CN112915453B - Fire hose water pressure monitoring system and method - Google Patents

Abstract

The invention discloses a fire-fighting water pipe water pressure monitoring system and a method, wherein the system comprises a monitoring platform and a plurality of fire-fighting water pipe water pressure monitors arranged on a construction site; and the obtained monitoring data is transmitted and uploaded to a supervision platform, the supervision platform is used for comparing the water pressure monitoring data with the materials reported by the construction party, and when a set difference value is reached, the supervision personnel send alarm information. The invention can monitor the water pressure of the fire-fighting and water-proof pipe in real time in the project construction process, particularly in the construction process of high-rise buildings, and can avoid the situation of falsifying the fire-fighting and water-proof pipe in the actual construction process through the position information monitoring and the altitude information, effectively supervise the arrangement of the fire-fighting and water-proof pipe and improve the safety of the project construction.

Description

Fire hose water pressure monitoring system and method

Technical Field

The invention relates to the field of building construction safety, in particular to a water pressure monitoring system for a fire-fighting water pipe.

Background

In a high-rise building project, fire safety is an important component of the safety construction of the project, according to the relevant national regulations, the supply of fire-fighting water for an operation floor must be ensured in the construction process of the high-rise building, but in the actual construction, some projects do not strictly execute the relevant regulations of the fire-fighting water, the fire-fighting water is not in place, even no water exists in a fire-fighting water pipe, great fire safety hidden dangers are brought to the project construction, and relevant supervision departments such as a building company and a government agency to which the project belongs do not have effective means for supervising the project.

In some projects, in order to realize the supervision of fire-fighting water, a traditional water pressure monitoring terminal is adopted to monitor the water pressure of a fire-fighting water pipe, the monitoring terminal is installed at the tail end of the fire-fighting water pipe, the monitoring terminal continuously moves upwards along with the change of a construction floor in the construction process, and the water pressure monitor transmits water pressure measurement data to a monitoring system and is supervised and managed by safety and engineering supervision departments. However, since the relevant departments cannot know the real conditions of each site at any time, the monitoring equipment is not necessarily installed at the tail end of the fire-fighting water pipe according to the regulations on the project, so that the possibility of false operation exists, and the effective supervision of the fire-fighting water is not really realized.

Disclosure of Invention

The invention aims to overcome the defects, provides a fire hose monitoring system which can effectively supervise a fire hose and avoid potential safety hazards and also provides a fire hose monitoring method adopting the system.

The technical scheme adopted by the invention is as follows:

the utility model provides a fire hose water pressure monitoring system, includes monitoring platform and a plurality of fire hose water pressure monitor that set up at the job site, wherein:

the fire-fighting water pipe water pressure monitor is used for acquiring actual water pressure monitoring data of the fire-fighting water pipe and reporting the actual water pressure monitoring data to the monitoring platform;

the monitoring platform is used for receiving water pressure monitoring data reported by the water pressure monitor of the fire-fighting water pipe, comparing the water pressure monitoring data with materials reported by a construction party, and sending alarm information when the difference exists in the comparison.

As a further optimization of the system, the data compared by the monitoring platform of the present invention includes comparison between water pressure monitoring data and water pressure setting data, comparison between actual installation position information and construction project position information, comparison between water pressure of the fire-fighting water pipe and comparison between the floor where the water pressure monitor of the fire-fighting water pipe is actually located and construction information reported by the project, wherein the calculation method of the floor where the water pressure monitor of the fire-fighting water pipe is actually located is as follows:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project.

As further optimization of the system, the fire hose water pressure monitor comprises a wireless communication module, a satellite positioning module, a water pressure monitoring sensor, a man-machine interaction module and a power supply module, wherein:

the wireless communication module is used for establishing communication connection with the monitoring platform and carrying out data transmission;

the satellite positioning module is used for acquiring the position information and the altitude information of the satellite positioning module;

the water pressure monitoring sensor is used for acquiring water pressure data on the fire hose;

the human-computer interaction module is used for corresponding operation of a worker;

the power supply module is used for supplying power to other components.

As a further optimization of the system, the wireless communication module adopts an Internet of things communication module.

As further optimization of the system, the fire hose water pressure monitor further comprises an altitude sensor which is a pneumatic sensor.

The invention also provides a method for monitoring the water pressure of the fire hose, which comprises the following steps:

installing a fire-fighting water pipe water pressure monitor on a fire-fighting water pipe to obtain monitoring data of the fire-fighting water pipe;

and the obtained monitoring data is transmitted and uploaded to a supervision platform, the supervision platform is used for comparing the water pressure monitoring data with the materials reported by the construction party, and when a set difference value is reached, the supervision personnel send alarm information.

