CN108601183A - Beacon monitors system and method - Google Patents
Beacon monitors system and method Download PDFInfo
- Publication number
- CN108601183A CN108601183A CN201810407397.4A CN201810407397A CN108601183A CN 108601183 A CN108601183 A CN 108601183A CN 201810407397 A CN201810407397 A CN 201810407397A CN 108601183 A CN108601183 A CN 108601183A
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- Prior art keywords
- beacon
- relay
- light
- normally
- closed contact
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05B—ELECTRIC HEATING; ELECTRIC LIGHT SOURCES NOT OTHERWISE PROVIDED FOR; CIRCUIT ARRANGEMENTS FOR ELECTRIC LIGHT SOURCES, IN GENERAL
- H05B47/00—Circuit arrangements for operating light sources in general, i.e. where the type of light source is not relevant
- H05B47/20—Responsive to malfunctions or to light source life; for protection
- H05B47/21—Responsive to malfunctions or to light source life; for protection of two or more light sources connected in parallel
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- Circuit Arrangement For Electric Light Sources In General (AREA)
- Alarm Systems (AREA)
Abstract
The disclosure provides a kind of beacon monitoring system and method, is related to monitoring technical field.System includes light detector, master control circuit and fault detection circuit;The light detector is set to the beacon institute in the environment, to the beacon extraneous light in the environment be detected, when detecting that extraneous light brightness reaches threshold value, trigger the connection between master control circuit deenergization and the beacon so that the power supply stops being that the beacon is powered;The light detector triggers the master control circuit and connects connection between the power supply and the beacon when external light luminance is not up to threshold value so that the power supply is beacon power supply, and triggers the fault detection circuit work;The fault detection circuit monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.System and method is monitored using the beacon, can realize the reliable monitoring to beacon.
Description
Technical field
This disclosure relates to which monitoring technical field, system and method is monitored in particular to a kind of beacon.
Background technology
Beacon is high tower-shaped building, installs light units in tower item, position is generally more powerful and influential, and beacon generally has specific
Architectural image, be easy to ship resolution, one of harbour peak can be become.Since earth surface is curved surface, therefore tower body has
Certain height enables light to be examined by remote boat and sees, the reliability service of beacon is particularly significant.
Invention content
In view of this, the disclosure is designed to provide a kind of beacon monitoring system and method, with realize to beacon can
By monitoring.
Present disclose provides a kind of beacons to monitor system, the working condition for monitoring beacon, and the beacon monitors system
Including:Light detector, master control circuit and fault detection circuit, the master control circuit are electrically connected with the beacon;
The light detector is set to beacon institute in the environment, to the beacon extraneous light in the environment
Be detected, when detecting that extraneous light brightness reaches threshold value, trigger master control circuit deenergization and the beacon it
Between connection so that the power supply stops being that the beacon is powered;The light detector is not up to threshold in external light luminance
It when value, triggers the master control circuit and connects connection between the power supply and the beacon so that the power supply is the beacon
Power supply, and trigger the fault detection circuit work;
The fault detection circuit monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.
Optionally, the master control circuit includes the first relay, and coil and the light of first relay detect
It is connected to the power supply after device series connection, described in the first normally-closed contact of first relay is connected to after connecting with the beacon
Power supply;
When external light luminance reaches threshold value, the coil for controlling first relay is powered the light detector,
First normally-closed contact disconnects, to disconnect the connection between the power supply and the beacon;The light detector is outside
When portion's light luminance is not up to threshold value, the coil blackout of first relay is controlled, first normally-closed contact is closed, to
Connect the connection between the power supply and the beacon.
Optionally, the fault detection circuit include the second relay and prompting device, the coil of second relay with
First normally-closed contact and beacon series connection, normally-closed contact and the prompting device and the first relay of second relay
It is connected to power supply after the second normally-closed contact series connection of device;
After the coil blackout of first relay, second normally-closed contact is closed, if the beacon is powered, is controlled
The coil of second relay is powered, to disconnect second relay normally-closed contact and power supply connection, it is described to carry
Show that device does not work;After the coil blackout of first relay, second normally-closed contact is closed, if the beacon no power,
The coil blackout for then controlling second relay, to be connected to second relay normally-closed contact and power supply connection,
The prompting device work.
