CN104225856A

CN104225856A - Fire hydrant water pressure monitoring system

Info

Publication number: CN104225856A
Application number: CN201410526454.2A
Authority: CN
Inventors: 冯林
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-09-30
Filing date: 2014-09-30
Publication date: 2014-12-24

Abstract

The invention discloses a fire hydrant water pressure monitoring system which comprises a fire hydrant body, a monitoring device and a server. The monitoring device comprises a housing, wherein a first cylindrical cavity and a second cavity arranged at the upper portion of the first cylindrical cavity are arranged in the housing, a partition plate is arranged between the first cylindrical cavity and the second cavity, a water partition plate vertically moving along the first cylindrical cavity is arranged in the first cylindrical cavity, a guide rod penetrating through the partition plate and vertically sliding is vertically arranged at the upper portion of the water partition plate, a spring is arranged between the water partition plate and the partition plate, the guide rod is sleeved with the spring in a connecting mode, a conductive plate is arranged at the top end of the guide rod, an electrode plate is arranged at the position opposite to the conductive plate, is opposite to the conductive plate and is in contact with or separated from the conductive plate to produce a breakover/disconnection signal, and the electrode plate is connected with a control panel and sends the breakover/disconnection signal to the server.

Description

Fire hydrant water pressure monitoring system

Technical field

The invention belongs to fire-fighting equipment field, particularly relate to fire hydrant water pressure monitoring system.

Background technology

Fire hydrant is commonly used in daily life, being a kind of fire extinguishing device, providing water resource in time for putting out a fire.But the situation of hydraulic pressure deficiency, may appear in long-term no fire hydrant, cause the efficiency that will affect fire extinguishing when fire occurs, serious impact is caused on the life of people, property and environment.Therefore the hydraulic pressure Real-Time Monitoring of fire hydrant is seemed particularly important.

But existing fire hydrant water pressure monitoring conventional method has: (1) is provided with pressure monitoring device and is connected to hydraulic pressure display list in the outside of fire hydrant to detect hydraulic pressure between the key and water inlet of each fire hydrant; (2) testing staff carries with pressure detecting instrument and detects successively each fire hydrant; Although these two kinds of methods can detect the hydraulic pressure in fire hydrant, but to go field observation, so not only waste of manpower, material resources but also constantly can not learn water pressures in all fire hydrants, therefore still can not tackle the problem at its root.

There is provided a kind of can either the water pressures of Real-Time Monitoring fire hydrant, also can not need fire hydrant monitoring system and the monitoring method of testing staff's field observation fire hydrant water pressures, be technical problem instantly urgently to be resolved hurrily.

Summary of the invention

Main purpose of the present invention is to provide a kind of fire hydrant water pressure monitoring system and monitoring method, provide a kind of can either the water pressures of Real-Time Monitoring fire hydrant, also can not need fire hydrant monitoring system and the monitoring method of testing staff's field observation fire hydrant water pressures, solve the technical problem of existing fire hydrant water pressure monitoring system and monitoring method existence.

For achieving the above object, the invention provides a kind of fire hydrant water pressure monitoring system, described fire hydrant water pressure monitoring system comprises fire hydrant body, the monitoring device that described fire hydrant body water route is communicated with and with the server of this checkout gear by network-in-dialing, described monitoring device comprises a housing, the first cylindrical chamber and the second cavity being arranged on the first cylindrical chamber top is provided with in described housing, a dividing plate is provided with between described first cylindrical chamber and the second cavity, a water-stop sheet moved up and down along described first cylindrical chamber is provided with in this first cylindrical chamber, the cavity be positioned at below described water-stop sheet is communicated with fire hydrant body water route, the upper vertical of described water-stop sheet is provided with one and runs through described dividing plate and the guide rod slided up and down, spring is provided with between described water-stop sheet and dividing plate, described spring housing is connected on described guide rod, the top of described guide rod is provided with a conductive plate, the position relative with this conductive plate is provided with a battery lead plate, described battery lead plate is provided with positive and negative electrode, this positive and negative electrode is relative with described conductive plate and with described conductive plate or be separated and produce ON/OFF signal, described battery lead plate and a control panel are electrically connected, described control panel is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, described battery lead plate is arranged on bottom a slide bar, described slide bar runs through the ceiling that is arranged at described second cavity and slides up and down, and be provided with spring between the ceiling of described battery lead plate and described second cavity, described spring housing is connected on described slide bar.

