CN112587847B - Fire-fighting gas cylinder monitoring system and equipment matching method - Google Patents

Abstract

The invention discloses a fire-fighting gas cylinder monitoring system and a device matching method, and is characterized in that the system comprises fire-fighting gas cylinders, pressure gauges, mobile matching devices and a monitoring terminal, the fire-fighting gas cylinders are distributed and arranged, the pressure gauges and the fire-fighting gas cylinders are arranged correspondingly, two-dimensional codes are attached to the devices, data information such as pressure states and the like is transmitted to the monitoring terminal through a bus connection control cabinet or through base station wireless transmission, the mobile matching devices are used for scanning the two-dimensional codes of the devices to carry out association pairing on the fire-fighting gas cylinders and the pressure gauges, and updated data are transmitted to the monitoring terminal. The invention realizes the monitoring and management of the large-scale fire-fighting gas cylinder, the equipment after maintenance or replacement is matched by scanning the two-dimensional code, and the data of the matched equipment is updated, thereby reducing the working intensity of related personnel and improving the management efficiency.

Description

Fire-fighting gas cylinder monitoring system and equipment matching method

Technical Field

The invention relates to the field of fire-fighting equipment management, in particular to a fire-fighting gas cylinder monitoring system and an equipment matching method.

Background

The fire-fighting gas cylinder is an extremely important fire-fighting device in fire-fighting equipment. The fire-fighting gas cylinder is convenient to carry and use, can be used in large scale and large batch in large buildings, factories or office buildings and other buildings where people gather, and is particularly important for monitoring and managing a large number of units which use the fire-fighting gas cylinder in a centralized way.

When using fire control gas cylinder in a large number, need carry out relevant standard management such as record, statistics to all gas cylinder equipment, avoid causing the equipment confusion when too much, influence the validity of fire control equipment and the stability of execution.

Fire control gas cylinder is after putting into operation, need the periodic inspection to maintain, otherwise probably problem in the in-process that uses, perhaps can not normally work when needs use, cause the hidden danger, install the state that the manometer can detect current fire control gas cylinder on the fire control gas cylinder of extensive use, but when need periodic inspection to maintain or change fire control gas cylinder or manometer wherein, need will wait to detect the fire control gas cylinder of treating or treating to change and manometer dismantles and get off and handle, later install it again and place at relevant position, when a plurality of fire control gas cylinders need be maintained or changed, hardly install manometer and the fire control gas cylinder that corresponds again, traditional technique adopts artifical record, the installation between equipment is directly carried out after the completion to serial number statistics or direct maintenance, the orderliness of management can not be guaranteed to these modes.

The prior art has the following problems:

1. the manual recording easily causes the loss of recorded data, the query is difficult, the manual work difficulty is high, the relevance among data is poor, and the centralized planning management of a large amount of equipment is inconvenient.

2. After replacement or maintenance are completed, the management system records the numbers through background workers, huge workload can be brought to the workers on site when regular inspection and maintenance are carried out, the labor cost is high, the efficiency is low, meanwhile, the matching difficulty of the actual conditions of the management system and the field equipment on the background is extremely high, the fault tolerance rate is low, management confusion can be caused for a long time, and the safety of the whole fire fighting system is affected.

3. The mode of directly changing is not recorded, so that the equipment is not convenient to manage, when a certain amount of equipment is changed or maintained, all the equipment needs to be detected again when regular inspection or change is carried out, the waste of manpower and material resources is caused, and the management efficiency is low.

Disclosure of Invention

In order to solve the problems, the invention provides a fire-fighting gas cylinder monitoring system and an equipment matching method, all equipment are connected through the internet of things technology, relevant data of the equipment are counted in a monitoring center, the current state of the equipment at each position is monitored in real time, meanwhile, operation records of the equipment are collected and classified, the data of all unrelated equipment are mutually independent, the related equipment can be mutually inquired, the monitoring effect of workers on the equipment is improved, the working strength of field construction personnel and background management personnel is reduced, the normative and orderliness of system equipment management are ensured, and the safety and the stability of a fire-fighting system are improved.