As a further optimization of the method, the monitoring data of the invention comprises water pressure data, position data and altitude data of the fire hose.

As a further optimization of the method of the present invention, the data compared by the monitoring platform of the present invention includes comparison between water pressure monitoring data and water pressure setting data, comparison between actual installation position information and construction project position information, comparison between water pressure of the fire hose and construction information reported by a project and an actual floor where the water pressure monitor of the fire hose is located, wherein the calculation method of the actual floor where the water pressure monitor of the fire hose is located is as follows:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project record.

As a further optimization of the method, the fire water pipe water pressure monitor is provided with a local alarm device, when the comparison between the data uploaded by the fire water pipe water pressure monitor and the set data is not accordant, the local alarm device gives an alarm preferentially, and when the local alarm device is not released within the set time, the monitoring platform sends the alarm to the monitoring personnel again.

As a further optimization of the method, when the fire hose water pressure monitor is initially connected to the supervision platform, the fire hose water pressure monitor needs to be registered on the supervision platform, in the registration process, the number of layers of initial installation and the altitude at the initial installation need to be recorded, and after the recording is completed, a working mode is started for the fire hose water pressure monitor, and water pressure data, position information and altitude information are sent to the supervision platform at regular time.

The invention has the following advantages:

1. the water pressure of the water-proof pipe can be set in real time and monitored in the project construction process, particularly in the construction process of a high-rise building, the situation that the water-proof pipe is falsified in the actual construction process is avoided through water pressure monitoring, position information monitoring and altitude information monitoring, the arrangement of the water-proof pipe is effectively supervised, and the safety of the project construction is improved;

2. according to the invention, the actual floor where the fire-fighting water pipe water pressure monitor is located is calculated through the altitude, and the violation behaviors in the arrangement of the fire-fighting water pipe are more intuitively found through comparing the project construction progress material with the actual calculation data, so that the construction safety is further ensured.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

The invention is further described below with reference to the accompanying drawings:

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

fig. 2 is a schematic composition diagram of a fire hose water pressure monitor.

Detailed Description

The present invention is further described in the following with reference to the drawings and the specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention, and the embodiments and the technical features of the embodiments can be combined with each other without conflict.

It is to be understood that the terms first, second, and the like in the description of the embodiments of the invention are used for distinguishing between the descriptions and not necessarily for describing a sequential or chronological order. The "plurality" in the embodiment of the present invention means two or more.

The term "and/or" in the embodiment of the present invention is only an association relationship describing an associated object, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, B exists alone, and A and B exist at the same time. In addition, the character "/" herein generally indicates that the former and latter associated objects are in an "or" relationship.

This embodiment provides a fire hose water pressure monitoring system, as shown in fig. 1, including monitor platform and a plurality of fire hose water pressure monitor of setting at the job site, wherein:

the fire-fighting water pipe water pressure monitor is used for acquiring actual water pressure monitoring data of the fire-fighting water pipe and reporting the actual water pressure monitoring data to the monitoring platform;

as shown in fig. 2, fire hose water pressure monitor includes wireless communication module, satellite positioning module, water pressure monitoring sensor, human-computer interaction module and power module, wherein: the wireless communication module is used for establishing communication connection with the monitoring platform and transmitting data, the wireless communication module is preferably an internet of things communication module, and the requirement on a communication environment is relatively low by means of an internet of things card of an existing operator, so that the installation and the use of the fire-fighting water pipe water pressure monitor can be facilitated; the satellite positioning module is used for acquiring the position information and the altitude information of the satellite positioning module, but based on the calculation and measurement principle of the satellite positioning module, the error of the altitude information measured by the sanitary positioning module is relatively large, so that an extra altitude sensor can be arranged, the altitude sensor adopts an air pressure type measurement principle, the measurement precision is higher, and in order to calculate data conveniently, the altitude data can be converted into a height value based on a building base surface through mathematical modeling; the water pressure monitoring sensor is used for acquiring water pressure data on the fire hose; the man-machine interaction module is used for corresponding to the operation of a worker and is used for debugging and starting the fire hose water pressure monitor; the power supply module is used for supplying power to other components;

the monitoring platform is used for receiving water pressure monitoring data reported by the water pressure monitor of the fire-fighting water pipe, comparing the water pressure monitoring data with materials reported by a construction party, and sending alarm information when the difference exists in the comparison.

