CN214407569U - Split type environmental index monitoring and display terminal - Google Patents

Abstract

A split type environment index monitoring and displaying terminal relates to the technical field of environment index monitoring. The electronic ink screen receiving and displaying device is composed of a sensor data collecting unit, an electronic ink screen receiving and displaying unit and a low-power-consumption Bluetooth communication module, wherein the low-power-consumption Bluetooth communication module is arranged in the sensor data collecting unit and the electronic ink screen receiving and displaying unit, and the sensor data collecting unit is connected with the electronic ink screen receiving and displaying unit through the low-power-consumption Bluetooth communication module. It has integrated multiple indoor environment index monitoring sensor through the terminal body, and data acquisition unit and display element separation, because adopt wireless communication's mode to connect between the two, as long as in communication range, just can arbitrary deployment data acquisition unit and display element, the deployment flexibility is very high, and display element has adopted low-power consumption bluetooth and electron ink screen, once charges can the continuation of the journey several months, also very big reduction use the maintenance cost.

Description

Split type environmental index monitoring and display terminal

Technical Field

The utility model relates to an environmental index monitoring technology field, concretely relates to split type environmental index monitoring and display terminal's improvement.

Background

Environmental monitoring refers to the activities of environmental monitoring mechanisms to monitor and measure environmental quality conditions. The environmental monitoring is to monitor and measure the index reflecting the environmental quality to determine the environmental pollution condition and the environmental quality. The environment monitoring mainly comprises the monitoring of physical indexes, the monitoring of chemical indexes and the monitoring of an ecosystem. The environmental monitoring is a subject which uses modern scientific and technological means such as chemistry, physics, biology, medicine, remote measurement, remote sensing, computers and the like to monitor, determine and monitor various mark data reflecting environmental quality and change trend thereof, thereby comprehensively evaluating the environmental quality. Both the detection of chemical contaminants and the monitoring of contamination by physical (energy) factors such as noise, vibration, thermal energy, electromagnetic radiation and radioactivity; the method also comprises biological monitoring of various reflection and information tests sent by organisms due to the change of environmental quality, ecological monitoring for observing regional communities and population migration changes, and the like.

At present, the existing mode about monitoring indoor environmental indexes has the problems of single function, troublesome deployment and use and the like of monitoring equipment. The monitoring of the relevant indoor environmental indexes generally adopts a mode that personnel regularly go to the site to check and manually record, so that the labor cost is greatly increased, time is consumed, and the real-time performance is poor. Especially for the occasions such as museums and the like sensitive to the change of air indexes, the existing product using mode cannot guide personnel to take corresponding measures in time.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, a split type environmental index monitoring and display terminal is provided, it has integrateed multiple indoor environmental index monitoring sensor through the terminal body, and data acquisition unit and display element separation, because adopt wireless communication's mode to connect between the two, as long as in communication range, just can arbitrary arrangement data acquisition unit and display element, it is very high to arrange the flexibility, and display element has adopted bluetooth low energy and electron ink screen, once charge can continuation of the journey several months, also very big reduction use the maintenance cost.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the device comprises a sensor data acquisition unit 1, an electronic ink screen receiving and displaying unit 2 and a low-power consumption Bluetooth communication module 3, wherein the low-power consumption Bluetooth communication module 3 is arranged in each of the sensor data acquisition unit 1 and the electronic ink screen receiving and displaying unit 2, and the sensor data acquisition unit 1 is connected with the electronic ink screen receiving and displaying unit 2 through the low-power consumption Bluetooth communication module 3; the sensor data acquisition unit 1 comprises a microprocessor 11, an NB-IoT communication module 12, a power management module 13, a temperature and humidity sensor 14, a carbon dioxide sensor 15, a formaldehyde sensor 16, a volatile organic compound sensor 17 and a PM2.5/PM10 sensor 18, wherein the microprocessor 11 is electrically connected with the low-power Bluetooth module 3, the NB-IoT communication module 12, the power management module 13, the temperature and humidity sensor 14, the carbon dioxide sensor 15, the formaldehyde sensor 16, the volatile organic compound sensor 17 and the PM2.5/PM10 sensor 18 respectively; the electronic ink screen receiving and displaying unit 2 comprises an electronic ink screen 21, a system configuration switch 22, a power module 23, a battery charging and discharging management module 24 and a rechargeable battery 25, the low-power-consumption Bluetooth communication module 3 is electrically connected with the electronic ink screen 21, the system configuration switch 22 and the power module 23, the power module 23 is connected with the battery charging and discharging management module 24, and the battery charging and discharging management module 24 is connected with the rechargeable battery 25.

The sensor data acquisition unit 1 is connected with the cloud server 4 through an NB-IoT communication module 12. The data can be uploaded to the cloud server periodically, and the automation of collection, analysis and storage of the air quality data can be realized.

The cloud server 4 is connected with a large screen display 6, a smart phone 7 and a data center monitoring large screen 8 through the internet 5. And monitoring a plurality of environmental indexes in the area through a plurality of query modes.

