DE212021000093U1 - Signal acquisition device for an energy environment monitoring system - Google Patents

Abstract

Signal acquisition device for a monitoring system of the energy environment, comprising a main processor and a communication module, characterized in that it further comprises a smoke sensor, an infrared sensor, a voltage sensor, a current sensor, a network sensor, a UPS monitoring module, a temperature and humidity sensor, a leakage and Submersible sensor, a monitoring module of the air conditioning system and a camera comprises;
wherein the smoke sensor is connected to the main processor and is used to output the detected smoke signal to the main processor;
and wherein the infrared sensor is connected to the main processor and is used to generate an electrical signal reflecting whether the activity of humans or animals is present and to transmit the electrical signal to the main processor;
and wherein the voltage sensor is connected to the main processor and is used to monitor the voltage of the power devices in the control room and to generate and transmit a signal to the main processor;
and wherein the current sensor is connected to the main processor and is used to monitor the current of the power devices in the control room and to generate and transmit a signal to the main processor;
and wherein the network sensor is connected to the main processor and is used to monitor the power network of the power devices in the control room and to generate and transmit a signal to the main processor;
and wherein the UPS monitoring module is connected to the main processor and is used to monitor the operation of UPS and to generate and transmit a signal to the main processor;
and wherein the temperature and humidity sensor is connected to the main processor and is used to monitor the ambient temperature and to generate and transmit a signal to the main processor;
and wherein the leakage and immersion sensor is connected to the main processor and used to monitor whether a water leak is occurring in the environment, and to generate a signal and transmit this to the main processor;
and wherein the monitoring module of the air conditioning system is connected to the main processor and is used to monitor the operation of the precise air conditioning system and to generate and transmit a signal to the main processor;
and wherein the camera is connected to the main processor and is used to monitor and record the environmental conditions of the control room and to generate and transmit a signal to the main processor;
and wherein the main processor processes all detected signals and transmits them to the communication module, and wherein the communication module is connected to an IoT gateway platform, and wherein the main processor outputs an information signal after the reading processing via the communication module, which via the IoT gateway with connected to the client.

Description

Technical area

The present utility model relates to the technical field of electronic equipment, in particular a signal acquisition device for a monitoring system of the energy environment.

State of the art

With the rapid development and deepening of IT information construction in various branches of modern society, the number of various engine control rooms is increasing. The control room is the center of all kinds of information. As a rule, various servers and minicomputers are placed in it, the physical environment of the control room is strictly controlled, and all existing control rooms require a monitoring system of the energy environment for data monitoring.

The energy environment monitoring system includes control devices and external devices. The control unit is a processor with a computing controller, the function of which is to compute data. The external device is a sensor of different types, and a transport controller is also arranged in the external device. At present, it is difficult for the signal acquisition device of the monitoring system of the energy environment to quickly transmit the signals of various sensors to the platform server of the monitoring system on the client. Because isolated devices and sensors in many control rooms do not have wireless network access capabilities, the user cannot get the data in a timely manner.

Content of the present utility model

The present utility model aims to provide a signal detection device for a monitoring system of the energy environment with regard to the problems outlined above, so that isolated devices and sensors in many control rooms have the ability to wirelessly network access, whereby the user can call up the data quickly.

In order to achieve the above aim, the present utility model uses the following technical solution: a signal detection device for a monitoring system of the energy environment, comprising a main processor and a communication module, which further comprises a smoke sensor, an infrared sensor, a voltage sensor, a current sensor, a network sensor UPS monitoring module comprises a temperature and humidity sensor, a leakage and immersion sensor, an air conditioner monitoring module and a camera, and each connected to the main processor;
and wherein the smoke sensor is used to output the detected smoke signal to the main processor; and wherein the infrared sensor is used to generate an electrical signal which reflects whether the activity of humans or animals is present and to transmit the electrical signal to the main processor; and wherein the voltage sensor is used to monitor the voltage of the power devices in the control room and to generate a signal and transmit it to the main processor; and wherein the current sensor is used to monitor the current of the power devices in the control room and to generate a signal and transmit it to the main processor; and wherein the network sensor is used to monitor the electrical network of the power devices in the control room and to generate a signal and transmit this to the main processor; and wherein the UPS monitoring module is used to monitor the operation of UPS and to generate a signal and transmit it to the main processor; and wherein the temperature and humidity sensor is used to monitor the ambient temperature and generate a signal and transmit this to the main processor; and wherein the leakage and immersion sensors are used to monitor whether a water leak is occurring in the environment and to generate a signal and to transmit this to the main processor; and wherein the monitoring module of the air conditioning system is used to monitor the operation of the precise air conditioning system and to generate a signal and transmit this to the main processor; and wherein the camera is used to monitor and record the environmental conditions of the control room and to generate a signal and to transmit this to the main processor;
and wherein the main processor processes all detected signals and transmits them to the communication module, and wherein the communication module is connected to a gateway platform of the Internet of Things (loT), and wherein the main processor sends an information signal after reading processing via the communication module that is connected to the client via the IoT gateway.

