阅读说明：本技术 一种墙壁式智能灯具控制开关 (Wall type intelligent lamp control switch ) 是由 闫广瑞 于 2020-12-28 设计创作，主要内容包括：本发明提供一种墙壁式智能灯具控制开关,属于灯控开关技术领域。所述的灯具控制开关包括远程控制模块和手动控制模块；所述远程控制模块包括移动终端、服务器、网关、通讯模块、处理器和继电器、电能监测模块,所述移动终端与服务器连接,服务器与网关连接,网关与通讯模块连接,通讯模块与处理器连接,处理器与电能监测模块和继电器连接；所述手动控制模块包括开关按钮、处理器、显示器和继电器,所述开关按钮、显示器和继电器均与处理器连接；所述开关按钮向处理器发出信号,处理器控制显示器和继电器动作。本申请能够实现远程以及手动对智能灯控开关的控制,有多种的工作模式可以选择,使用方便。(The invention provides a wall-mounted intelligent lamp control switch, and belongs to the technical field of lamp control switches. The lamp control switch comprises a remote control module and a manual control module; the remote control module comprises a mobile terminal, a server, a gateway, a communication module, a processor, a relay and an electric energy monitoring module, wherein the mobile terminal is connected with the server; the manual control module comprises a switch button, a processor, a display and a relay, and the switch button, the display and the relay are all connected with the processor; the switch button sends a signal to the processor, and the processor controls the action of the display and the relay. This application can realize long-range and manual control to intelligent lamp accuse switch, has multiple mode to select convenient to use.)

1. A wall-type intelligent lamp control switch is characterized by comprising a remote control module and a manual control module;

the remote control module comprises a mobile terminal, a server, a gateway, a communication module, a processor, a relay and an electric energy monitoring module, wherein the mobile terminal is connected with the server; the mobile terminal sends an instruction to the server, the server receives the instruction and then sends the instruction to the gateway, the gateway transmits the instruction to the processor through the communication module, and the processor controls the action of the relay;

the manual control module comprises a switch button, a processor, a display and a relay, and the switch button, the display and the relay are all connected with the processor; the switch button sends a signal to the processor, and the processor controls the action of the display and the relay.

2. A wall-mounted intelligent lamp control switch as claimed in claim 1, wherein the power monitoring module comprises a power metering chip, an optical coupling chip, a manganin sensor and a resistor series voltage divider circuit, the power metering chip is connected with the optical coupling chip, the power metering chip detects current through the manganin sensor, detects voltage through the resistor series voltage divider circuit, and obtains parameters of current and voltage through processing by the processor, and power parameter calculation and analysis are performed on the strong current circuit.

3. A wall-mounted intelligent lamp control switch as claimed in claim 2, wherein the electric energy metering chip adopts a BL6523B chip, the optical coupling chip adopts an NEC2501 chip, and the crystal oscillator Y1 adopts 3.570545 Mhz; the CF pin of the electric quantity metering chip is connected with the optical coupling chip U2, and CF is active power PWM output and represents the size of the active power; the pins V1P and V1N, V2P and V2N are respectively connected with a manganin sensor, and the pins V3P and V3N are connected with a resistor series voltage division circuit; V1P and V1N are a-channel current sensing, V2P and V2N are B-channel current sensing, and V3P and V3N are voltage channel sensing; the electric quantity metering chip U1 can obtain the comprehensive data of electric quantity in real time through the SPI interfaces SDO, SDI, SCK and CS.

4. A wall mountable intelligent lighting control switch as defined in any one of claims 1-3, wherein said remote control module processor controlled relay actuation comprises: open-relay open, line outage; closing-the relay is closed, and the circuit is communicated; delay opening-the relay is opened according to the set time, and the circuit is powered off; delay closing, namely closing the relay according to set time and connecting the lines.

5. A wall-mounted intelligent lamp control switch as claimed in claim 4, wherein after the mobile terminal sends a delayed on or delayed off command, the processor transmits the remaining action time and the data detected by the power monitoring module to the gateway through the communication module, and the gateway feeds back the data of the remaining action time to the mobile terminal through the server.