This embodiment fire hose water pressure monitor when first access system, need register at supervisory systems to at the registration in-process, need carry out the filing to the number of piles of its first installation and the altitude when initial installation, and after accomplishing the filing, to its start-up mode, regularly send water pressure data, positional information and altitude information to supervisory platform, the data that supervisory platform contrasted include the contrast of water pressure monitoring data and water pressure settlement data, the contrast of actual installation positional information and construction project positional information, the water pressure contrast of fire hose and the contrast of the construction information that fire hose water pressure monitor actually belonged to floor and project report, wherein, the calculation method of the floor that fire hose water pressure monitor actually belonged to is:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project.

Based on the above fire hose water pressure monitoring system, this embodiment also provides a fire hose water pressure monitoring method, including following step:

installing a fire-fighting water pipe water pressure monitor on a fire-fighting water pipe to obtain monitoring data of the fire-fighting water pipe, wherein the monitoring data specifically comprises water pressure data, position data and altitude data of the fire-fighting water pipe;

and the obtained monitoring data is transmitted and uploaded to a supervision platform, the supervision platform is used for comparing the water pressure monitoring data with the materials reported by the construction party, and when a set difference value is reached, the supervision personnel send alarm information.

This embodiment when fire hose water pressure monitor first inserts supervision platform, need register it on supervision platform, at the registration in-process, need carry out the filing to the number of piles of its first installation and the altitude when initial installation to after accomplishing the filing, to its start-up mode, regularly send water pressure data, positional information and altitude information to supervision platform. The data that monitoring platform contrasted include the contrast of water pressure monitoring data and water pressure settlement threshold value, the contrast of actual installation position information and construction project positional information, the water pressure contrast of fire hose and the contrast of the construction information that fire hose water pressure monitor actually belonged floor and project to report, wherein, the calculation method of the floor that fire hose water pressure monitor actually belonged is:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project.

In order to avoid because of the maloperation, perhaps when needing the temporary adjustment fire water pipe water pressure monitor because of the special circumstances, avoid the frequent alarm of supervision platform to increase supervisory personnel's working strength, be provided with local alarm device on the fire water pipe water pressure monitor, when the data that uploads when fire water pipe water pressure monitor and set for the data contrast nonconformity, local alarm device preferentially sends the police dispatch newspaper, and when in the settlement time, local alarm device still has not relieved, and the monitoring platform sends the alarm again to supervisory personnel.

Based on above-mentioned fire hose water pressure monitoring system and fire hose water pressure monitoring method, this embodiment still provides an actual application in the construction project, and is specific:

1. and (5) installing and debugging the water pressure tester. In a certain high-rise building project, in order to strengthen supervision on project fire water by company engineering and safety management departments, when a building construction working floor reaches a 2 nd floor, a fire water pressure monitor is installed, after equipment is installed, the equipment is started and debugged, the current height information measured by the equipment is 12.5 meters, the satellite positioning information is east longitude 117.0923 and north latitude 36.6756, the height of the high-rise building is 3 meters, debugging personnel register the equipment in the system and record the information in the system, then the height of the building 3 meters and the reference height 12.5 meters are input into the equipment as basic data of an equipment calculation floor, then the equipment is switched to a formal working state, and the installation and debugging work of the equipment is completed.

2. The water pressure monitor is after getting into operating condition, regularly carry out data measurement to the water pressure of fire-fighting water pipe through water pressure measurement module, and height information and longitude and latitude information through satellite positioning module measuring equipment, upload to monitoring system in with above data through wireless communication module, company's safety and engineering manager are through looking over the data that equipment uploaded, supervise the management to project fire water, when fire water pressure is less than 10kpa, then monitoring system thinks fire water pipe water pressure is low and produce the warning, remind relevant managers to handle alarm information.

3. In the project construction process, if the project has already been constructed to the 5 th floor, and has explained the construction floor height in the project construction progress report, the present height of equipment is 18.7 meters is obtained through the measurement to on-the-spot water pressure monitor, through the above-mentioned well fire hose water pressure monitor calculation formula of the floor that actually is located, the calculation obtains the present floor to be:

y＝2+((18.7-12.5))/3≈4

the device uploads the height information of 18.7 meters and the information that the device is currently positioned at the 4 th layer to a monitoring system, and company safety and engineering management personnel find that the data are not matched by comparing the uploaded floor information of the device with the progress information reported by the project, so that inquiry and field inspection are carried out on the project, the illegal action that the water control pipe on the project does not reach the operation layer is found, and the project is responsible for being corrected.

