CN210933548U - Intelligent fire hydrant and control system thereof - Google Patents

Abstract

The utility model discloses an intelligent fire hydrant, which comprises a fire hydrant valve body, a hydrant body, a valve rod, a sealing ring, a bolt cover and a ratchet spring bolt control mechanism, wherein the ratchet spring bolt control mechanism comprises a ratchet wheel which is connected with the upper end of the fire hydrant valve rod through a connecting sleeve square shape, and the ratchet spring bolt control mechanism is connected with a locking mechanism motor; still include intelligent control panel, pressure sensor and communication module, be equipped with GPS orientation module, motor drive circuit on the intelligent control panel, pressure sensor, communication module all connect the intelligent control panel, and motor drive circuit is connected to the locking mechanism motor. The utility model also discloses a control system for controlling the intelligent fire hydrant; the running state of the fire hydrant can be monitored and managed effectively in real time.

Description

Intelligent fire hydrant and control system thereof

Technical Field

The utility model relates to a fire-fighting equipment field especially relates to an intelligent fire hydrant.

Background

The fire hydrant is a fire-fighting equipment, is mainly used for taking water and extinguishing fire for a fire truck, can also be directly connected with a fire hose to take water and extinguish fire, and is one of important fire-fighting facilities for putting out a fire. The traditional fire hydrant is numerous and scattered in installation, scientific and effective management measures are lacked by fire hydrant management departments, the fire hydrant is damaged, insufficient pipeline pressure is difficult to find in time, and public facility loss and fire-fighting hidden dangers are brought. The fire hydrant water is stolen or used for greening irrigation, and the management department cannot know the water consumption in time. The fire hydrant is damaged, the management department does not know that once a fire disaster happens, the fire hydrant cannot play a role, and the great loss of lives and properties can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an intelligent fire hydrant, which can detect water pressure, water temperature, water flow and water leakage through remote control locking; meanwhile, a control system for controlling the intelligent fire hydrant is disclosed; the running state of the fire hydrant can be monitored and managed effectively in real time.

In order to achieve the purpose, the utility model adopts the following technical proposal to realize:

the utility model discloses an intelligent fire hydrant, which comprises a fire hydrant valve body, a hydrant body, a valve rod, a sealing ring, a bolt cover and a ratchet spring bolt control mechanism, wherein the ratchet spring bolt control mechanism comprises a ratchet wheel which is connected with the upper end of the fire hydrant valve rod through a connecting sleeve square shape, and the ratchet spring bolt control mechanism is connected with a locking mechanism motor; still include intelligent control panel, pressure sensor and communication module, be equipped with GPS orientation module, motor drive circuit on the intelligent control panel, intelligent control panel is all connected to pressure sensor, communication module, motor drive circuit is connected to the locking mechanism motor.

Furthermore, the intelligent fire hydrant further comprises a temperature sensor, an acceleration sensor and an ultrasonic flowmeter, and the temperature sensor, the acceleration sensor and the ultrasonic flowmeter are all connected with the intelligent control board.

Furthermore, the intelligent fire hydrant further comprises an NFC card swiping panel, and the NFC card swiping panel is connected with the intelligent control panel.

Preferably, the intelligent control board, the ratchet spring bolt control mechanism, the pressure sensor and the temperature sensor are all arranged on the bolt cover, the ultrasonic flowmeter is positioned at the lower end of the valve body, and the acceleration sensor is integrated on the intelligent control board; or, the communication module is communicated with the remote intelligent terminal through a mobile phone public number.

Furthermore, an emergency glass window is arranged on the bolt cover corresponding to the ratchet and spring bolt control mechanism, a magnetic control switch is arranged in the emergency glass window, and the magnetic control switch is connected with an intelligent control board.

Preferably, the communication module comprises a GPRS remote transmission module.

The utility model also discloses a be applicable to the control system of intelligence fire hydrant, including cloud monitoring platform, long-range intelligent terminal, cloud monitoring platform and communication module wireless connection, long-range terminal and cloud monitoring platform wireless connection.

Further, the communication module is communicated with the remote intelligent terminal through a mobile phone public number.

