual size, state in advance.The following embodiments and the accompanying drawings will be explained in further detail The relevant technologies content of the utility model, but disclosure of that is not to limit the protection scope of the utility model.

Although it is to be understood that may be retouched herein using to the terms such as " first ", " second ", " third " State various assemblies perhaps signal but these components or signal should not be limited by these terms.These terms mainly to Distinguish a component and another component or a signal and another signal.In addition, term "or" used herein, should regard reality Border situation, which may include, associated lists any of project or multiple combinations.

[first embodiment]

Referring to Fig. 1, Fig. 1 is the schematic diagram of the multi-area intelligent electrical control system of the utility model embodiment.Fig. 2 is Another schematic diagram of the multi-area intelligent electrical control system of the utility model embodiment.

In the present embodiment, multi-area intelligent electrical control system 1 includes a first control device group S1, one second control A device group S2 processed and third control device group S3.First control device group S1, second control device group S2 with And third control device group S3 is separately positioned on a first area A1, a second area A2 and a third region A3.First Region A1, second area A2 and third region A3 are different zones respectively.The quantity in region can carry out according to actual needs Adjusted design, in the present invention with no restrictions.

In the present embodiment, each control device group includes multiple control devices.Each control device has a sequence Number.And these sequence numberings can put in order according to one and be ranked up.As shown in Figure 1, putting in order is to shine each control The sequence numbering size of device processed arranges, in the present embodiment, even more with these control devices of annular arrangement.In other implementations In example, these control devices can be otherwise arranged, in the present invention with no restrictions.It further says, these controls Device sequentially transmits signal according to putting in order.

In the present embodiment, first control device group S1 includes multiple control device S1-1~S1-12, the multiple control Device S1-1~S1-12 processed passes through one first communication path P1 and one second communication path P2 respectively and carries out signal with different type Transmitting.Second control device group S2 includes multiple control device S2-1~S2-12, and the multiple control device S2-1~ S2-12 is also the transmitting for carrying out signal with different type by one first communication path P1 and one second communication path P2 respectively. Third control device group S3 includes multiple control device S3-1~S3-12, the multiple control device S3-1~S3-12 difference The transmitting of signal with different type is carried out by one first communication path P1 and one second communication path P2.Each control device group The quantity of control device in group can be adjusted design according to actual needs, in the present invention with no restrictions.

[second embodiment]

Referring to figure 2., Fig. 2 is another signal of the multi-area intelligent electrical control system of the utility model second embodiment Figure.

In the present embodiment, multi-area intelligent electrical control system 2 ' includes a first control device group S1 ', one second A control device group S2 ' and third control device group S3 '.In the present embodiment, first control device group S1 ', Two control device group S2 ' and third control device group S3 ' are to be separately positioned on a first area (not shown), one second Region (not shown) and a third region (not shown).First area (not shown), second area (not shown) and third Region (not shown) is respectively different zones.

In the present embodiment, first control device group S1 ' includes 5 first control device S1-1 '~S1-5 '.Second Control device group S2 ' includes 5 second control device S2-1 '~S2-5 '.Third control device group S3 ' includes 6 thirds Control device S3-1 '~S3-6 '.

Wherein, as described in the previous embodiments, first control device S1-1 '~S1-5 ' is electrically connected to each other.Second control dress S2-1 '~S2-5 ' is set to be electrically connected to each other.Third control device S3-1 '~S3-6 ' is electrically connected to each other.

In the present embodiment, multi-area intelligent electrical control system 1 ' further includes that (figure is not for one first lamp device group Show), one second lamp device group (not shown) and a third lamp device group (not shown).First lamp device group (not shown) includes the first lamp device T1-1 '~T1-4 '.Second lamp device group (not shown) includes the second lamp device T2-1 '~T2-4 '.Third lamp device group (not shown) includes third lamp device T3-1 '~T3-5 '.In the present embodiment In, the first lamp device T1-1 '~T1-4 ', the second lamp device T2-1 '~T2-4 ' and third lamp device T3-1 '~ T3-5 ' is LED lamp apparatus.But the first lamp device T1-1 '~T1-4 ', the second lamp device T2-1 '~ It does not include any direct current or AC driving circuit among T2-4 ' and third lamp device T3-1 '~T3-5 '.