The main processor is preferably further connected to a power supply module, a clock module, a memory module, a touch screen and an input module, the power supply module being used to supply the main processor with power, and the clock module giving the main processor a clock function, and where the memory module is used to store the main processor's data and the touch screen is used to display the data content and the input module is used to enter the data.

Preferably, the communication module is a wireless ZigBee communication module or a wireless LoRa communication module and uses the LoRa or ZigBee communication protocol, the wireless ZigBee communication module using a CC1101 chip and the wireless LoRa communication module using an SX1276 chip.

Preferably the main processor uses an MSP430AFE233 chip.

The present utility model has the following advantages: the main processor according to the present utility model can detect the signals of the isolated devices and sensors in the control room, then the main processor outputs a signal via the communication module that is received by a loT gateway and the loT gateway can access the platform of the surveillance system, giving isolated devices and sensors the ability to wirelessly access the network; the loT gateway simultaneously supports the protocols of the RS485, RJ45 and CAN bus and can use the protocols to access the platform server of the monitoring system in order to transmit the data information of the respective devices and sensors to the platform of the monitoring system in good time, so that the user quickly collects the data for monitoring and management.

Figure list

• 1 shows a schematic representation of a system of the present utility model.

List of reference symbols

1

Main processor

2

Smoke sensor

3

Infrared sensor

4th

Voltage sensor

5

Current sensor

6th

Network sensor

7th

UPS monitoring module

8th

Temperature and humidity sensor

9

Leakage and immersion sensor

10

Air conditioning monitoring module

11

camera

12th

Communication module

13th

IoT gateway platform

14th

Client

15th

Power supply module

16

Clock module

17th

Memory module

18th

Touch screen

19th

Input module

Detailed embodiments

So that the person skilled in the art can better understand the technical solution of the present utility model, the present utility model is explained in more detail below in connection with figures.

As in 1 As shown, the specific structure of the present utility model is as follows: a signal detecting device for an energy environment monitoring system comprising a main processor 1 and a communication module 12th , where the main processor 1 uses an MSP430AFE233 chip, and where the signal collector continues to use a smoke sensor 2 , an infrared sensor 3 , a voltage sensor 4th , a current sensor 5 , a network sensor 6th , a UPS monitoring module 7th , a temperature and humidity sensor 8th , a leakage and immersion sensor 9 , an air conditioning monitoring module 10 and a camera 11 includes, each with the main processor 1 are connected;
and wherein the smoke sensor 2 is used to send the detected smoke signal to the main processor 1 to spend; and wherein the infrared sensor 3 is used to generate an electrical signal, which reflects whether the activity of humans or animals is present, and the electrical signal to the main processor 1 transferred to; and wherein the voltage sensor 4th is used to monitor the voltage of the power devices in the control room and to generate a signal and this to the main processor 1 transferred to; and wherein the current sensor 5 is used to monitor the current of the power devices in the control room and generate a signal and send it to the main processor 1 to transmit; and where the network sensor 6th is used to monitor the power network of the power devices in the control room and to generate a signal and this to the main processor 1 transferred to; and wherein the UPS monitoring module 7th is used to monitor the operation of UPS and generate a signal and send it to the main processor 1 transferred to; and wherein the temperature and humidity sensor 8th is used to monitor the ambient temperature and generate a signal and send it to the main processor 1 transferred to; and wherein the leakage and immersion sensor 9 can be used to monitor whether there is a water leak in the area and to generate a signal and send it to the main processor 1 transferred to; and wherein the monitoring module of the air conditioner 10 is used to monitor the operation of the precise air conditioning system and to generate a signal and send it to the main processor 1 transferred to; and being the camera 11 is used to monitor and record the environmental conditions of the control room and
generate a signal and send it to the main processor 1 transferred to; and where the main processor 1 processes all recorded signals and sends them to the communication module 12th transmits, and the communication module 12th with a loT gateway platform 13th connected, and where the main processor 1 an information signal after reading processing via the communication module 12th outputs that via the IoT gateway with the client 14th connected is. The IoT gateway supports the protocols of the RS485, RJ45 and CAN bus at the same time and can access the platform server of the monitoring system through the protocols in order to transmit the data information of the respective devices and sensors to the platform of the monitoring system in good time Realize monitoring and management. The present embodiment uses LoRa and ZigBee communication protocols to achieve wireless communication functions with low power consumption, and uses the wireless communication technology to realize communication with the surveillance system. The control circuit does not need to be connected to other devices via external wiring, so there is no need to consider the issues with surge protection and interface protection.