Further, an indicator lamp is provided with outside described housing, described indicator lamp and described control panel are electrically connected, the processing module of described control panel is also for obtaining the ON/OFF signal of positive and negative electrode, and generate control signal according to the ON/OFF signal of this positive and negative electrode, the display of described indicator lamp is controlled according to this control signal.

Further, the processing module of described control panel is also for obtaining the Continuity signal of positive and negative electrode, and generate a hydraulic pressure numerical value according to the Continuity signal of this positive and negative electrode, and described hydraulic pressure numerical value is sent to network side by mixed-media network modules mixed-media or is shown by a display screen be arranged on outside shell.

Further, multiple trigger elements of one or stacked arrangement are also provided with between described conductive plate and described battery lead plate, each trigger elements comprises a gripper shoe, one to be arranged and along the middle part guide rod of the upper and lower vertical sliding motion of described gripper shoe through described gripper shoe, be connected to middle part the upper and lower two ends of guide rod one in the middle part of conductive plate and a middle electrode plate, to be socketed on the guide rod of described middle part and spring between described gripper shoe and described middle electrode plate, described middle electrode plate is provided with middle part positive and negative electrode, described middle part conductive plate is relative with the positive and negative electrode be positioned in the middle part of this above conductive plate, or described middle part conductive plate is relative with the middle part positive and negative electrode being positioned at another trigger elements above conductive plate in the middle part of this, described middle part positive and negative electrode is relative with the conductive plate be positioned in the middle part of this below positive and negative electrode and with described conductive plate or be separated and produce ON/OFF signal, or described middle part positive and negative electrode is relative with the middle part conductive plate being positioned at another trigger elements below positive and negative electrode in the middle part of this and with described middle part conductive plate or be separated and produce ON/OFF signal, each middle electrode plate is all electrically connected with control panel, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and the ON/OFF signal of middle part positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, one first indicator lamp is provided with outside described housing, one or more with trigger elements number the second indicator lamp one to one, the ON/OFF signal of the middle part positive and negative electrode of each trigger elements and the display state one_to_one corresponding of the second indicator lamp, described first indicator lamp, one or more second indicator lamp is all electrically electrically connected with described control panel, the processing module of described control panel is also for obtaining the ON/OFF signal of positive and negative electrode, and generate the first control signal according to the ON/OFF signal of this positive and negative electrode, the display of the first indicator lamp is controlled according to this first control signal, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and generate the second control signal according to the ON/OFF signal of described middle part positive and negative electrode, the display of the second indicator lamp is controlled according to this second control signal.

Further, described processing module is also for obtaining the Continuity signal of middle part positive and negative electrode, or the signal of middle part positive and negative electrode conducting together with positive and negative electrode, and generate a hydraulic pressure numerical value according to the Continuity signal of this positive and negative electrode or middle part positive and negative electrode signal of conducting together with positive and negative electrode, and this hydraulic pressure numerical value is sent to network side by mixed-media network modules mixed-media or is shown by a display screen be arranged on outside shell.

Further, described housing is provided with warning device, and described warning device and described control panel are electrically connected, and when described hydraulic pressure numerical value is more than a threshold value, described processing module controls warning device and gives the alarm.

Further, this system also comprises one or more with the prompting terminal of server by network-in-dialing, the physical address of the mixed-media network modules mixed-media of described fire hydrant and this fire hydrant position one_to_one corresponding, when described hydraulic pressure numerical value is more than a threshold value, described processing module generates alarm signal, and send to network side by mixed-media network modules mixed-media, this alarm signal and this fire hydrant present position together send to by network side reminds terminal to remind.