6. A wall mounted intelligent light control switch as defined in any of claims 1-3 or 5 wherein, in said remote control module, the power monitoring module, the processor, the relay and the communication module constitute control units, and a plurality of said control units are controlled by the programming switch; the mobile terminal sends an instruction to the server, the server receives the instruction and then sends the instruction to the gateway, the gateway transmits the instruction to the programming switch, and the programming switch controls the control units to act.

7. A wall mounted intelligent light control switch as in claim 6 wherein said manual control module, processor controlled relay action comprises: open-relay is open, line is cut off, display is white; and closing, namely closing the relay, connecting the lines and displaying blue on the display.

8. A wall-mounted intelligent lamp control switch as claimed in claim 7, wherein the mobile terminal is a smart phone or a palm computer.

9. A wall-mounted intelligent light control switch as defined in claim 8, wherein said processor is a HT6019 single-chip microcomputer.

Technical Field

The invention belongs to the technical field of lamp control switches, and particularly relates to a wall type intelligent lamp control switch.

Background

Most of lamp control switches in the market adopt a wired mechanical switch, a touch control switch and an inductive switch, or adopt a wireless remote control switch, an infrared remote control switch, a Bluetooth remote control switch and the like. The wired mechanical switch and the touch control switch have low cost, but the limitation of the switch position arrangement requires people to approach the manual touch control, and the flexibility is far from meeting the requirements of future intelligent systems; large-scale shopping malls, apartments, office buildings and other places have large area, the installation positions of switches are scattered, lamp control switches are difficult to manage, and some lamps which do not need to be used are powered on all the time, thereby wasting power resources and money; the office building has users who charge according to the needs, and it is difficult to measure the actual consumed electric quantity.

Disclosure of Invention

The invention provides a wall-mounted intelligent lamp control switch to solve the technical problem that an existing lamp control switch is inconvenient to manage.

In order to achieve the purpose, the technical solution of the invention is as follows:

a wall-type intelligent lamp control switch comprises a remote control module and a manual control module;

the remote control module comprises a mobile terminal, a server, a gateway, a communication module, a processor, a relay and an electric energy monitoring module, wherein the mobile terminal is connected with the server; the mobile terminal sends an instruction to the server, the server receives the instruction and then sends the instruction to the gateway, the gateway transmits the instruction to the processor through the communication module, and the processor controls the action of the relay;

the manual control module comprises a switch button, a processor, a display and a relay, and the switch button, the display and the relay are all connected with the processor; the switch button sends a signal to the processor, and the processor controls the action of the display and the relay.

Preferably, the electric energy monitoring module includes electric quantity measurement chip, opto-coupler chip, manganese copper sensor and resistance series voltage divider circuit, and the electric quantity measurement chip is connected with the optical coupling chip, the electric quantity measurement chip detects the electric current through the manganese copper sensor, detects voltage through resistance series voltage divider circuit, passes through the processing of treater again, obtains the parameter of electric current and voltage, carries out electric quantity parameter calculation and analysis to the forceful electric power return circuit.

Preferably, the electric energy metering chip adopts a BL6523B chip, the optical coupling chip adopts an NEC2501 chip, and the crystal oscillator Y1 adopts 3.570545 Mhz; the CF pin of the electric quantity metering chip is connected with the optical coupling chip U2, and CF is active power PWM output and represents the size of the active power; the pins V1P and V1N, V2P and V2N are respectively connected with a manganin sensor, and the pins V3P and V3N are connected with a resistor series voltage division circuit; V1P and V1N are a-channel current sensing, V2P and V2N are B-channel current sensing, and V3P and V3N are voltage channel sensing; the electric quantity metering chip U1 can obtain the comprehensive data of electric quantity in real time through the SPI interfaces SDO, SDI, SCK and CS.

Preferably, the action of the processor control relay in the remote control module comprises: open-relay open, line outage; closing-the relay is closed, and the circuit is communicated; delay opening-the relay is opened according to the set time, and the circuit is powered off; delay closing, namely closing the relay according to set time and connecting the lines.

Preferably, after the mobile terminal sends a delayed opening or delayed closing command, the processor transmits the remaining action time and data detected by the power monitoring module to the gateway through the communication module, and the gateway feeds back the data of the remaining action time to the mobile terminal through the server.