The utility model also discloses a be applicable to control system's control method, include: the intelligent control board passes through the communication module and keeps real-time connection with cloud monitoring platform, and when the cloud platform issued the instruction of unblanking, the intelligent control board received the instruction of unblanking, rotated through motor drive circuit driving motor, pulled out the spring bolt, made the fire hydrant be in the state that can open, and the intelligent control board feedbacks the result of unblanking to cloud monitoring platform.

Further, the control method further includes: measuring water quantity and monitoring water leakage through an ultrasonic flowmeter, and transmitting a water quantity and water leakage detection result to a remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the water pressure at the lower end of the valve body is detected through a pressure sensor, and a water pressure detection result is transmitted to a remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the water temperature at the lower end of the valve body is detected through a temperature sensor, and a water temperature detection result is transmitted to a remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the method comprises the steps of feeding back an impact alarm to a cloud monitoring platform in real time through an acceleration sensor, detecting an angle state at regular time, and determining whether to send an angle inclination alarm to the cloud monitoring platform or not through comparison of a current angle and an installation angle.

The utility model has the advantages as follows:

1. the utility model discloses but water pressure, temperature and water pressure in the real-time supervision fire hydrant are unusual, leak water and report to the police, effectively prevent to steal water, and the fire hydrant is hit, is destroyed the equal warning. The running state of the fire hydrant is monitored in real time and effectively managed.

2. The fire hydrant is positioned by a GPS on a control platform map, so that when an emergency happens, a fire fighter can quickly find the fire hydrant closest to an accident place and deal with the fire accident in time.

3. The utility model discloses can measure normal use fire hydrant water intaking, conveniently make statistics of and real time monitoring fire hydrant state to the in service behavior, improve municipal administration department's intelligent level.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent fire hydrant.

Fig. 2 is a schematic structural diagram of a bolt cover part of the intelligent fire hydrant.

Fig. 3 is a cross-sectional view taken along line K-K of fig. 2.

Fig. 4 is a schematic diagram of the control system.

In the figure: 1-valve body, 2-ultrasonic flowmeter, 3-connecting rod, 4-bolt body, 5-valve rod nut, 6-pressure measuring tube, 7-valve rod, 8-connecting seat, 9-pressure measuring switch, 10-bolt cover, 11-ratchet, 12-intelligent control board, 13-emergency glass window, 14-ratchet bolt control mechanism, 15-pressure sensor, 16-temperature sensor and 17-battery.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

As shown in fig. 1, 2 and 3, the utility model discloses an intelligent fire hydrant, including fire hydrant valve body 1, bolt body 4, valve rod 7, a sealing ring, bolt cover 10, bolt body 4 suit is on fire hydrant valve body 1, bolt cover 10 is connected with bolt body 4, the upper end of connecting rod 3 is connected valve rod 7 lower extreme through valve-stem nut 5, connecting rod 3 lower extreme connects fire hydrant valve body 1, pressure measuring switch 9 detects the water pressure in fire hydrant valve body 1 through pressure measuring pipe 6, bolt cover 10 is equipped with connecting seat 8 of installation pressure measuring pipe 6, still include ratchet spring bolt control mechanism, ratchet spring bolt control mechanism includes ratchet 11, ratchet 11 is square through the adapter sleeve and is connected with fire hydrant valve rod 7 upper end, ratchet spring bolt control mechanism connects the locking mechanism motor; still include intelligent control panel 12, pressure sensor 15, temperature sensor 16, acceleration sensor, ultrasonic flowmeter 2, NFC card swiping panel and communication module, be equipped with GPS orientation module, motor drive circuit on the intelligent control panel 12, pressure sensor 15, temperature sensor 16, acceleration sensor, ultrasonic flowmeter 2, temperature sensor, acceleration sensor, ultrasonic flowmeter, communication module all connect intelligent control panel, motor drive circuit is connected to locking mechanism motor. The communication module comprises a GPRS remote transmission module.

The intelligent control panel 12, the ratchet spring bolt control mechanism, the pressure sensor 15 and the temperature sensor 16 are all installed on the bolt cover, the ultrasonic flowmeter 2 is located at the lower end of the fire hydrant valve body 1, and the acceleration sensor is integrated on the intelligent control panel 12. An emergency glass window 13 is arranged on the bolt cover 10 corresponding to the ratchet and bolt control mechanism, a magnetic control switch is arranged below the emergency glass window 13, and the magnetic control switch is connected with an intelligent control board 12.