The invention provides a fire-fighting gas cylinder monitoring system and an equipment matching method, and the specific technical scheme is as follows:

the fire-fighting gas cylinder monitoring system comprises a fire-fighting gas cylinder, a pressure gauge, mobile matching equipment and a monitoring terminal;

the fire-fighting gas bottle is connected with a fire-fighting gas pipeline, a branch pipeline valve is arranged on the pipeline, one end of each branch pipe is controlled to be connected with a gas passage of the fire-fighting gas bottle, so that the single fire-fighting gas bottle can be conveniently checked, maintained and replaced, and the pressure gauge is arranged on the gas outlet valve of the fire-fighting gas bottle;

the pressure gauge adopts a POE power supply interface, a standby battery is arranged in the pressure gauge, an alarm threshold value, acquisition frequency and uploading time can be set, the measurement range is 0-30 Mpa, the pressure state of the corresponding fire-fighting gas cylinder can be accurately and efficiently detected, and the pressure gauge is remotely connected with the monitoring terminal and can upload detected data to the monitoring terminal in time;

the mobile matching equipment is in data connection with the monitoring terminal and used for enabling field workers to collect, store, upload and update data of the field equipment, the mobile matching equipment is provided with a fingerprint collecting device and at least one camera, and the mobile matching equipment is further provided with a storage module and used for storing the data locally for a certain time, so that data loss is avoided, and data safety is improved.

The monitoring terminal is used for receiving, summarizing and counting relevant data information of all devices on site, including state information of the devices, basic information of the devices and operation processing information of workers, and is convenient for managers to inquire.

Furthermore, the fire-fighting gas cylinders are divided into a plurality of groups in an nxm mode, the groups are managed by dividing the set areas and groups, and all the fire-fighting gas cylinders are connected to the same fire-fighting main pipe.

The risk condition of the whole monitoring environment can be clearly mastered through the work records of the background and the data statistics of the state according to the regional setting of a large number of fire-fighting gas cylinders, and the fire-fighting gas cylinders are distributed according to groups in the same region, so that the maintenance management of the fire-fighting gas cylinders during use is facilitated.

Furthermore, the fire-fighting gas cylinder is provided with a two-dimensional code for recording data information of the corresponding gas cylinder, the data information comprises the state of equipment and the position information of the gas cylinder, and the pressure gauge is provided with a two-dimensional code for recording the position information of the corresponding pressure gauge and the data information of the gas cylinder.

The fire-fighting gas cylinder and the pressure gauge are attached with respective two-dimension code recording related information, and matched equipment is associated through the two-dimension codes, so that background inquiry is facilitated.

Further, the pressure gauge is connected with the monitoring terminal through a bus or wirelessly connected with the NB-IoT module.

The pressure gauge can adopt different data transmission modes according to the field use environment condition and the demand cost.

Further, the monitoring terminal comprises an intelligent mobile terminal and a PC terminal.

Related staff can carry out system monitoring through intelligent equipment anytime and anywhere, inquire the operation and the management condition of system equipment to in time make the counter-measure.

Further, data transmission between the mobile matching device and the monitoring terminal is achieved through WiFi and Bluetooth wireless transmission or through data line wired transmission.

The mobile matching equipment can flexibly transmit data to the monitoring terminal in a plurality of modes through a local area network, and the data can be cached in the mobile matching equipment for a period of time, so that the safety and flexibility of data updating are improved.

The invention also provides an equipment matching method based on the bear aromatic gas bottle monitoring system, which comprises the following specific steps:

s1: the fingerprint or facial image of the worker is collected through the mobile matching device and is wirelessly transmitted to the monitoring terminal for identity verification.

The safety of the system is improved, meanwhile, the related records of maintenance work are clarified, the responsibility division of maintenance workers is clarified, and the management is standardized.

S2: after the verification is passed, a worker scans the two-dimensional code of the fire-fighting gas cylinder or the pressure gauge through the mobile matching device to obtain first two-dimensional code data, and after the scanning is successful, the two-dimensional code data are stored locally and uploaded to the monitoring terminal to judge the effectiveness of the two-dimensional code.