In the present embodiment, first control device S1-1 '~S1-4 ' be electrically connected the first lamp device T1-1 '~ T1-4'.The second lamp device T2-1 '~T2-4 ' is electrically connected in second control device S2-1 '~S2-4 '.Third control dress It sets S3-1 '~S3-5 ' and third lamp device T3-1 '~T3-5 ' is electrically connected.

Namely first control device S1-5 ', second control device S2-5 ' and third control device S3-6 ' are without electricity Property connection lamp device.In the present embodiment, each control device can be electrically connected lamp device, bluetooth according to actual needs Infrared control module or other bluetooth equipments, in the present invention with no restrictions.

In the present embodiment, multi-area intelligent electrical control system 1 ' further includes one first bluetooth infrared thread control device group Group BR1 ', one second bluetooth infrared thread control device group BR2 ' and a third bluetooth infrared thread control device group BR3 '. In the present embodiment, the first bluetooth infrared thread control device group BR1 ', the second bluetooth infrared thread control device group BR2 ' with And third bluetooth infrared thread control device group BR3 ' respectively includes one first bluetooth infrared thread control device BR1-1 '~BR3- 1 ' and one second bluetooth infrared thread control device BR1-2 '~BR3-2 '.

In the present embodiment, the first bluetooth infrared thread control device group BR1 ', one second bluetooth infrared thread control device The first bluetooth infrared thread control device BR1-1 ' of group BR2 ' and a third bluetooth infrared thread control device group BR3 '~ BR3-1 ' and the second bluetooth infrared thread control device BR1-2 '~BR3-2 ' be electrically connected first control device S1-2 ', Second control device S2-2 ' and third control device S3-2 '.In the present embodiment, bluetooth infrared thread control device is to be used for After receiving Bluetooth control signal or control signal, Bluetooth control signal or control signal are converted into infrared control letter Number, to control the electrical equipment with infrared receiver module.

In the present embodiment, the first bluetooth infrared thread control device BR1-1 '~BR3-1 ' and the second bluetooth infrared line traffic control Device BR1-2 '~BR3-2 ' processed can provide one first infrared signal or one second infrared signal respectively to control one Electrical equipment (not shown).

Referring to figure 3., Fig. 3 is the schematic diagram of the first control device of the utility model embodiment.In the present embodiment, only With first control device S1-1 ' for example, the framework of other control systems is identical as first control device S1-1 ' as function, In It is repeated no more in the utility model.

In the present embodiment, first control device S1-1 ' includes a sequence control module S1-100 ', a Bluetooth control mould A block S1-101 ' and drive module S1-102 '.The sequence control module S1-100 ' of first control device S1-1 ' is electrically connected The Bluetooth control module S1-101 ' of first control device S1-1 '.The sequence control module S1-100 ' of first control device S1-1 ' It is electrically connected the drive module S1-102 ' of first control device S1-1 '.In the same manner, first control device S1-2 '~S1-5 ' Sequence control module (not shown) is electrically connected first control device S1-2 '~S1-5 ' Bluetooth control module (not shown).The One control device S1-2 '~S1-5 ' sequence control module (not shown) is electrically connected first control device S1-2 '~S1-5 ' Drive module (not shown).

In other embodiments, can Bluetooth control only be arranged with a control device in the control device in the same region Module (not shown), other control systems are not provided with Bluetooth control module.The namely mode of signal transmission, mainly with sequence control Molding block is transmitted.

In the same manner, second control device S2-1 '~S2-5 ' sequence control module (not shown) is electrically connected the second control Device S2-1 '~S2-5 ' Bluetooth control module (not shown).Second control device S2-1 '~S2-5 ' sequence control module (not shown) is electrically connected second control device S2-1 '~S2-5 ' drive module (not shown).Third control device S3-1 ' The sequence control module (not shown) of~S3-6 ' is electrically connected third control device S3-1 '~S3-6 ' Bluetooth control module (not shown).Third control device S3-1 '~S3-6 ' sequence control module (not shown) is electrically connected third control device S3-1 '~S3-6 ' drive module (not shown).

In the present embodiment, first control device group S1 ', second control device group S2 ' and third control device Group S3 ' passes through 2 ' communication connection of a gateway apparatus, one server 9 '.