As shown in fig. 4, the utility model also discloses a control system suitable for intelligent fire hydrant, including cloud monitoring platform, remote intelligent terminal, cloud monitoring platform and communication module wireless connection, remote terminal and cloud monitoring platform wireless connection. The system also comprises a communication module which is communicated with the remote intelligent terminal through a mobile phone public number.

The control method of the control system comprises the following steps: the intelligent control board passes through the communication module and keeps real-time connection with cloud monitoring platform, and when the cloud platform issued the instruction of unblanking, the intelligent control board received the instruction of unblanking, rotated through motor drive circuit driving motor, pulled out the spring bolt, made the fire hydrant be in the state that can open, and the intelligent control board feedbacks the result of unblanking to cloud monitoring platform.

The control method also comprises the steps of measuring the water quantity and monitoring water leakage through the ultrasonic flowmeter, and transmitting the water quantity and water leakage detection results to the remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the water pressure at the lower end of the valve body is detected through a pressure sensor, and a water pressure detection result is transmitted to a remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the water temperature at the lower end of the valve body is detected through a temperature sensor, and a water temperature detection result is transmitted to a remote intelligent terminal through a cloud monitoring platform or a mobile phone public number; the method comprises the steps of feeding back an impact alarm to a cloud monitoring platform in real time through an acceleration sensor, detecting an angle state at regular time, and determining whether to send an angle inclination alarm to the cloud monitoring platform or not through comparison of a current angle and an installation angle.

The method comprises the following specific steps:

the utility model discloses an intelligent fire hydrant of taking locking mechanism of accessible internet platform real time monitoring fire hydrant state, including fire hydrant valve body 1, ultrasonic flowmeter 2, connecting rod 3, bolt body 4, valve-stem nut 5, ratchet 11. The ratchet lower extreme passes through the tongue-and-groove to be connected with the valve rod, sends unlocking signal through the cell-phone through internet control cloud monitor platform or public number, and behind the spring bolt control system received signal, the control motor action, the spring bolt is back, and the ratchet can free rotation, and the rotatory ratchet of available fire hydrant instrument makes the valve rod rotatory to the connecting rod up moves, opens the valve clack, and fire water accessible is tied interface and is connected with fire engine or fire hose and carry out the water delivery.

Pressure sensor 15, DS1SB20 temperature sensor 16, connecting seat 8 and pressure measurement switch 9 are equipped with in the space between bonnet 10 and the valve gap, have a pressure-measuring pipe 6 and fire hydrant valve body 1 sealed face under the connecting seat 8 to launch and communicate with each other, regularly detect temperature and water pressure, and pressure-measuring pipe 6 is the hose, sends through intelligent control board 12 and communication module and examines data to cloud monitoring platform, and water pressure, temperature information are looked over to user's accessible cloud monitoring platform or cell-phone public number.

A ratchet bolt control mechanism 14 is arranged in a space between the bolt cover 10 and a valve cover of the fire hydrant valve body 1, under a normal condition, the front end of the bolt is in contact with the teeth of a ratchet wheel 11, and the ratchet wheel can only rotate clockwise to close the fire hydrant but cannot be opened. Signals are sent to the intelligent control panel through a mobile phone public number or a cloud monitoring platform or by swiping an IC card, so that the motor of the locking mechanism is electrified to act, the locking mechanism is started, and water can be normally taken.

An emergency glass window is arranged corresponding to the ratchet bolt control mechanism 14, water needs to be taken in an emergency situation without switch operation, the emergency glass window 13 can be broken, a clamping ring at the rear end of the bolt is pulled to separate the bolt from ratchet teeth, and a wrench can be used for opening the fire hydrant to take water. The magnetic control switch on the emergency glass window 13 sends out an alarm signal through the intelligent control panel 11.

There is the module of punching the card on the intelligent control board 11, and equipment accessible module of punching the card reads card content, judges whether to be effectual card, carries out the action of opening valve water intaking, and equipment punches the card water intaking function button and presses, and the activation function of punching the card obtains card content, judges whether to be effective card, obtains correct card, carries out the function of opening the valve, uploads to open valve record to cloud monitoring platform, and the platform is confirmed and is received the information of opening the valve.