Preferably, in the remote control module, the electric energy monitoring module, the processor, the relay and the communication module form control units, and a plurality of the control units are controlled by a programming switch; the mobile terminal sends an instruction to the server, the server receives the instruction and then sends the instruction to the gateway, the gateway transmits the instruction to the programming switch, and the programming switch controls the control units to act.

Preferably, in the manual control module, the processor controlling the relay action includes: open-relay is open, line is cut off, display is white; and closing, namely closing the relay, connecting the lines and displaying blue on the display.

Preferably, the mobile terminal is a smart phone or a palm computer.

Preferably, the processor is an HT6019 singlechip.

The invention has the beneficial effects that:

1. the intelligent lamp control switch is simple in structure, safe and reliable, has the functions of detecting power utilization conditions, remotely controlling, powering on and off at regular time and the like, can effectively solve the problem of lamp control management, and reduces the time for turning on and off the lamp; the lamp control switch has a metering function and achieves intelligent supervision and control.

2. The invention has the advantages of reducing labor and electricity cost and reducing electric energy waste, and can meet the requirement of large-scale arrangement.

3. The invention has the advantages of exquisite design, simple and convenient installation and reduced construction cost by matching with the commonly used 86 x 86 boxes on the market.

Drawings

FIG. 1 is a schematic structural view of example 1.

Fig. 2 is a schematic structural diagram of the power detection module.

Fig. 3 is a schematic diagram of a voltage sampling structure.

Fig. 4 is a schematic diagram of a current sampling structure.

FIG. 5 is a schematic structural view of example 2.

Fig. 6 is a schematic structural diagram of a control unit in embodiment 2.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for descriptive purposes and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present invention, "a plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In addition, the technical solutions in the embodiments of the present invention may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination of technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Example 1

Referring to fig. 1 to 4, a wall-mounted intelligent lamp control switch includes a remote control module and a manual control module; the remote control module comprises a mobile terminal, a server, a gateway, a communication module, a processor, a relay and an electric energy monitoring module, wherein the mobile terminal is connected with the server; the mobile terminal sends an instruction to the server, the server receives the instruction and then sends the instruction to the gateway, the gateway transmits the instruction to the processor through the communication module, and the processor controls the action of the relay; the manual control module comprises a switch button, a processor, a display and a relay, and the switch button, the display and the relay are all connected with the processor; the switch button sends a signal to the processor, the processor controls the action of the display and the relay, and the display is an LED display.

The mobile terminal is a smart phone or a palm computer; the server is a cloud server; the gateway is a device for connecting the cloud server and the processor; the processor is an HT6019 singlechip. The mobile terminal is connected with the 4G communication gateway through the cloud server, the gateway is connected with the processor through the communication module, the 4G communication gateway is connected with the network, and the processor processes the instruction sent by the mobile terminal through the gateway, so that the function of remotely and intelligently controlling the switch device is achieved. The HT6019 single chip microcomputer is used as a core of a control switch, a gateway is connected with a network, a mobile phone or a palm computer is used as a remote control end, a server is used for remote data processing, a relay controls switch equipment, and an LED display is used as indication. The processor is used for judging the received signal to see whether the signal is a control signal or a connection signal, then judging the control signal to control the switch, displaying the switch state and feeding back the switch state to the mobile terminal. The relay is a magnetic latching relay, and the model is HFE 20-1. Normally, the open and closed states of the magnetic latching relay contacts are held by magnetic force generated by the permanent magnets. When the contact of the relay needs to be in an open or close state, the relay can instantly complete the switching state conversion only by exciting the coil by positive (negative) direct current pulse voltage.