The sensor data acquisition unit 1 is powered with a DC12V voltage. The power supply interface suitable for the voltage is more and more convenient.

The utility model discloses a theory of operation: the sensor data acquisition unit 1 and the electronic ink screen receiving and displaying unit 2 are internally provided with low-power-consumption Bluetooth communication modules 3, the sensor data acquisition unit 1 is connected with the electronic ink screen receiving and displaying unit 2 through the low-power-consumption Bluetooth communication modules 3, the microprocessor 11 is respectively and electrically connected with the low-power-consumption Bluetooth modules 3, the NB-IoT communication module 12, the power management module 13, the temperature and humidity sensor 14, the carbon dioxide sensor 15, the formaldehyde sensor 16, the volatile organic compound sensor 17 and the PM2.5/PM10 sensor 18, the low-power-consumption Bluetooth communication modules 3 are electrically connected with the electronic ink screen 21, the system configuration switch 22 and the power module 23, the power module 23 is connected with the battery charging and discharging management module 24, the battery charging and discharging management module 24 is connected with a rechargeable battery 25, and the sensor data acquisition unit 1 flexibly combines the temperature and humidity sensor 14, Carbon dioxide sensor 15, formaldehyde sensor 16, volatile organic compound sensor 17, multiple indoor environment index monitoring sensors such as PM2.5/PM10 sensor 18, realize the real-time supervision to multiple indoor environment index, and send to cloud ware 4 through NB-IoT communication module 12, send to the electron ink screen 21 through bluetooth low energy communication module 3 and show on showing simultaneously, electron ink screen receives display element 2 and adopts the electron ink screen 21 that has bluetooth low energy communication module 3, can receive the data that sensor data acquisition unit 1 sent in tens meters within range, the low-power design can realize once charging and last the use several months, greatly made things convenient for the deployment and the use of product.

After the technical scheme is adopted, the utility model discloses beneficial effect does: it has integrated multiple indoor environment index monitoring sensor through the terminal body, and data acquisition unit and display element separation, because adopt wireless communication's mode to connect between the two, as long as in communication range, just can arbitrary deployment data acquisition unit and display element, the deployment flexibility is very high, and display element has adopted low-power consumption bluetooth and electron ink screen, once charges can the continuation of the journey several months, also very big reduction use the maintenance cost.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a block diagram of the sensor data collecting unit 1 according to the present invention.

Fig. 3 is a block diagram of the electronic ink screen receiving display unit 2 according to the present invention.

Description of reference numerals: the system comprises a sensor data acquisition unit 1, a microprocessor 11, an NB-IoT communication module 12, a power management module 13, a temperature and humidity sensor 14, a carbon dioxide sensor 15, a formaldehyde sensor 16, a volatile organic compound sensor 17, a PM2.5/PM10 sensor 18, an electronic ink screen receiving and displaying unit 2, an electronic ink screen 21, a system configuration switch 22, a power module 23, a battery charging and discharging management module 24, a rechargeable battery 25, a low-power Bluetooth communication module 3, a cloud server 4, the Internet 5, a large-screen display 6, a smart phone 7 and a data center monitoring large screen 8.

Detailed Description

Referring to fig. 1 to fig. 3, the technical solution adopted by the present embodiment is: the device comprises a sensor data acquisition unit 1, an electronic ink screen receiving and displaying unit 2 and a low-power consumption Bluetooth communication module 3, wherein the low-power consumption Bluetooth communication module 3 is arranged in each of the sensor data acquisition unit 1 and the electronic ink screen receiving and displaying unit 2, and the sensor data acquisition unit 1 is connected with the electronic ink screen receiving and displaying unit 2 through the low-power consumption Bluetooth communication module 3; the sensor data acquisition unit 1 comprises a microprocessor 11, an NB-IoT communication module 12, a power management module 13, a temperature and humidity sensor 14, a carbon dioxide sensor 15, a formaldehyde sensor 16, a volatile organic compound sensor 17 and a PM2.5/PM10 sensor 18, wherein the microprocessor 11 is electrically connected with the low-power Bluetooth module 3, the NB-IoT communication module 12, the power management module 13, the temperature and humidity sensor 14, the carbon dioxide sensor 15, the formaldehyde sensor 16, the volatile organic compound sensor 17 and the PM2.5/PM10 sensor 18 respectively; the electronic ink screen receiving and displaying unit 2 comprises an electronic ink screen 21, a system configuration switch 22, a power module 23, a battery charging and discharging management module 24 and a rechargeable battery 25, the low-power-consumption Bluetooth communication module 3 is electrically connected with the electronic ink screen 21, the system configuration switch 22 and the power module 23, the power module 23 is connected with the battery charging and discharging management module 24, and the battery charging and discharging management module 24 is connected with the rechargeable battery 25.

The sensor data acquisition unit 1 is connected with the cloud server 4 through an NB-IoT communication module 12. The data can be uploaded to the cloud server periodically, and the automation of collection, analysis and storage of the air quality data can be realized.