Further, described guide rod is socketed a guide pin bushing outward, and described guide pin bushing is fixed on described dividing plate, and described guide rod slides up and down in guide pin bushing.

The present invention is by arranging the mutually suitable spring of elastic force, ensure that this fire hydrant is in the range hydraulic pressure of regulation, by the buoyancy that water in cavity below water-stop sheet produces, drive water-stop sheet to move up and down, to contact with battery lead plate to make the conductive plate on the top of guide rod or be separated.No matter contact is still separated, and generation triggering signal is sent to control panel by battery lead plate, and the processing module of control panel produces control signal according to this triggering signal, and by mixed-media network modules mixed-media, control signal is sent to network side.The water pressures of real-time this fire hydrant of detection, without the need to testing staff's Site Detection, save time cost, human cost.

figure of description

Fig. 1 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 1 of the present invention.

Fig. 2 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 2 of the present invention.

Fig. 3 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 3 of the present invention.

Fig. 4 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 4 of the present invention.

Fig. 5 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 5 of the present invention.

Fig. 6 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 6 of the present invention.

Fig. 7 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 7 of the present invention.

Detailed description of the invention

In order to make object of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not used for limiting the present invention.

Embodiment 1

Shown in Figure 1, Fig. 1 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 1 of the present invention.

The invention provides a kind of fire hydrant water pressure monitoring system, comprise fire hydrant body 1, the monitoring device be communicated with described fire hydrant body 1 water route and with the server of this checkout gear by network-in-dialing, described monitoring device comprises a housing 2, the first cylindrical chamber 3 and the second cavity 4 being arranged on the first cylindrical chamber 3 top is provided with in described housing 2, a dividing plate 5 is provided with between described first cylindrical chamber 3 and the second cavity 4, a water-stop sheet 6 moved up and down along described first cylindrical chamber 3 is provided with in described first cylindrical chamber 3, the cavity 7 be positioned at below described water-stop sheet 6 is communicated with fire hydrant body 1 water route, the upper vertical of described water-stop sheet 6 is provided with one and runs through described dividing plate 5 and the guide rod 8 slided up and down, spring 9 is provided with between described water-stop sheet 6 and dividing plate 5, described spring 9 is socketed on described guide rod 8, the top of described guide rod 8 is provided with a conductive plate 10, the position relative with this conductive plate 10 is provided with a battery lead plate 11, described battery lead plate 11 is provided with positive and negative electrode, this positive and negative electrode and described conductive plate 10 are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, described battery lead plate 11 is electrically connected with control panel 12, described control panel 12 is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

The embodiment of the present invention is by arranging the mutually suitable spring of elastic force 9, ensure that this fire hydrant is in the range hydraulic pressure of regulation, by the buoyancy that the water in cavity below water-stop sheet 6 produces, water-stop sheet 6 is moved up and down, contact to make the conductive plate 10 on the top of guide rod 8 with battery lead plate 11 or be separated, the ON/OFF signal of this positive and negative electrode for obtaining the ON/OFF signal of positive and negative electrode, and is sent to the server of network side by described processing module by mixed-media network modules mixed-media.Realize the water pressures detecting this fire hydrant in real time, without the need to testing staff's Site Detection, the cost that saves time, human cost.

Embodiment 2

Shown in Figure 2, Fig. 2 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 2 of the present invention.