The integrated positioning module on the intelligent control panel 11 can acquire the position of the current fire hydrant, the cloud monitoring platform sends out a positioning instruction, the equipment receives the positioning instruction, the equipment opens the positioning function, the equipment sends positioning data to the cloud monitoring platform after positioning successfully, and the platform confirms that the positioning data is received.

The intelligent control panel 11 is provided with an acceleration sensor, real-time impact alarm feedback is carried out, the angle state is detected at regular time, the difference between the current angle detected by the equipment and the installation angle is large, the equipment sends an angle inclination alarm to the platform, and the platform confirms that the alarm data is received.

When the fire hydrant detects strong impact, the equipment sends an impact alarm to the cloud monitoring platform, and the cloud monitoring platform confirms that the alarm data is received.

The fire hydrant upper cover is equipped with and demolishs alarm device, and when the bolt body shell was destroyed, automatic alarm, equipment detected the bolt body and destroyed, and equipment sends alarm message to cloud monitoring platform, and cloud monitoring platform confirms alarm message, and cloud monitoring platform informs the user through the SMS and other modes, and current improper water intaking is reported to the police.

The lower end of the fire hydrant valve body 1 is provided with the ultrasonic flowmeter 2 which can measure water consumption, and water taking measurement is started abnormally, and if water leakage occurs, a water leakage alarm can be given out.

The utility model discloses the real-time situation that can monitor the fire hydrant includes temperature, water pressure, collision, slope, leaks, the abnormal demolishment of bolt lid and emergent glass window destroys etc. in time sends alarm information to breaking down, and management department can in time maintain, prevents that the fire water is stolen.

The cloud monitoring platform data information can be inquired through a computer client or a mobile phone public number, and the data can be analyzed, so that the intelligent management of the fire hydrant is realized.

Of course, the present invention may have other embodiments, and those skilled in the art may make various corresponding changes and modifications according to the present invention without departing from the spirit and the essence of the present invention, and these corresponding changes and modifications should fall within the protection scope of the appended claims.

Claims (7)

1. Intelligent fire hydrant, including fire hydrant valve body, the key body, valve rod, sealing washer, bolt lid, its characterized in that: the ratchet bolt control mechanism comprises a ratchet wheel, the ratchet wheel is connected with the upper end of the valve rod of the fire hydrant through a connecting sleeve square, and the ratchet bolt control mechanism is connected with a locking mechanism motor; still include intelligent control panel, pressure sensor and communication module, be equipped with GPS orientation module, motor drive circuit on the intelligent control panel, intelligent control panel is all connected to pressure sensor, communication module, motor drive circuit is connected to the locking mechanism motor.

2. The intelligent fire hydrant in claim 1, wherein: the intelligent temperature control system is characterized by further comprising a temperature sensor, an acceleration sensor and an ultrasonic flowmeter, wherein the temperature sensor, the acceleration sensor and the ultrasonic flowmeter are all connected with an intelligent control board.

3. The intelligent fire hydrant in claim 1, wherein: still include NFC panel of punching the card, NFC panel connection intelligent control board of punching the card.

4. The intelligent fire hydrant in claim 2, wherein: the intelligent control board, the ratchet spring bolt control mechanism, the pressure sensor and the temperature sensor are all arranged on the bolt cover, the ultrasonic flowmeter is positioned at the lower end of the valve body, and the acceleration sensor is integrated on the intelligent control board; or the communication module is communicated with the remote intelligent terminal through a mobile phone public number.

5. The intelligent fire hydrant in claim 2, wherein: an emergency glass window is arranged on the bolt cover corresponding to the ratchet spring bolt control mechanism, a magnetic control switch is arranged in the emergency glass window, and the magnetic control switch is connected with an intelligent control board.

6. The intelligent fire hydrant in claim 2, wherein: the communication module comprises a GPRS remote transmission module.

7. Control system suitable for use in a smart fire hydrant according to any one of claims 2-6 in which: the intelligent terminal comprises a cloud monitoring platform and a remote intelligent terminal, wherein the cloud monitoring platform is in wireless connection with a communication module, and the remote intelligent terminal is in wireless connection with the cloud monitoring platform.

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