The scanned data are backed up locally before being uploaded to the monitoring terminal, so that data loss caused by network reasons or power reasons in the data uploading process is avoided.

S3: after the storage or the uploading is finished, scanning a two-dimensional code of a fire-fighting gas cylinder or a pressure gauge through the mobile matching device to obtain second two-dimensional code data, wherein the second two-dimensional code data is different from the first two-dimensional code data in scanning device type.

The two-dimension codes belong to different types of equipment, so that the condition that the same equipment is in mismatching due to scanning in some unexpected conditions when the two-dimension code data are obtained by field scanning is avoided.

S4: and judging the validity of the second two-dimensional code data, if the second two-dimensional code data is invalid, scanning and acquiring the second two-dimensional code data again, if the second two-dimensional code data is valid, the two-dimensional code data belong to a group, storing the data locally and uploading the data to the monitoring terminal, and performing corresponding data matching and updating on the two-dimensional code data.

Further, the validity of the first two-dimensional code judges whether the two-dimensional code data is stored in the monitoring terminal as two-dimensional code data of a fire-fighting gas cylinder or a pressure gauge; and judging whether the two-dimensional code data is the two-dimensional code data of the fire-fighting gas cylinder or the pressure gauge stored in the monitoring terminal and is different from the equipment type of the first two-dimensional code according to the validity of the second two-dimensional code.

The situations that the two-dimensional code which is not the equipment is scanned and the matching error with different types occurs in the second scanning due to misoperation are avoided.

Further, the monitoring terminal sends a signal of completing the updating to the mobile matching device after completing the updating of the data, and the mobile matching device receives the signal and then stores the data in a local preset certain time and then automatically clears the data.

The data is cached and automatically cleaned after a certain time, so that the integrity of the data is ensured, the internal storage space of the mobile matching equipment is saved, and the equipment cost is reduced.

Compared with the prior art, the fire-fighting gas cylinder monitoring system and the equipment matching method provided by the invention have the following beneficial effects:

1. the system erection structure is simple, a large number of fire-fighting gas cylinders and corresponding pressure gauges are managed in a centralized mode, the fire-fighting gas cylinders and the pressure gauges are provided with unique two-dimensional codes, equipment data can be mutually independent in management, certain relevance is also achieved, and background data can be inquired conveniently.

2. The mobile matching equipment is arranged, so that on-site maintenance personnel can immediately match the equipment after installation is completed, the working intensity is reduced, the working efficiency is improved, the data transmission between the mobile matching equipment and the monitoring terminal can be realized in a wireless mode in WiFi or Bluetooth or other modes, wired data transmission can be realized through a data line or a data reading device, and the safety and the flexibility of data transmission are improved by adopting an offline or local area network.

3. The pressure gauge is connected with the monitoring terminal through a bus or an NB-IoT module, flexible selection is carried out according to site construction environment and cost, and the pressure state of the site fire-fighting gas cylinder is monitored in real time.

4. The field worker carries out the matching update of data through scanning the two-dimensional code, can keep the associativity when making to keep the independence between all fire control gas cylinders and all manometer, and the backstage monitoring and the data management of being convenient for, and data are after accomplishing the matching update, regularly clear up local buffer memory, reduce the data redundancy and avoid the data confusion.

Drawings

Fig. 1 is a schematic structural diagram of a monitoring system according to a first embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a monitoring system according to a second embodiment of the present invention;

fig. 3 is a flowchart of an apparatus matching method according to a third embodiment of the present invention;

fig. 4 is a flowchart of a device matching method according to a fourth embodiment of the present invention.

Detailed Description

In the following description, technical solutions in the embodiments of the present invention are clearly and completely described, 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.

The technical contents of the invention are described in detail below with reference to the accompanying drawings and specific embodiments.

Example 1

The embodiment one of the invention provides a fire-fighting gas cylinder monitoring system, which realizes real-time monitoring and planning management of large-scale fire-fighting gas cylinder usage, each fire-fighting gas cylinder is correspondingly provided with a pressure gauge, pressure data detected by the pressure gauge is transmitted to a monitoring center in real time through an NB-IoT module or a bus, real-time pressure state information, equipment management information and related information of workers of all equipment are stored in terminal equipment of the monitoring center, and the transmitted data is summarized, counted and classified to be output visually, so that the workers can supervise and analyze the data, hidden dangers are eliminated in time, and stable and efficient operation of the fire-fighting system is ensured.

