CN209745914U - CO real-time monitoring management system based on wireless and wired transmission - Google Patents

Abstract

A CO real-time monitoring and management system based on wireless and wired transmission relates to the technical field of monitoring and management systems. A CO real-time monitoring and management system based on wireless and wired transmission comprises a field detection module, a collection and transmission module, a calculation center, a wireless transmission relay box, a KHD-BK200 alarm, a wired transmission relay box, a KHD-BD200 alarm, a porphyry collection module, a router, an upper computer, the Internet, a network server and a mobile phone, wherein the field detection module is electrically connected with the collection and transmission module, the collection and transmission module is in signal connection with the calculation center, the wired transmission relay box is electrically connected with the KHD-BK200 alarm, one end of the router is electrically connected with the upper computer, and the network server is in signal connection with the mobile phone. After the technical scheme is adopted, the beneficial effects of the utility model are that: the device has the advantages of reasonable design, low power consumption, low cost, high detection precision and the like, and has high popularization and application values.

Description

CO real-time monitoring management system based on wireless and wired transmission

Technical Field

The utility model relates to a detect management system technical field, concretely relates to CO real-time supervision management system based on wireless, wired transmission.

Background

The CO gas is colorless, tasteless and toxic to human bodies, and after entering the human bodies, the CO gas can be combined with hemoglobin in blood, so that the oxygen carrying capacity of blood cells is reduced, the analysis and release of the oxygen hemoglobin are inhibited and delayed, the necrosis of organism tissues caused by oxygen deficiency is caused, and serious people can endanger the life of people. In industrial production, the alarm of CO concentration also has repeatability and multiplicity. At present, a CO detection alarm management system in the market can realize CO concentration monitoring, but some problems still exist, for example, an upper computer collects information to display alarm, but workers cannot timely inform field workers. The long-distance and dispersive CO alarm information cannot be collected, and the alarm can be only carried out at a site detection instrument. The field personnel and safety management personnel are inconvenient to joint defense, so that accident potential can not be timely handled, and accidents are avoided. However, with the popularization of smart phones, the development of the internet of things enters a new stage, and a plurality of practical applications based on sensor technology and smart devices appear; by means of the mobile internet and the mobile communication technology, workers can acquire data collected by the CO sensor at any time and any place through a mobile phone, and therefore remote observation and prevention are achieved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to prior art's defect and not enough, provide a CO real-time supervision management system based on wireless, wired transmission, its reasonable in design compares in traditional CO concentration detection alarm, adopts KHD series sensor, and its low power dissipation is with low costs, and it is higher to detect the precision, and the circuit is simple reliable. The method has the advantages that the remote alarm information inquiry is realized by adopting the mobile phone equipment which is very familiar to people, so that the problem that computer monitoring personnel and field operating personnel cannot report the CO concentration alarm in time is solved, and the safety of the operating personnel is ensured; can be applied to any industrial production unit to be monitored by CO, and has high popularization and application values.

In order to achieve the above purpose, the utility model adopts the following technical scheme: it comprises an on-site detection module 1, an acquisition and transmission module 2, a calculation center 3, a wireless transmission relay box 4, a KHD-BK200 alarm 41, a wired transmission relay box 5, a KHD-BD200 alarm 51, a porphyry acquisition module 6, a router 7, an upper computer 8, an internet 9, a network server 10 and a mobile phone 11, wherein the on-site detection module 1 is electrically connected with the acquisition and transmission module 2, the acquisition and transmission module 2 is in signal connection with the calculation center 3, one side of the wireless transmission relay box 4 is connected with the wired transmission relay box 5, the wireless transmission relay box 4 is electrically connected with the KHD-BD200 alarm 41, the wired transmission relay box 5 is electrically connected with the KHD-BK200 alarm 51, the porphyry acquisition module 6 is electrically connected with the wireless transmission relay box 4 and the wired transmission relay box 5, the porphyry acquisition module 6 is electrically connected with the router 7, one end of the router 7 is electrically connected with the upper computer 8, the router 7 is connected with the internet 9 in a communication way, and the network server 10 is connected with the mobile phone 11 in a signal way.

The wireless transmission relay box 4 and the wired transmission relay box 5 are connected through a double-core shielded cable.

The on-site detection module 1 consists of a single chip microcomputer, a CO sensor module and an audible and visual alarm module, wherein the single chip microcomputer is an MSP430F149 single chip microcomputer, the CO sensor module is a KHD series gas sensor, and the audible and visual alarm module adopts an LED and a buzzer.

The wireless transmission relay box 4 and the wired transmission relay box 5 form an acquisition transmission module 2.