The invention provides a kind of fire hydrant water pressure monitoring system, comprise fire hydrant body 1, the monitoring device that described fire hydrant body 1 water route is communicated with and with the server of this checkout gear by network-in-dialing, described monitoring device comprises a housing 2, the first cylindrical chamber 3 and the second cavity 4 being arranged on the first cylindrical chamber 3 top is provided with in described housing 2, a dividing plate 5 is provided with between described first cylindrical chamber 3 and the second cavity 4, a water-stop sheet 6 moved up and down along described first cylindrical chamber 3 is provided with in this first cylindrical chamber 3, the cavity 7 be positioned at below described water-stop sheet 6 is communicated with fire hydrant body 1 water route, the upper vertical of described water-stop sheet 6 is provided with one and runs through described dividing plate 5 and the guide rod 8 slided up and down, spring 9 is provided with between described water-stop sheet 6 and dividing plate 5, described spring 9 is socketed on described guide rod 8, the top of described guide rod 8 is provided with a conductive plate 10, the position relative with this conductive plate 10 is provided with a battery lead plate 11, described battery lead plate 11 is provided with positive and negative electrode, this positive and negative electrode and described conductive plate 10 are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, described battery lead plate 11 and a control panel 12 are electrically connected, described control panel 12 is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Described battery lead plate 11 is arranged on bottom a slide bar 14, described slide bar 14 through described second cavity 4 ceiling 15 and slide up and down, be provided with spring 9 between the ceiling 15 of described battery lead plate 11 and described second cavity 4, described spring 9 is socketed on described slide bar 14.

The present invention is provided with by running through at the ceiling 15 of the second cavity 4 slide bar 14 that can slide up and down, and spring 9 is set between battery lead plate 11 and ceiling 15, avoid hydraulic pressure excessive time, to the excessive compression of battery lead plate 11, cause the damage of battery lead plate 11, meanwhile, guarantee conductive plate 10 technique effect that contact stable with battery lead plate 11 has also been arrived.

Embodiment 3

Shown in Figure 3, Fig. 3 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 3 of the present invention.

The invention provides a kind of fire hydrant water pressure monitoring system, comprise fire hydrant body 1, the monitoring device that described fire hydrant body 1 water route is communicated with and with the server of this checkout gear by network-in-dialing, described monitoring device comprises housing 2, the first cylindrical chamber 3 and the second cavity 4 being arranged on the first cylindrical chamber 3 top is provided with in described housing 2, a dividing plate 5 is provided with between described first cylindrical chamber 3 and the second cavity 4, a water-stop sheet 6 moved up and down along described first cylindrical chamber 3 is provided with in this first cylindrical chamber 3, the cavity 7 be positioned at below described water-stop sheet 6 is communicated with fire hydrant body 1 water route, the upper vertical of described water-stop sheet 6 is provided with one and runs through described dividing plate 5 and the guide rod 8 slided up and down, spring 9 is provided with between described water-stop sheet 6 and dividing plate 5, described spring 9 is socketed on described guide rod 8, the top of described guide rod 8 is provided with a conductive plate 10, the position relative with this conductive plate 10 is provided with a battery lead plate 11, described battery lead plate 11 is provided with positive and negative electrode, this positive and negative electrode and described conductive plate 10 are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, described battery lead plate 11 and a control panel 12 are electrically connected, described control panel 12 is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, indicator lamp 13 is provided with outside described housing 2, described indicator lamp and described control panel 12 are electrically connected, the processing module of described control panel 12 is also for obtaining the ON/OFF signal of positive and negative electrode, and generate control signal according to the ON/OFF signal of this positive and negative electrode, the display of described indicator lamp 13 is controlled according to this control signal.

Be understandable that: when described processing module obtains the Continuity signal of positive and negative electrode, and generate conductivity control signal according to described Continuity signal, it is bright that described processing module controls described indicator lamp according to described conductivity control signal, to show that hydraulic pressure is sufficient; When described processing module gets the cut-off signal of positive and negative electrode, and generate disconnection control signal according to described cut-off signal, described processing module controls described indicator lamp according to described disconnection control signal and extinguishes, to show that hydraulic pressure is not enough; The different color that also can be shown by indicator lamp shows water pressures, and such as, indicator lamp is green, to show that hydraulic pressure is sufficient; Indicator lamp is red to show that hydraulic pressure is not enough.

The present invention by arranging indicator lamp 13 on housing 2, and maintainer can understand the water pressures in fire hydrant fast by the display situation of indicator lamp 13, need not be with water pressure gauge, also need not dismantle fire hydrant, reach easy to maintenance, technique effect efficiently.

Embodiment 4

Shown in Figure 4, Fig. 4 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 4 of the present invention.