As shown in figure 1, the system comprises a plurality of fire-fighting gas cylinders, a pressure gauge, mobile matching equipment and a monitoring terminal, wherein the fire-fighting gas cylinders are connected with a branch fire-fighting gas pipeline respectively, a control valve is arranged on each branch pipeline, the access of the corresponding fire-fighting gas cylinders can be cut off at any time, the disassembly, the maintenance and the replacement of the equipment are facilitated, all the branch pipelines are connected to a main fire-fighting gas output pipeline together, the fire-fighting gas cylinders are arranged in different workshops according to regional division, and the fire-fighting gas cylinders in each workshop are grouped according to an nxm mode and are arranged in a regular and orderly mode, so that the equipment is positioned, checked and replaced.

In this embodiment, the pressure gauge is connected with the signal base station through the NB-IoT module, the base station is used to transmit detected data to the monitoring terminal in real time, background staff monitors state information of the fire-fighting gas cylinders and the pressure gauge at each site in real time through the display screen, and can inquire information such as basic information, alarm information, working information, maintenance and replacement records of all equipment in real time through the operation console, so that the staff can adjust system equipment in time, and the safety of the system is improved.

The system is also provided with the mobile matching equipment which is used in the site of the equipment and is used for matching the fire-fighting gas cylinder and the pressure gauge in the site, and updates the associated information of the two, in this embodiment, the mobile matching device is provided with a front camera and a rear camera which are respectively used for collecting and identifying the face image of the user and the scanning of the two-dimensional code, the mobile matching device is internally provided with an independent power supply module capable of working for a long time, is internally provided with a detachable memory card, is externally provided with a data interface, and can lead data into the monitoring terminal through wired data transmission, the mobile matching device is also internally provided with a WiFi wireless module and a Bluetooth wireless module, supporting data is uploaded to the monitoring terminal in a wireless mode, and associating the corresponding equipment through the two-dimensional code on the scanning equipment, and uploading the associated data to the monitoring terminal to update the associated data.

Example 2

As shown in fig. 2, according to the first embodiment, the pressure gauge can transmit detected pressure data to the monitoring terminal in real time through the bus, the system is respectively provided with a plurality of bus control cabinets according to different areas, the pressure gauges in different workshops are respectively connected through the bus, the bus control cabinets are connected with the monitoring terminal through lines, real-time data transmission is achieved, and the system is suitable for being used by units with small scales and short storage distances between the monitoring terminal and a fire-fighting gas cylinder, such as building units of company machine rooms, data centers, gas fire-fighting or some small-scale art exhibition halls and the like.

Example 3

As shown in fig. 3, the fire-fighting gas cylinder monitoring system according to the third embodiment of the present invention based on the first and second embodiments provides an equipment matching method, so that one-to-one matching between the fire-fighting gas cylinder and the pressure gauge is achieved, maintenance or replacement of some of the equipment after disassembly is reduced, corresponding data information can be updated in the background monitoring system in time, simplicity of data updating is improved, and the working intensity of field personnel is reduced.

The method comprises the following steps:

s1: after the fire-fighting gas cylinder and the corresponding pressure gauge are installed by field workers, fingerprints or facial images or passwords are collected through mobile matching equipment, authentication data are transmitted to the monitoring terminal through wireless transmission, the monitoring terminal stores fingerprint information, facial information and account password information of all the workers, the monitoring terminal compares the received facial image information, the received fingerprint information and the received account password information with data in a database, the identity of the current worker is verified, operation records are carried out after the verification is passed, and the record content comprises specific relevant information and update time of equipment for carrying out data matching update.