It is, user can use one control signal of mobile device (not shown) transmission to server 9 '.Server 9 ' Control signal can be transmitted by gateway apparatus 2 ' to first control device group S1 ', second control device group S2 ' or the Three control device group S3 ', to control the first lamp device T1-1 '-T1-4 ', the second lamp device T2-1 '-T2-4 ', third One of lamp device T3-1 '-T3-5 ' and electrical equipment (not shown).

User also can use mobile device (not shown) transmission one Bluetooth control signal to the first bluetooth infrared line traffic control Device BR1-1 '~BR3-1 ' or the second bluetooth infrared thread control device BR1-2 '~BR3-2 ', passes through first control device group The sequence control module of group S1 ', second control device group S2 ' or third control device group S3 ' carry out signal transmitting, with Control the first lamp device T1-1 '-T1-4 ', the second lamp device T2-1 '-T2-4 ', third lamp device T3-1 '-T3-5 ' with And one of electrical equipment (not shown).It is, in the present embodiment, user can (figure be not across first area Show), second area (not shown) and third region (not shown) carry out electrical equipment control.

In the present embodiment, server 9 ' carries out communication connection by one first communications protocol and gateway apparatus 2 '.At this In embodiment, server 9 ' can be set in local side or be arranged in a long-range region, not do in the present invention Limitation.

In the present embodiment, the first communications protocol includes a Wireless Fidelity communications protocol (Wi-Fi), a ZigBee communication agreement (Zigbee), a bluetooth communication agreement (Bluetooth), a LoRa communications protocol and a Sigfox communications protocol, can root It is adjusted design according to actual demand, in the present invention with no restrictions.

In the present embodiment, the first lamp device T1-1 '-T1-4 ', the second lamp device T2-1 '-T2-4 ', third lamps and lanterns Device T3-1 '-T3-5 ' be respectively by first control device S1-1 '~S1-5 ', second control device S2-1 '~S2-5 ' with And third control device S3-1 '~S3-6 ' First ray communication path carries out signal transmitting.

First bluetooth infrared thread control device BR1-1 '~BR3-1 ' or the second bluetooth infrared thread control device BR1-2 ' ~BR3-2 ' is controlled by first control device S1-1 '~S1-5 ', second control device S2-1 '~S2-5 ' and third One second sequence communication path of device S3-1 '~S3-6 ' carries out signal transmitting.In the present embodiment, First ray communicates road Diameter and the second sequence communication path be first control device S1-1 '~S1-5 ', second control device S2-1 '~S2-5 ' and Different communication paths between the multiple sequence control module (not shown) of third control device S3-1 '~S3-6 '.It is, In the present embodiment, each first control device utilizes the sequence control of respective sequence control module and other first control devices Molding block is electrically connected.In the same manner, each second control device utilizes respective sequence control module and other second controls The sequence control module of device processed is electrically connected.Each third control device utilizes respective sequence control module and other The sequence control module of third control device is electrically connected.

In the present embodiment, first control device S1-1 '~S1-5 ', second control device S2-1 '~S2-5 ' and Three control device S3-1 '~S3-6 ' sequence control module can be a RS485 sequence control module or a RS232 sequence control Molding block.

In the present embodiment, the third control of the third control device group S3 ' of multi-area intelligent electrical control system 1 ' The bluetooth communication module of device S3-6 ' and one first blue-tooth device BT1 ' communication connection.Namely the first blue-tooth device BT1 ' is One independent blue-tooth device.In the present embodiment, the first blue-tooth device BT1 ' can be with the first bluetooth infrared thread control device BR3-1 ' or the second bluetooth infrared thread control device BR3-2 ' carries out communication connection with bluetooth communication agreement.In the same manner, if The distance between first bluetooth infrared thread control device BR3-1 ' and the second bluetooth infrared thread control device BR3-2 ' be less than or Equal to a predetermined wireless communication distance, the first bluetooth infrared thread control device BR3-1 ' and the second bluetooth infrared thread control device BR3-2 ' can be carried out the communication connection of wireless mode.If the first bluetooth infrared thread control device BR3-1 ' and second is blue The distance between tooth infrared control device BR3-2 ' is greater than predetermined wireless communication distance, the first bluetooth infrared thread control device Third control device S3-1 '~S3-6 ' can then be passed through between BR3-1 ' and the second bluetooth infrared thread control device BR3-2 ' Sequence control module (not shown) between one second sequence communication path carry out wired mode communication connection.