Further, multiple trigger elements of one or stacked arrangement are also provided with between described conductive plate 10 and described battery lead plate 11, each trigger elements comprises a gripper shoe 16, one to be arranged and along the middle part guide rod 17 of described gripper shoe about 16 vertical sliding motion through described gripper shoe 16, be connected to middle part guide rod about 17 two ends one in the middle part of conductive plate 18 and a middle electrode plate 19, to be socketed on described middle part guide rod 17 and spring 9 between described gripper shoe 16 and described middle electrode plate 19, described middle electrode plate 19 is provided with middle part positive and negative electrode, described middle part conductive plate 18 conductive plate 10 is relative with the positive and negative electrode be positioned in the middle part of this above conductive plate 18, or described middle part conductive plate 18 is relative with the middle part positive and negative electrode being positioned at another trigger elements above conductive plate 18 in the middle part of this, described middle part positive and negative electrode and the conductive plate 10 be positioned in the middle part of this below positive and negative electrode are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, or described middle part positive and negative electrode and the middle part conductive plate 18 being positioned at another trigger elements below positive and negative electrode in the middle part of this are relatively and contact with described middle part conductive plate 18 or be separated and produce ON/OFF signal, each middle electrode plate 19 is all electrically connected with control panel 12, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and the ON/OFF signal of middle part positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, first indicator lamp 131 is provided with outside described housing 2, one or more with trigger elements number the second indicator lamp 132 one to one, the ON/OFF signal of the middle part positive and negative electrode of each trigger elements and the display state one_to_one corresponding of the second indicator lamp 132, described first indicator lamp 131, one or more second indicator lamp 132 is all electrically connected with described control panel 12, the processing module of described control panel 12 is also for obtaining the ON/OFF signal of positive and negative electrode, and generate the first control signal according to the ON/OFF signal of this positive and negative electrode, the display of the first indicator lamp 131 is controlled according to this first control signal, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and generate the second control signal according to the ON/OFF signal of described middle part positive and negative electrode, the display of the second indicator lamp 132 is controlled according to this second control signal.

Be understandable that: a trigger elements can be set up, reach the function of two-stage monitoring.First indicator lamp 131, second indicator lamp 132 is provided with outside described housing 2, first preset range hydraulic pressure is 0.1 ~ 0.12MPa, second default range hydraulic pressure is 0.12 ~ 0.15MPa, range hydraulic pressure is preset when the hydraulic pressure in cavity is in first, described conductive plate 10 is electrically connected with middle electrode plate 19, middle part conductive plate 18 disconnects with battery lead plate 11, described processing module obtains the Continuity signal of positive and negative electrode, and generate the first control signal according to described Continuity signal, it is red that described processing module controls described first indicator lamp 131 according to described first control signal, to show now described range hydraulic pressure 0.1 ~ 0.12MPa, simultaneously, the Continuity signal of described positive and negative electrode can be sent to network side by mixed-media network modules mixed-media by described processing module, when the hydraulic pressure of cavity increases, when the hydraulic pressure in cavity 7 is in the second range hydraulic pressure, described middle part conductive plate 18 is electrically connected with battery lead plate 11, middle part conductive plate 18 is electrically connected with battery lead plate 11, described processing module obtains the Continuity signal of middle part positive and negative electrode, and generate the second control signal according to described Continuity signal, it is shown in green that described processing module controls described second indicator lamp 132 according to described second control signal, to show that now described range hydraulic pressure is for 0.12 ~ 0.15MPa, simultaneously, the Continuity signal of described middle part positive and negative electrode can be sent to network side by mixed-media network modules mixed-media by described processing module,

The server of network side can understand scope residing for current hydraulic pressure according to the control signal received, the present invention is by setting up trigger elements, reach and both can understand the range hydraulic pressure whether this fire hydrant is in regulation, the current hydraulic pressure also can understanding this fire hydrant is excessive or too small.

It should be noted that, two or more trigger elements can be set up, and the quantity of described second indicator lamp of corresponding increase, the scope of described hydraulic pressure is distinguished by the color of the second indicator lamp display, reach the function of multistage level monitoring, principle is same as described above, repeats no more herein.