The KHD-BD200 alarm 41 and the KHD-BK200 alarm 51 are both provided with two.

The utility model discloses a theory of operation: the wireless transmission relay box is used as a wireless transmission network of the acquisition center, and can transmit single acquisition point data and multi-acquisition point data. When the positions of the acquisition points are relatively concentrated, the wired transmission network taking the wired transmission relay box as a center can be used, and the wired transmission relay box can be connected with a plurality of acquisition monitoring points through cables. The porphyry acquisition module reports acquired data to an upper computer through a router, the upper computer stores and processes the acquired data through KHD series CO real-time monitoring software, and audible and visual alarm is carried out on alarm data. And storing the alarm information record to prompt monitoring personnel to process in time. The upper computer sends the acquired data to the network to ensure real-time updating. And each operator checks the real-time alarm information of the region by using the mobile phone application program. Before entering a dangerous area, an operator can check whether the CO concentration in the area is safe or not, so that dangerous accidents caused by the fact that monitoring personnel cannot inform the area in time are avoided.

After the technical scheme is adopted, the utility model discloses beneficial effect does: its reasonable in design compares in traditional CO concentration detection alarm, adopts KHD series sensor, and its low power dissipation, with low costs, it is higher to detect the precision, and the circuit is simple reliable. The method has the advantages that the remote alarm information inquiry is realized by adopting the mobile phone equipment which is very familiar to people, so that the problem that computer monitoring personnel and field operating personnel cannot report the CO concentration alarm in time is solved, and the safety of the operating personnel is ensured; can be applied to any industrial production unit to be monitored by CO, and has high popularization and application values.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 inventive exercise.

FIG. 1 is a schematic block diagram of the present invention;

Fig. 2 is a working principle diagram of the present invention.

Description of reference numerals: the system comprises a field detection module 1, an acquisition transmission module 2, a calculation center 3, a wireless transmission relay box 4, a KHD-BD200 alarm 41, a wired transmission relay box 5, a KHD-BK200 alarm 51, a porphyry acquisition module 6, a router 7, an upper computer 8, the Internet 9, a network server 10 and a mobile phone 11.

Detailed Description

Referring to fig. 1 to 2, the technical solution adopted by the present embodiment is: the system consists of an on-site detection module 1, an acquisition and transmission module 2, a calculation center 3, a wireless transmission relay box 4, a KHD-BK200 alarm 41, a wired transmission relay box 5, a KHD-BD200 alarm 51, a porphyry acquisition module 6, a router 7, an upper computer 8, the Internet 9, a network server 10 and a mobile phone 11, wherein the on-site detection module 1 is electrically connected with the acquisition and transmission module 2, the acquisition and transmission module 2 is in signal connection with the calculation center 3, one end of the wireless transmission relay box 4 is connected with the KHD-BK200 alarm 41, the wireless transmission relay box 4 is also connected with the wired transmission relay box 5, one end of the wired transmission relay box 5 is connected with the KHD-BD200 alarm 51, one end of the porphyry acquisition module 6 is connected with the wireless transmission relay box 4 and the wired transmission relay box 5, the other end of the firework acquisition module 6 is connected with the router 7, the upper computer 8 is connected with the router 7, the internet 9 is in signal connection with a network server 10, and the network server 10 is in signal connection with a mobile phone 11. The acquisition transmission module 2 acquires and uploads the CO concentration value of the gas sensor to the computer center 3 through a wireless module in the wireless transmission relay box 4 and a wired module of the wired transmission relay box 5, the wireless module adopts an H7210 industrial-grade universal wireless data terminal, and the wired module adopts Mohua Adam 4571/1. Computer center 3 part: the computer adopts the Industrial computer IPC-610F of the research, and the computer has stable operation and strong calculation and storage functions. The software is CO concentration monitoring management software which is autonomously developed by KHD. The software can display the acquired data in real time, generate a real-time curve and store the real-time curve. The alarm information is subjected to sound-light alarm on the computer to remind monitoring personnel to process in time, and the system is connected with the server to ensure real-time data updating. The mobile phone application program is installed on the mobile phone device and mainly realizes the following functions: communication connection and data receiving remote alarm (when the collected CO concentration value reaches the set CO concentration threshold value, a worker in an alarm area directly makes a call and sends an alarm short message, and the mobile phone of a person receiving the alarm is preset in the system).

The wireless transmission relay box 4 and the wired transmission relay box 5 are connected through a double-core shielding cable.