The main processor 1 is still with a power supply module 15th , a clock module 16 , a memory module 17th , a touch screen 18th and an input module 19th connected, the power supply module 15th used to do this is the main processor 1 to provide power, and taking the clock module 16 the main processor 1 gives a clock function, and wherein the memory module 17th is used to store the data from the main processor 1 to save, and taking the touch screen 18th is used to display the data content, and the input module 19th is used to enter the data, and where the communication module 12th a wireless ZigBee communication module 12th or a LoRa wireless communication module 12th and using the LoRa or ZigBee communication protocol, and where the ZigBee wireless communication module 12th a CC1101 chip and the LoRa wireless communication module 12th uses an SX1276 chip.

The main processor 1 In the present embodiment, the signals from the isolated devices and sensors in the control room can be detected, then the main processor 1 via the communication module 12th a signal that is received by an IoT gateway and the IoT gateway can access the platform of the surveillance system so that isolated devices and sensors have the ability to access the network wirelessly; the IoT gateway simultaneously supports the protocols of the RS485, RJ45 and CAN bus and can use the protocols to access the platform server of the monitoring system in order to transmit the data information of the respective devices and sensors to the platform of the monitoring system in good time, so that the user quickly collects the data for monitoring and management.

The above only relates to a preferred embodiment of the present utility model. If the improvements, changes or combinations or the concept and the technical solution of the utility model are used directly for other occasions without improvement, they should be regarded as covered by the scope of protection of the present utility model.

Claims (4)

Signal acquisition device for a monitoring system of the energy environment, comprising a main processor and a communication module, characterized in that it further comprises a smoke sensor, an infrared sensor, a voltage sensor, a current sensor, a network sensor, a UPS monitoring module, a temperature and humidity sensor, a leakage and Submersible sensor, a monitoring module of the air conditioning system and a camera comprises; wherein the smoke sensor is connected to the main processor and is used to output the detected smoke signal to the main processor; and wherein the infrared sensor is connected to the main processor and is used to generate an electrical signal reflecting whether the activity of humans or animals is present and to transmit the electrical signal to the main processor; and wherein the voltage sensor is connected to the main processor and is used to monitor the voltage of the power devices in the control room and to generate and transmit a signal to the main processor; and wherein the current sensor is connected to the main processor and is used to monitor the current of the power devices in the control room and to generate and transmit a signal to the main processor; and wherein the network sensor is connected to the main processor and is used to monitor the power network of the power devices in the control room and to generate and transmit a signal to the main processor; and wherein the UPS monitoring module is connected to the main processor and is used to monitor the operation of UPS and to generate and transmit a signal to the main processor; and wherein the temperature and humidity sensor is connected to the main processor and is used to monitor the ambient temperature and to generate and transmit a signal to the main processor; and wherein the leakage and immersion sensor is connected to the main processor and used to monitor whether a water leak is occurring in the environment, and to generate a signal and transmit this to the main processor; and wherein the monitoring module of the air conditioning system is connected to the main processor and is used to monitor the operation of the precise air conditioning system and to generate and transmit a signal to the main processor; and wherein the camera is connected to the main processor and is used to monitor and record the environmental conditions of the control room and to generate and transmit a signal to the main processor; and wherein the main processor processes all detected signals and transmits them to the communication module, and wherein the communication module is connected to an IoT gateway platform, and wherein the main processor outputs an information signal after the reading processing via the communication module, which via the IoT gateway with connected to the client. Signal acquisition device for an energy environment monitoring system Claim 1 , characterized in that the main processor is further connected to a power supply module, a clock module, a memory module, a touch screen and an input module, wherein the power supply module is used to supply the main processor with power, and wherein the clock module has a clock function for the main processor and wherein the memory module is used to store the data of the main processor, and wherein the touch screen is used to display the data content, and wherein the input module is used to enter the data. Signal acquisition device for an energy environment monitoring system Claim 1 , characterized in that the communication module is a ZigBee wireless communication module or a LoRa wireless communication module and uses the LoRa or ZigBee communication protocol, the ZigBee wireless communication module using a CC1101 chip and the LoRa wireless communication module using an SX1276 chip . Signal acquisition device for an energy environment monitoring system Claim 1 , characterized in that the main processor uses an MSP430AFE233 chip.

Images