It is, if user needs the electrical equipment in third region (not shown) control first area (not shown). The first bluetooth infrared thread control device BR3- of third region (not shown) can be sent a control signal to using mobile device 1 ' or the second bluetooth infrared thread control device BR3-2 '.Then, control signal can pass through third control device S3-1 '~S3- One second sequence communication path between 6 ' sequence control module (not shown) is sent to the first of first area (not shown) The first control device S1-5 ' of control device group S1 '.Then, control signal can pass through first control device S1-1 '~S1- 5 ' sequence control device is sent to the first bluetooth infrared thread control device BR1-1 ' or second of first area (not shown) Bluetooth infrared thread control device BR1-2 ', so that the first bluetooth infrared thread control device BR1-1 ' or the second bluetooth infrared line traffic control Device BR1-2 ' processed is converted into infrared control signal for signal is controlled, to control corresponding electrical equipment.

In addition, in the present embodiment, first control device S1-5 ', the second control device of first control device group S1 ' The third control device S3-6 ' of the second control device S2-5 ' and third control device group S3 ' of group S2 ' can be electric respectively Property connection one first power supply (not shown), a second source (not shown) and a third power supply (not shown), to receive first Driving power required for control device group S1 ', second control device group S2 ' and third control device group S3 '.In In the present embodiment, the first control device S1-5 ' of first control device group S1 ' can use sequence control module and provide driving Power supply is to first control device S1-1 '~S1-4 '.The second control device S2-5 ' of second control device group S2 ' can also benefit Driving power is provided to second control device S2-1 '~S2-4 ' with sequence control module.The of third control device group S3 ' Three control device S3-6 ' are then that also can use sequence control module to provide driving power to third control device S3-1 '~S3- 5’。

In addition, in the present embodiment, the first bluetooth infrared thread control device BR1-1 '~BR3-1 ' or the second bluetooth are red Outer thread control device BR1-2 '~BR3-2 ' is then to be respectively by first control device S1-2 ', first control device S1-5 ', Two control device S2-2 ', second control device S2-5 ' and third control device S3-2 ' provide driving power.It is, the Multiple first bluetooth infrared thread control devices of one bluetooth infrared thread control device group BR ' are by the multiple of corresponding electric connection First control device provides driving power.

Referring to figure 4. and Fig. 5, Fig. 4 be the utility model embodiment multi-area intelligent electrical control system setting exist The partial schematic diagram of first area.Fig. 5 is that the multi-area intelligent electrical control system of the utility model embodiment is arranged first Another part schematic diagram in region.

It is then in first area shown in Fig. 4, user provides control signal to the first bluetooth infrared line traffic control using mobile device Device BR1-1 ' processed or the second bluetooth infrared thread control device BR1-2 ', with to the electrical equipment E1-E5 in first area into Row control.In Fig. 5, the first bluetooth infrared thread control device BR1-1 ' or the second bluetooth infrared thread control device BR1-2 ' are logical The the second sequence communication path SW2 for crossing first control device S1-1 '~S1-5 ' sequence control module carries out signal transmitting.In In Fig. 5, the first bluetooth infrared thread control device BR1-1 ' or the second bluetooth infrared thread control device BR1-2 ' can also pass through The communication connection of wireless mode carries out signal transmitting.

It is in first area shown in Fig. 5, the control signal of the first lamp device T1-1 '-T1-5 ' passes through first control device The schematic diagram that the First ray communication path SW1 of S1-1 '~S1-5 ' sequence control module is transmitted.

In the present embodiment, electrical equipment E1-E5 is the electric appliance for including infrared control module, it is, electrical equipment E1-E5 can receive the first bluetooth infrared line traffic control module BR1-1 ' or the second bluetooth infrared line traffic control module BR1-2 ' and issue Infrared control signal, to be adjusted, operate.

[beneficial effect of embodiment]

A wherein beneficial effect of the utility model is: multi-area intelligent electrical control system passes through each control device In sequence control module and Bluetooth control module, multiple bluetooth infrared thread control devices of arranging in pairs or groups, and with different sequences communication Path carries out signal transmitting, improves communication efficiency and reduces signal interference, but also can pass through trans-regional wired mode Or the signal transmitting of wireless mode, to rapidly reach the purpose of electrical equipment control.

Content disclosed above is only the preferred possible embodiments of the utility model, not thereby limits to the utility model Claim, so it is all done with the utility model specification and schema content equivalence techniques variation, wrap In claim contained in the utility model.