S2: after the identity authentication is passed, a worker scans a two-dimensional code of a fire-fighting gas cylinder or a pressure gauge to be matched through a rear camera of the mobile matching device, compares the two-dimensional code data obtained by scanning with device two-dimensional code data stored in a monitoring terminal database, and judges whether the obtained two-dimensional code data is valid; if the two-dimensional code data are invalid, the monitoring terminal sends an invalid instruction to the mobile matching device to prompt a worker to obtain the two-dimensional code data again; if the scanned two-dimensional code is data stored in the database, namely the two-dimensional code data on the device, the monitoring terminal sends an indication that the scanning is successful to the mobile matching device, and the mobile matching device caches the two-dimensional code data locally.

S3: after the first two-dimensional code data are scanned, a worker scans second two-dimensional code data through a rear camera of the mobile matching device to pair, the type of the second two-dimensional code data is different from that of the first two-dimensional code data, and it is ensured that the fire fighting gas cylinder is paired with a pressure gauge;

s4: after scanning the second two-dimensional code data, comparing the data with the two-dimensional code data of the equipment stored in the database of the monitoring terminal, judging whether the two-dimensional code is valid or not, if the two-dimensional code is invalid, scanning again to obtain the data, if the two-dimensional code is valid, judging whether the type of the two-dimensional code is different from that of the equipment of the first two-dimensional code, dividing the two-dimensional code data corresponding to the fire-fighting gas cylinder and the pressure gauge into two types according to the equipment type of the equipment of the first two-dimensional code, if the type is judged, comparing the two-dimensional code data screened in the database with the two-dimensional code data to judge whether the types are the same or not, if the types are the same, scanning again to obtain the data, if the types are different, correlating the two-dimensional codes with the equipment, caching the data to the local and uploading the data to the monitoring terminal, and updating data information, sending a completion signal to the mobile matching equipment after the data updating is completed, and automatically clearing the local cache after the mobile matching equipment receives the completion signal and the preset time is over.

Example 4

An embodiment four of the present invention provides an apparatus matching method based on the first and second embodiments, including the steps of:

s1: the detailed steps of the authentication are as described in the third embodiment.

S2: the method comprises the steps that after a worker scans and acquires two-dimensional codes of an on-site fire-fighting gas cylinder and a pressure gauge, the two-dimensional codes are uploaded to a monitoring terminal, the monitoring terminal compares the two-dimensional codes with two-dimensional codes stored in a database respectively, whether the two-dimensional codes are the two-dimensional codes stored in the database is judged, if any one of the two-dimensional codes is not the data stored in the database, a feedback signal is sent to acquire the two-dimensional codes again, and if the two-dimensional codes are both the results stored in the database, type judgment is carried out.

S3: judging whether the two-dimensional code data types are the same according to the comparison result in the database, acquiring whether the type labels of the two-dimensional code data belong to the same according to the comparison result in the database, sending a feedback signal to scan again for acquisition if the two-dimensional code data belong to the same type labels, storing the data in the local area if the two-dimensional code data belong to the same type labels, performing corresponding data matching updating on the equipment to which the two-dimensional code data belong, sending a completion signal to the mobile matching equipment after the data updating is completed, and automatically clearing the local cache after the mobile matching equipment receives the completion signal after the preset time is completed.

The invention is not limited to the foregoing embodiments. The invention extends to any novel feature or any novel combination of features disclosed in this specification and any novel method or process steps or any novel combination of features disclosed.

Claims (8)

1. The utility model provides a fire control gas cylinder monitoring system's equipment matching method, realizes the one-to-one matching between fire control gas cylinder and the manometer, its characterized in that for fire control gas cylinder monitoring system, fire control gas cylinder monitoring system includes:

the fire-fighting gas bottle is connected with a fire-fighting gas pipeline, a branch pipeline valve is arranged on the pipeline, the pressure gauge is arranged on an air outlet valve of the fire-fighting gas bottle, the pressure gauge is remotely connected with the monitoring terminal, the mobile matching equipment is in data connection with the monitoring terminal, a fingerprint collecting device and at least one camera are arranged on the mobile matching equipment, and a storage module is also arranged on the mobile matching equipment;

the fire-fighting gas cylinder is provided with a two-dimensional code for recording data information of the corresponding gas cylinder, the data information comprises the state of equipment and the position information of the gas cylinder, and the pressure gauge is provided with a two-dimensional code for recording the position information of the corresponding pressure gauge and the data information of the gas cylinder;