Further, the electric energy monitoring module includes electric quantity measurement chip, opto-coupler chip, manganese copper sensor and resistance series voltage divider circuit, and the electric quantity measurement chip is connected with the optical coupling chip, the electric quantity measurement chip detects the electric current through the manganese copper sensor, detects voltage through resistance series voltage divider circuit, passes through the processing of treater again, obtains the parameter of electric current and voltage, carries out electric quantity parameter calculation and analysis to the forceful electric power return circuit. Preferably, the electric energy metering chip adopts a BL6523B chip, the optical coupling chip adopts an NEC2501 chip, and the crystal oscillator Y1 adopts 3.570545 Mhz; the CF pin of the electric quantity metering chip is connected with the optical coupling chip U2, and CF is active power PWM output and represents the size of the active power; the pins V1P and V1N, V2P and V2N are respectively connected with a manganin sensor, and the pins V3P and V3N are connected with a resistor series voltage division circuit; V1P and V1N are a-channel current sensing, V2P and V2N are B-channel current sensing, and V3P and V3N are voltage channel sensing; the electric quantity metering chip U1 can obtain the comprehensive data of electric quantity in real time through the SPI interfaces SDO, SDI, SCK and CS. The mobile terminal can display the detection data of the electric energy monitoring module.

The intelligent lamp control switch adopts the mechanical dimension structure of the existing switch so as to be suitable for the existing switch and carry out intelligent transformation on the existing switch.

When remote control, send the instruction to the server through mobile terminal, the server sends the instruction to the gateway, and the gateway receives signal transmission and gives the communication module of intelligent lamp accuse switch, and communication module gives the treater with the instruction transmission, and the action of treater control relay, specific action includes: open-relay open, line outage; closing-the relay is closed, and the circuit is communicated; delay opening-the relay is opened according to the set time, and the circuit is powered off; delay closing, namely closing the relay according to set time and connecting the lines. After the time for delayed opening or delayed closing is set by the mobile terminal, the mobile terminal sends a command, the processor transmits the residual action time and the data detected by the electric energy monitoring module to the gateway through the communication module, and the gateway feeds the data back to the mobile terminal through the server to check the latest information.

Specifically, the manual control module comprises a switch button, a processor, a display and a relay, and the switch button, the display and the relay are all connected with the processor; the switch button sends a signal to the processor, and the processor controls the action of the display and the relay. In the manual control module, the action of the processor control relay comprises: open-relay is open, line is cut off, display is white; and closing, namely closing the relay, connecting the lines and displaying blue on the display. The user need control the switch or when need not using mobile terminal to control the relay near the circumstances apart from intelligent switch, can use control button to control the relay, and then it is more convenient to use.

Example 2

The technical solution of this embodiment is substantially the same as that of embodiment 1, except that this embodiment further includes a programming switch. And the electric energy monitoring module, the processor, the relay and the communication module are used as a control unit, and the programming switch can control a plurality of control units.

Specifically, the mobile terminal sends an instruction to the server, the server receives the instruction and sends the instruction to the gateway, the gateway transmits the instruction to the programming switch, and the programming switch controls the control units to act.

The programming switch is a control unit which can control a plurality of different control units by editing the file. The control unit mainly comprises a processor, an electric energy monitoring module, a relay and a communication module, is directly connected to a live wire of the electric lamp and can control the on-off of the lamp according to a command.

The mobile terminal is connected with the gateway through the server, the gateway is connected with the programming switch, the programming switch is connected with the communication module of the control unit, the communication module of the control unit is connected with the processor of the control unit, and the processor controls the action of the relay.

The programming switch adopts the mechanical dimension structure of the existing switch, can be conveniently suitable for the existing switch, and carries out intelligent transformation on the existing switch.

When remote control, send the instruction to the server through mobile terminal, the server sends the instruction to the gateway, and the gateway receives signal transmission and gives programming switch, and programming switch receives the communication module who transmits for every the control unit after the signal, and every the control unit's communication module gives the treater to the instruction transmission again, and the action of treater control relay includes usually: open-relay open, line outage; closing-the relay is closed, and the circuit is communicated; delay opening, namely opening a relay according to set time, and cutting off the power of a line; and (4) delayed closing, namely closing the relay 2 according to set time, and connecting the lines. After the time for delayed opening or delayed closing is set by the mobile terminal, the mobile terminal sends a command, the processor transmits the residual action time and the data detected by the electric energy monitoring module to the gateway through the communication module, and the gateway transmits the data to the mobile terminal through the server to check the latest information.

In the case of a manual control module, the programming switch sends a signal to the processor via the communication module, typically including: turning on, namely turning on a relay, cutting off a circuit, and displaying white by an LED display; and (4) closing, namely closing the relay, connecting the lines and displaying blue color on the LED display.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.