4. In the project construction process, if the project is in order to accelerate the construction progress, the fire-fighting water pipe is not filled with water and pressurized, and in order to avoid supervision of related departments, the water pressure monitor installed on a construction site is removed privately and installed on a water pipe of a living area. The water pressure monitor acquires the longitude and latitude of the equipment as east longitude 117.0944 and north latitude 36.6776 through the satellite positioning module, the change is larger compared with the longitude and latitude data recorded during equipment installation, the equipment is horizontally shifted by 291 meters through calculation, and company safety and engineering management personnel discover illegal operation of the project through consultation and field inspection on project responsible persons, responsibility project correction is carried out, and potential safety hazards are eliminated.

The above-mentioned embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. The equivalent substitution or change made by the technical personnel in the technical field on the basis of the invention is all within the protection scope of the invention. The protection scope of the invention is subject to the claims.

Claims (7)

1. The utility model provides a fire hose water pressure monitoring system which characterized in that: including monitor platform and a plurality of fire hose water pressure monitor of setting at the job site, wherein:

the fire-fighting water pipe water pressure monitor is used for acquiring actual water pressure monitoring data of the fire-fighting water pipe and reporting the actual water pressure monitoring data to the monitoring platform;

the monitoring platform is used for receiving water pressure monitoring data reported by the water pressure monitor of the fire hose, comparing the water pressure monitoring data with materials reported by a construction party, and sending alarm information when the comparison is different;

the data that monitoring platform contrasted include the contrast of water pressure monitoring data and water pressure settlement data, the contrast of actual installation position information and construction project positional information, the water pressure contrast of fire hose and the contrast of the construction information that fire hose water pressure monitor actually belonged floor and project were reported, wherein, the calculation method of the floor that fire hose water pressure monitor actually belonged is:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project.

2. A fire hose water pressure monitoring system as claimed in claim 1, wherein: fire hose water pressure monitor includes wireless communication module, satellite positioning module, water pressure monitoring sensor, human-computer interaction module and power module, wherein:

the wireless communication module is used for establishing communication connection with the monitoring platform and carrying out data transmission;

the satellite positioning module is used for acquiring the position information and the altitude information of the satellite positioning module;

the water pressure monitoring sensor is used for acquiring water pressure data on the fire hose;

the human-computer interaction module is used for corresponding operation of a worker;

the power supply module is used for supplying power to other components.

3. A fire hose water pressure monitoring system as claimed in claim 2, wherein: the wireless communication module adopts an internet of things communication module.

4. A fire hose water pressure monitoring system as claimed in claim 1, wherein: the fire hose water pressure monitor further comprises an altitude sensor which is an air pressure sensor.

5. A fire hose water pressure monitoring method is characterized in that: the method comprises the following steps:

installing a fire-fighting water pipe water pressure monitor on a fire-fighting water pipe to obtain monitoring data of the fire-fighting water pipe;

the acquired monitoring data are transmitted and uploaded to a supervision platform, the supervision platform is used for comparing the water pressure monitoring data with materials reported by a construction party, and when a set difference value is reached, alarm information is sent to supervision personnel;

the monitoring data comprises water pressure data, position data and altitude data of the fire hose;

the data that monitoring platform contrasted include the contrast of water pressure monitoring data and water pressure settlement data, the contrast of actual installation position information and construction project positional information, the water pressure contrast of fire hose and the contrast of the construction information that fire hose water pressure monitor actually belonged floor and project were reported, wherein, the calculation method of the floor that fire hose water pressure monitor actually belonged is:

Y＝n+(x-m)/a；

in the formula: y is the floor where the fire hose water pressure monitor is actually located, and the Y is rounded by a rounding method; n is an initial installation floor of the fire hose water pressure monitor; m is the initial installation height of the fire hose water pressure monitor; x is the actual altitude of the fire hose water pressure monitor; a is the building floor height of the construction project.

6. A fire hose water pressure monitoring method according to claim 5, characterized in that: be provided with local alarm device on the fire hose water pressure monitor, when the data that upload as fire hose water pressure monitor and set for the data contrast nonconformity, local alarm device preferentially sends the police dispatch newspaper, and when in the settlement time, local alarm device still has not relieved, and monitoring platform sends the police dispatch newspaper again to the supervisory personnel.

7. A fire hose water pressure monitoring method according to claim 5, characterized in that: when the fire hose water pressure monitor is firstly connected to the supervision platform, the fire hose water pressure monitor needs to be registered on the supervision platform, and in the registration process, the layer number of the fire hose water pressure monitor firstly installed and the altitude of the fire hose water pressure monitor during initial installation need to be recorded, and after the recording is completed, a working mode is started for the fire hose water pressure monitor, and water pressure data, position information and altitude information are sent to the supervision platform regularly.

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