the method comprises the following steps:

s1: the method comprises the steps that identity authentication information of workers is collected through mobile matching equipment to carry out identity authentication, wherein the identity authentication information comprises face images or fingerprints of the workers or input passwords;

s2: after the verification is passed, the worker scans the two-dimensional codes of the fire fighting gas cylinder and the pressure gauge through the mobile matching device, and after the scanning is successful, the effectiveness and the type of the obtained two-dimensional code data are judged;

s3: if the two-dimension codes are effective and different in type, the two-dimension codes belong to a group of devices, data are stored locally and uploaded to the monitoring terminal, and corresponding data matching updating is carried out on the two-dimension code devices.

2. The apparatus matching method for a fire-fighting gas cylinder monitoring system according to claim 1, wherein a plurality of fire-fighting gas cylinders are provided, grouped in an nxm manner, and all the fire-fighting gas cylinders are connected in the same fire main.

3. The equipment matching method for the fire fighting gas cylinder monitoring system according to claim 1, wherein the pressure gauge is connected with the monitoring terminal through a bus or an NB-IoT module is wirelessly connected with the monitoring terminal.

4. The equipment matching method of the fire fighting gas cylinder monitoring system according to claim 1, characterized in that the monitoring terminal comprises an intelligent mobile terminal and a PC terminal.

5. The equipment matching method of the fire-fighting gas cylinder monitoring system according to claim 1, characterized in that data transmission between the mobile matching equipment and the monitoring terminal is through WiFi, Bluetooth wireless transmission or through data line wired transmission.

6. The equipment matching method of the fire-fighting gas cylinder monitoring system according to claim 1, characterized in that the two-dimensional code scanning and the judgment steps of validity and type are as follows:

step A: scanning a two-dimensional code of a fire-fighting gas cylinder or a pressure gauge to obtain first two-dimensional code data, storing the two-dimensional code data locally after the scanning is successful, uploading the two-dimensional code data to the monitoring terminal, judging whether the two-dimensional code data are the two-dimensional codes of the fire-fighting gas cylinder and the pressure gauge stored in the database, if not, feeding back a non-valid two-dimensional code signal, and if so, obtaining second two-dimensional code data;

and B: and judging the validity of the second two-dimensional code data, if the second two-dimensional code data is invalid, scanning and acquiring the second two-dimensional code data again, if the second two-dimensional code data is valid, judging whether the second two-dimensional code data is different from the first two-dimensional code data in type, if the second two-dimensional code data is the same as the first two-dimensional code data, scanning and acquiring again, if the second two-dimensional code data is different from the first two-dimensional code data, storing the data locally, and performing corresponding data matching and updating on the equipment to which the two-dimensional codes belong.

7. The equipment matching method of the fire fighting gas cylinder monitoring system according to claim 5, characterized in that the two-dimensional code scanning and the judgment steps of validity and type are as follows:

step A: the method comprises the steps that after two-dimensional codes of an on-site fire-fighting gas cylinder and a pressure gauge are scanned and obtained by a worker, the two-dimensional code data are uploaded to a monitoring terminal, the two-dimensional code data are compared with two-dimensional codes stored in a database respectively by the monitoring terminal, whether the two-dimensional codes are the two-dimensional codes stored in the database or not is judged, if one of the two-dimensional codes is not the two-dimensional code data stored in the database, a feedback signal is sent to obtain the two-dimensional code data again, and if the two-dimensional code data are both the two-dimensional codes stored in the database, type judgment is carried out;

and B: and judging whether the two-dimensional code data types are the same according to the comparison result in the database, if so, sending a feedback signal to scan again, if not, storing the data locally, and performing corresponding data matching and updating on the equipment to which the two-dimensional codes belong.

8. The equipment matching method of the fire-fighting gas cylinder monitoring system according to any one of claims 6 to 7, characterized in that the monitoring terminal sends a signal of completion of updating to the mobile matching equipment after completion of updating of data, and the mobile matching equipment receives the signal and then automatically clears the data after storing the data in a local preset certain time.

Images