The cloud server 4 is connected with a large screen display 6, a smart phone 7 and a data center monitoring large screen 8 through the internet 5. And monitoring a plurality of environmental indexes in the area through a plurality of query modes.

The sensor data acquisition unit 1 is powered with a DC12V voltage. The power supply interface suitable for the voltage is more and more convenient.

The utility model discloses a theory of operation: the sensor data acquisition unit 1 and the electronic ink screen receiving and displaying unit 2 are internally provided with low-power-consumption Bluetooth communication modules 3, the sensor data acquisition unit 1 is connected with the electronic ink screen receiving and displaying unit 2 through the low-power-consumption Bluetooth communication modules 3, the microprocessor 11 is respectively and electrically connected with the low-power-consumption Bluetooth modules 3, the NB-IoT communication module 12, the power management module 13, the temperature and humidity sensor 14, the carbon dioxide sensor 15, the formaldehyde sensor 16, the volatile organic compound sensor 17 and the PM2.5/PM10 sensor 18, the low-power-consumption Bluetooth communication modules 3 are electrically connected with the electronic ink screen 21, the system configuration switch 22 and the power module 23, the power module 23 is connected with the battery charging and discharging management module 24, the battery charging and discharging management module 24 is connected with a rechargeable battery 25, and the sensor data acquisition unit 1 flexibly combines the temperature and humidity sensor 14, Carbon dioxide sensor 15, formaldehyde sensor 16, volatile organic compound sensor 17, multiple indoor environment index monitoring sensors such as PM2.5/PM10 sensor 18, realize the real-time supervision to multiple indoor environment index, and send to cloud ware 4 through NB-IoT communication module 12, send to the electron ink screen 21 through bluetooth low energy communication module 3 and show on showing simultaneously, electron ink screen receives display element 2 and adopts the electron ink screen 21 that has bluetooth low energy communication module 3, can receive the data that sensor data acquisition unit 1 sent in tens meters within range, the low-power design can realize once charging and last the use several months, greatly made things convenient for the deployment and the use of product.

After the technical scheme is adopted, the utility model discloses beneficial effect does: it has integrated multiple indoor environment index monitoring sensor through the terminal body, and data acquisition unit and display element separation, because adopt wireless communication's mode to connect between the two, as long as in communication range, just can arbitrary deployment data acquisition unit and display element, the deployment flexibility is very high, and display element has adopted low-power consumption bluetooth and electron ink screen, once charges can the continuation of the journey several months, also very big reduction use the maintenance cost.

The above description is only for the purpose of illustrating the technical solutions of the present invention and not for the purpose of limiting the same, and other modifications or equivalent replacements made by those of ordinary skill in the art to the technical solutions of the present invention should be covered within the scope of the claims of the present invention as long as they do not depart from the spirit and scope of the technical solutions of the present invention.

Claims (4)

1. The utility model provides a split type environmental index monitoring and display terminal which characterized in that: the device comprises a sensor data acquisition unit (1), an electronic ink screen receiving and displaying unit (2) and a low-power-consumption Bluetooth communication module (3), wherein the sensor data acquisition unit (1) and the electronic ink screen receiving and displaying unit (2) are both internally provided with the low-power-consumption Bluetooth communication module (3), and the sensor data acquisition unit (1) is connected with the electronic ink screen receiving and displaying unit (2) through the low-power-consumption Bluetooth communication module (3); the sensor data acquisition unit (1) comprises a microprocessor (11), an NB-IoT communication module (12), a power management module (13), a temperature and humidity sensor (14), a carbon dioxide sensor (15), a formaldehyde sensor (16), a volatile organic compound sensor (17) and a PM2.5/PM10 sensor (18), wherein the microprocessor (11) is electrically connected with the low-power Bluetooth communication module (3), the NB-IoT communication module (12), the power management module (13), the temperature and humidity sensor (14), the carbon dioxide sensor (15), the formaldehyde sensor (16), the volatile organic compound sensor (17) and the PM2.5/PM10 sensor (18) respectively; the electronic ink screen receiving and displaying unit (2) comprises an electronic ink screen (21), a system configuration switch (22), a power module (23), a battery charging and discharging management module (24) and a rechargeable battery (25), the low-power-consumption Bluetooth communication module (3) is electrically connected with the electronic ink screen (21), the system configuration switch (22) and the power module (23), the power module (23) is connected with the battery charging and discharging management module (24), and the battery charging and discharging management module (24) is connected with the rechargeable battery (25).

2. The split-type environment index monitoring and displaying terminal according to claim 1, wherein: the sensor data acquisition unit (1) is connected with the cloud server (4) through the NB-IoT communication module (12).

3. The split-type environment index monitoring and displaying terminal according to claim 1, wherein: the cloud server (4) is connected with the large-screen display (6), the smart phone (7) and the data center monitoring large screen (8) through the internet (5).

4. The split-type environment index monitoring and displaying terminal according to claim 1, wherein: the sensor data acquisition unit (1) is powered by DC12V voltage.

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