Embodiment 5

Shown in Figure 5, Fig. 5 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 5 of the present invention.

Further, described housing 2 is provided with display screen 20, described display screen 20 is connected with described processing module, described processing module is for obtaining the Continuity signal of positive and negative electrode, and generate a hydraulic pressure numerical value according to the Continuity signal of this positive and negative electrode, and described hydraulic pressure numerical value is sent to network side by mixed-media network modules mixed-media or is shown by described display screen 20.

Embodiment 6

Shown in Figure 6, Fig. 6 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 6 of the present invention.

Further, multiple trigger elements of one or stacked arrangement are also provided with between described conductive plate 10 and described battery lead plate 11, each trigger elements comprises a gripper shoe 16, one to be arranged and along the middle part guide rod 17 of described gripper shoe about 16 vertical sliding motion through described gripper shoe 16, be connected to middle part guide rod about 17 two ends one in the middle part of conductive plate 18 and middle electrode plate 19, to be socketed on described middle part guide rod 17 and spring 9 between described gripper shoe 16 and described middle electrode plate 19, described middle electrode plate 19 is provided with middle part positive and negative electrode, described middle part conductive plate 18 is relative with the positive and negative electrode be positioned in the middle part of this above conductive plate 18, or described middle part conductive plate 18 is relative with the middle part positive and negative electrode being positioned at another trigger elements above conductive plate 18 in the middle part of this, described middle part positive and negative electrode and the conductive plate 10 be positioned in the middle part of this below positive and negative electrode are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, or described middle part positive and negative electrode and the middle part conductive plate 18 being positioned at another trigger elements below positive and negative electrode in the middle part of this are relatively and contact with described middle part conductive plate 18 or be separated and produce ON/OFF signal, each middle electrode plate 19 is all electrically connected with control panel 12, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and the ON/OFF signal of middle part positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, described housing 2 is provided with warning device 22, and described warning device 22 is electrically connected with described control panel 12, and when described hydraulic pressure numerical value is more than a threshold value, described processing module controls warning device and gives the alarm.Be understandable that: the standard hydraulic pressure of public place fire hydrant is 0.1MPa, the place standard hydraulic pressure of densely populated place is 0.1MPa, the standard hydraulic pressure of other place fire hydrants is 0.07MPa, if described fire hydrant is positioned at public place, then preset hydraulic pressure is 0.1 ~ 0.15MPa, when described hydraulic pressure exceedes the scope of preset hydraulic pressure, described processing module controls warning device and gives the alarm.

Further, this system also comprises one or more with the prompting terminal of server by network-in-dialing, described prompting terminal comprises wireless communication module, the physical address of the mixed-media network modules mixed-media of described fire hydrant and the geographical position one_to_one corresponding at this fire hydrant place, when described hydraulic pressure numerical value is more than a threshold value, described processing module generates alarm signal, and send to network side by mixed-media network modules mixed-media, this alarm signal and this fire hydrant present position information are together sent to described prompting terminal by the server of network side, and described prompting terminal is reminded.

It should be noted that: the present invention can also obtain the positional information of fire hydrant by GPS locator, the mode of the positional information of other acquisition fire hydrant, all within protection scope of the present invention.

It should be noted that: control signal can be sent to fire management center by control panel 12 of the present invention, carries out the transfer of personnel at fire management center, dispatch personnel carries out reparation or the inspection work of fire hydrant.

Control signal also directly can be sent to the mobile terminal of maintainer by control panel 12 of the present invention, and instant alerts maintainer carries out repairing or inspection work.

Embodiment 7

Shown in Figure 7, Fig. 5 is the structure sectional view of fire hydrant water pressure monitoring system embodiment 7 of the present invention.