The on-site detection module 1 consists of a single chip microcomputer, a CO sensor module and an audible and visual alarm module, the single chip microcomputer is an MSP430F149 single chip microcomputer, the MSP430F149 single chip microcomputer serves as a core controller, power consumption is low, and the on-site detection module is suitable for battery power supply places. The CO sensor module adopts a KHD series gas sensor, the gas sensitive material of the sensor is tin dioxide, and the conductivity of the sensor in clean air is lower. The change in conductivity can be converted to a voltage output signal corresponding to the gas concentration using a simple circuit. The sensor has high sensitivity to carbon monoxide, can detect various gases containing carbon monoxide, and is a low-cost sensor suitable for various applications. The sound-light alarm module adopts an LED and a buzzer, and a light alarm circuit and a sound alarm circuit are respectively controlled through P6.6 and P6.7 ports of the singlechip.

The wireless transmission relay box 4 and the wired transmission relay box 5 form an acquisition transmission module 2.

Two KHD-BD200 alarm devices 41 and two KHD-BK200 alarm devices 51 are respectively arranged.

The utility model discloses a theory of operation: the wireless transmission relay box is used as a wireless transmission network of the acquisition center, and can transmit single acquisition point data and multi-acquisition point data. When the positions of the acquisition points are relatively concentrated, the wired transmission network taking the wired transmission relay box as a center can be used, and the wired transmission relay box can be connected with a plurality of acquisition monitoring points through cables. The porphyry acquisition module reports acquired data to an upper computer through a router, the upper computer stores and processes the acquired data through KHD series CO real-time monitoring software, and audible and visual alarm is carried out on alarm data. And storing the alarm information record to prompt monitoring personnel to process in time. The upper computer sends the acquired data to the network to ensure real-time updating. And each operator checks the real-time alarm information of the region by using the mobile phone application program. Before entering a dangerous area, an operator can check whether the CO concentration in the area is safe or not, so that dangerous accidents caused by the fact that monitoring personnel cannot inform the area in time are avoided.

After the technical scheme is adopted, the utility model discloses beneficial effect does: its reasonable in design compares in traditional CO concentration detection alarm, adopts KHD series sensor, and its low power dissipation, with low costs, it is higher to detect the precision, and the circuit is simple reliable. The method has the advantages that the remote alarm information inquiry is realized by adopting the mobile phone equipment which is very familiar to people, so that the problem that computer monitoring personnel and field operating personnel cannot report the CO concentration alarm in time is solved, and the safety of the operating personnel is ensured; can be applied to any industrial production unit to be monitored by CO, and has high popularization and application values.

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 (5)

1. A CO real-time monitoring management system based on wireless and wired transmission is characterized in that: the system comprises a field detection module (1), a collection transmission module (2), a calculation center (3), a wireless transmission relay box (4), a KHD-BK200 alarm (41), a wired transmission relay box (5), a KHD-BD200 alarm (51), a porphyry collection module (6), a router (7), an upper computer (8), the Internet (9), a network server (10) and a mobile phone (11), wherein the field detection module (1) is electrically connected with the collection transmission module (2), the collection transmission module (2) is in signal connection with the calculation center (3), one side of the wireless transmission relay box (4) is connected with the wired transmission relay box (5), the wireless transmission relay box (4) is electrically connected with the KHD-BD200 alarm (41), the wired transmission relay box (5) is electrically connected with the KHD-BK200 alarm (51), and the porphyry collection module (6) is electrically connected with the wireless transmission relay box (4) and the wired transmission relay box (5), the porphyria collecting module (6) is electrically connected with the router (7), one end of the router (7) is electrically connected with the upper computer (8), the router (7) is in communication connection with the internet (9), and the network server (10) is in signal connection with the mobile phone (11).

2. The CO real-time monitoring and management system based on wireless and wired transmission according to claim 1, characterized in that: the wireless transmission relay box (4) is connected with the wired transmission relay box (5) through a double-core shielded cable.

3. The CO real-time monitoring and management system based on wireless and wired transmission according to claim 1, characterized in that: the on-site detection module (1) consists of a single chip microcomputer, a CO sensor module and an acousto-optic alarm module, wherein the single chip microcomputer is an MSP430F149 single chip microcomputer, the CO sensor module is a KHD series gas sensor, and the acousto-optic alarm module adopts an LED and a buzzer.

4. The CO real-time monitoring and management system based on wireless and wired transmission according to claim 1, characterized in that: the wireless transmission relay box (4) and the wired transmission relay box (5) form an acquisition transmission module (2).

5. The CO real-time monitoring and management system based on wireless and wired transmission according to claim 1, characterized in that: the KHD-BD200 alarm (41) and the KHD-BK200 alarm (51) are both provided with two.