Claims (8)

1. a kind of multi-area intelligent electrical control system, which is characterized in that the multi-area intelligent electrical control system includes:

One first control device group, including multiple first control devices, each first control device include that a sequence controls mould The sequence control module of block, a Bluetooth control module and a drive module, each first control device electrically connects Connect the Bluetooth control module of each first control device, wherein the multiple first control device electrically connects each other It connects, the sequence control module of each first control device is electrically connected the drive of each first control device Dynamic model block；

One first lamp device group is arranged in a first area, and first lamp device group includes multiple first lamps and lanterns Device, each first lamp device are electrically connected one of the multiple first control device；

One first bluetooth infrared thread control device group, including multiple first bluetooth infrared thread control devices, every one first bluetooth Infrared control device is electrically connected one of the multiple first control device, wherein every one first bluetooth infrared line Control device provides one first infrared signal to control an electrical equipment；

One second control device group, including multiple second control devices, the multiple second control device are electrically connected to each other, Each second control device include a sequence control module, a Bluetooth control module and a drive module, each described second The sequence control module of control device is electrically connected the Bluetooth control module of each second control device, In, the sequence control module of each second control device is electrically connected the drive of each second control device Dynamic model block, wherein described in one of the multiple second control device of the second control device group is electrically connected One of the multiple first control device of first control device group；

One second lamp device group is arranged in a second area, and second lamp device group includes multiple second lamps and lanterns Device, each second lamp device are electrically connected one of the multiple second control device；And

One second bluetooth infrared thread control device group, including multiple second bluetooth infrared thread control devices, every one second bluetooth Infrared control device is electrically connected one of the multiple second control device, wherein every one second bluetooth infrared line Control device provides one second infrared signal to control another electrical equipment；

Wherein, one server of communication connection is distinguished by the first control device group and the second control device group；

Wherein, the first area and the second area are different zones；

Wherein, a mobile device provides a lamps and lanterns and controls signal to the server, by the first control device group or One first communication path of the second control device group at least controls the multiple the of first lamp device group One of one lamp device, one of the multiple second lamp device of second lamp device group, institute State electrical equipment or another electrical equipment；

Wherein, the mobile device provides a Bluetooth control signal to the server, passes through the first control device group Or one second communication path and the first bluetooth infrared thread control device group or of the second control device group Two bluetooth infrared thread control device groups, to control another electrical equipment.

2. multi-area intelligent electrical control system as described in claim 1, which is characterized in that described to pass through gateway apparatus biography Send the control signal to the first control device group or the second control device group.

3. multi-area intelligent electrical control system as claimed in claim 2, which is characterized in that the server passes through one first Communications protocol and the gateway apparatus carry out communication connection.

4. multi-area intelligent electrical control system as claimed in claim 3, which is characterized in that first communications protocol includes One Wireless Fidelity communications protocol, a ZigBee communication agreement, a bluetooth communication agreement, a LoRa communications protocol and a Sigfox are logical Interrogate agreement.

5. multi-area intelligent electrical control system as described in claim 1, which is characterized in that each first control device The sequence control module be a RS485 sequence control module or a RS232 sequence control module.

6. multi-area intelligent electrical control system as described in claim 1, which is characterized in that each first control device It is electrically connected using the respective sequence control module with first control device described in other, each second control Device processed is electrically connected using the respective sequence control module with second control device described in other, and one first is blue The Bluetooth control module of one of the multiple first control device of tooth device communication connection or the multiple first One of bluetooth infrared thread control device.

7. multi-area intelligent electrical control system as described in claim 1, which is characterized in that the first bluetooth infrared line traffic control The multiple first bluetooth infrared thread control device of device group processed is by corresponding the multiple first control being electrically connected Device provides driving power.

8. multi-area intelligent electrical control system as claimed in claim 5, which is characterized in that the first control device group The multiple first control device be respectively provided with a sequence numbering, the multiple respective serial number of first control device Code is ranked up according to one first sequence, and the multiple first control device sequentially transmits signal according to first sequence, institute The multiple second control device for stating second control device group is respectively provided with a sequence numbering, the multiple second control dress It sets the respective sequence numbering to be ranked up according to one second sequence, the multiple second control device is suitable according to described second Sequence sequentially transmits signal.