A kind of fire hydrant water pressure monitoring of the present invention system, comprise fire hydrant body 1, the monitoring device that described fire hydrant body 1 water route is communicated with and with the server of this checkout gear by network-in-dialing, described monitoring device comprises a housing 2, the first cylindrical chamber 3 and the second cavity 4 being arranged on the first cylindrical chamber 3 top is provided with in described housing 2, a dividing plate 5 is provided with between described first cylindrical chamber 3 and the second cavity 4, a water-stop sheet 6 moved up and down along described first cylindrical chamber 3 is provided with in this first cylindrical chamber 3, the cavity 7 be positioned at below described water-stop sheet 6 is communicated with fire hydrant body 1 water route, the upper vertical of described water-stop sheet 6 is provided with one and runs through described dividing plate 5 and the guide rod 8 slided up and down, spring 9 is provided with between described water-stop sheet 6 and dividing plate 5, described spring 9 is socketed on described guide rod 8, the top of described guide rod 8 is provided with a conductive plate 10, the position relative with this conductive plate 10 is provided with a battery lead plate 11, described battery lead plate 11 is provided with positive and negative electrode, this positive and negative electrode and described conductive plate 10 are relatively and contact with described conductive plate 10 or be separated and produce ON/OFF signal, described battery lead plate 11 and a control panel 12 are electrically connected, described control panel 12 is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

Further, the outer socket of described guide rod 8 one guide pin bushing 21, described guide pin bushing 21 is fixed on described dividing plate 5, and described guide rod 8 slides up and down in guide pin bushing 21.

The present invention, by arranging guide pin bushing 21, reaches guide rod 8 and slides up and down more smooth technique effect.

Be described in detail the detailed description of the invention of invention above, but it is as example, the present invention does not limit and detailed description of the invention described above.For a person skilled in the art, any equivalent modifications or alternative also all among category of the present invention that this invention is carried out, therefore, not departing from the equalization conversion and amendment, improvement etc. done under the spirit and principles in the present invention scope, all should contain within the scope of the invention.

Claims

1. a fire hydrant water pressure monitoring system, it is characterized in that, described fire hydrant water pressure monitoring system comprises fire hydrant body, the monitoring device that described fire hydrant body water route is communicated with and with the server of this checkout gear by network-in-dialing, described monitoring device comprises a housing, the first cylindrical chamber and the second cavity being arranged on the first cylindrical chamber top is provided with in described housing, a dividing plate is provided with between described first cylindrical chamber and the second cavity, a water-stop sheet moved up and down along described first cylindrical chamber is provided with in this first cylindrical chamber, the cavity be positioned at below described water-stop sheet is communicated with fire hydrant body water route, the upper vertical of described water-stop sheet is provided with one and runs through described dividing plate and the guide rod slided up and down, spring is provided with between described water-stop sheet and dividing plate, described spring housing is connected on described guide rod, the top of described guide rod is provided with a conductive plate, the position relative with this conductive plate is provided with a battery lead plate, described battery lead plate is provided with positive and negative electrode, this positive and negative electrode is relative with described conductive plate and with described conductive plate or be separated and produce ON/OFF signal, described battery lead plate and a control panel are electrically connected, described control panel is provided with mixed-media network modules mixed-media and processing module, described processing module is for obtaining the ON/OFF signal of positive and negative electrode, and the ON/OFF signal of this positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

2. fire hydrant water pressure monitoring system according to claim 1, it is characterized in that, described battery lead plate is arranged on bottom a slide bar, described slide bar runs through the ceiling that is arranged at described second cavity and slides up and down, be provided with spring between the ceiling of described battery lead plate and described second cavity, described spring housing is connected on described slide bar.

3. fire hydrant water pressure monitoring system according to claim 1 and 2, it is characterized in that, an indicator lamp is provided with outside described housing, described indicator lamp and described control panel are electrically connected, the processing module of described control panel is also for obtaining the ON/OFF signal of positive and negative electrode, and generate control signal according to the ON/OFF signal of this positive and negative electrode, the display of described indicator lamp is controlled according to this control signal.

4. fire hydrant water pressure monitoring system according to claim 1 and 2, it is characterized in that, the processing module of described control panel is also for obtaining the Continuity signal of positive and negative electrode, and generate a hydraulic pressure numerical value according to the Continuity signal of this positive and negative electrode, and described hydraulic pressure numerical value is sent to network side by mixed-media network modules mixed-media or is shown by a display screen be arranged on outside described housing.

5. fire hydrant water pressure monitoring system according to claim 1 and 2, it is characterized in that, multiple trigger elements of one or stacked arrangement are also provided with between described conductive plate and described battery lead plate, each trigger elements comprises a gripper shoe, one to be arranged and along the middle part guide rod of the upper and lower vertical sliding motion of described gripper shoe through described gripper shoe, be connected to middle part the upper and lower two ends of guide rod one in the middle part of conductive plate and a middle electrode plate, to be socketed on the guide rod of described middle part and spring between described gripper shoe and described middle electrode plate, described middle electrode plate is provided with middle part positive and negative electrode, described middle part conductive plate is relative with the positive and negative electrode be positioned in the middle part of this above conductive plate, or described middle part conductive plate is relative with the middle part positive and negative electrode being positioned at another trigger elements above conductive plate in the middle part of this, described middle part positive and negative electrode is relative with the conductive plate be positioned in the middle part of this below positive and negative electrode and with described conductive plate or be separated and produce ON/OFF signal, or described middle part positive and negative electrode is relative with the middle part conductive plate being positioned at another trigger elements below positive and negative electrode in the middle part of this and with described middle part conductive plate or be separated and produce ON/OFF signal, each middle electrode plate is all electrically connected with control panel, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and the ON/OFF signal of middle part positive and negative electrode is sent to the server of network side by mixed-media network modules mixed-media.

6. fire hydrant water pressure monitoring system according to claim 5, it is characterized in that, one first indicator lamp is provided with outside described housing, one or more with trigger elements number the second indicator lamp one to one, the ON/OFF signal of the middle part positive and negative electrode of each trigger elements and the display state one_to_one corresponding of the second indicator lamp, described first indicator lamp, one or more second indicator lamp is all electrically electrically connected with described control panel, the processing module of described control panel is also for obtaining the ON/OFF signal of positive and negative electrode, and generate the first control signal according to the ON/OFF signal of this positive and negative electrode, the display of the first indicator lamp is controlled according to this first control signal, described processing module is also for obtaining the ON/OFF signal of middle part positive and negative electrode, and generate the second control signal according to the ON/OFF signal of described middle part positive and negative electrode, the display of the second indicator lamp is controlled according to this second control signal.

7. fire hydrant water pressure monitoring system according to claim 5, it is characterized in that, described processing module is also for obtaining the Continuity signal of middle part positive and negative electrode, or the signal of middle part positive and negative electrode conducting together with positive and negative electrode, and generate a hydraulic pressure numerical value according to the Continuity signal of this positive and negative electrode or middle part positive and negative electrode signal of conducting together with positive and negative electrode, and this hydraulic pressure numerical value is sent to network side by mixed-media network modules mixed-media or is shown by a display screen be arranged on outside shell.

8. the fire hydrant water pressure monitoring system according to claim 4 or 7, it is characterized in that, described housing is provided with warning device, and described warning device and described control panel are electrically connected, when described hydraulic pressure numerical value is more than a threshold value, described processing module controls warning device and gives the alarm.

9. fire fighting hydraulic pressure monitoring system according to claim 8, it is characterized in that, this system also comprises one or more with the prompting terminal of server by network-in-dialing, the physical address of the mixed-media network modules mixed-media of described fire hydrant and this fire hydrant position one_to_one corresponding, when described hydraulic pressure numerical value is more than a threshold value, described processing module generates alarm signal, and send to network side by mixed-media network modules mixed-media, this alarm signal and this fire hydrant present position together send to by network side reminds terminal to remind.

10. fire hydrant water pressure monitoring system according to claim 1, it is characterized in that, described guide rod is socketed a guide pin bushing outward, and described guide pin bushing is fixed on described dividing plate, and described guide rod slides up and down in guide pin bushing.