Optionally, the beacon includes multiple light bulbs, each light bulb it is parallel with one another after with first normally-closed contact and
The coil of second relay is connected;
The beacon monitoring system further includes control sub-loop, and the control sub-loop is connect with each light bulb, in institute
After stating the first normally-closed contact closure, the light bulb controlled in each light bulb is powered.
Optionally, the light bulb is three, including the first light bulb, the second light bulb and third light bulb;
The control sub-loop includes third relay and the 4th relay, the coil of the third relay and described the
One light bulb is connected, and the coil of the normally-closed contact of the third relay and the 4th relay is connected with second light bulb
It is parallel to the both ends of the coil of first light bulb and the third relay afterwards;Another normally-closed contact of the third relay
And the normally-closed contact of the 4th relay connect with the third light bulb after be parallel to first light bulb and the third
The both ends of the coil of relay;
After first normally-closed contact is closed, if the circuit of first light bulb is powered, the coil of the third relay
It is powered, the normally-closed contact of the third relay disconnects, second light bulb and the power-off of third light bulb;First normally-closed contact
After closure, if first light bulb circuit power-off, the coil blackout of the third relay, the third relay it is normally closed
Contact closure, if after the normally-closed contact of the third relay is closed, the circuit of second light bulb is powered, then the described 4th after
The normally-closed contact of electric appliance disconnects, the circuit power-off of the third light bulb;If after the normally-closed contact of the third relay is closed, institute
The circuit power-off of the second light bulb is stated, the normally-closed contact of the coil blackout of the 4th relay, the 4th relay is closed, institute
The circuit for stating third light bulb is powered.
Optionally, the prompting device includes alarm lamp.
Optionally, the alarm lamp includes timer and multiple indicator lights, and the multiple indicator light is shown respectively after opening
The light of different colours;
Second normally-closed contact is closed, and when the beacon no power, is referred to one of in the multiple indicator light
Showing that lamp is opened, the timer carries out timing, and after timing reaches different durations, judges whether the beacon is still not powered on,
If the beacon is still not powered on, controls indicator light corresponding with the duration and open, to according to the sign of different colours
The failure duration of the beacon.
Optionally, the beacon monitoring system further includes solar power generation component, and the solar power generation component is installed on
Outside the beacon, the solar power generation component is connect with rechargeable battery, and is charged to the rechargeable battery.
Optionally, the solar power generation component includes solar panel and rectification circuit, the solar panel
It is installed on outside the beacon, the rectification circuit is electrically connected between the solar panel and the rechargeable battery, institute
The electric energy for stating solar panel generation is transferred to the rechargeable battery after rectification circuit processing, to be filled to be described
Battery charges.
The disclosure additionally provides a kind of beacon monitoring method, is applied to above-mentioned beacon and monitors system, the method includes:
Light detector to beacon extraneous light in the environment be detected, detecting that extraneous light brightness reaches
When threshold value, the connection between master control circuit deenergization and the beacon is triggered so that the power supply stops being that the beacon supplies
Electricity;The light detector triggers the master control circuit and connects the power supply and institute when external light luminance is not up to threshold value
State the connection between beacon so that the power supply is powered for the beacon, and triggers the fault detection circuit work;
The fault detection circuit monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.
The beacon that the disclosure provides monitors system and method, by the way that light detector, master control circuit and fault detect is arranged
Circuit so that light detection device can to beacon light in the environment be detected, be not up in external light luminance
Threshold value when side powers on the connection between beacon by master control circuit so that power supply is powered for beacon, and beacon is to outside
Portion's light luminance is lighted when being not up to threshold value.And when external light luminance reaches threshold value, stop powering for beacon, beacon closes
It closes, avoids non-essential energy consumption.After powering to beacon, fault detection circuit work is also triggered, is supervised by fault detection circuit
It surveys whether beacon is lighted, is prompted when beacon is non-lit up so that related personnel can in time repair beacon, it is ensured that
The reliably working of beacon.
It is cited below particularly to enable the above objects, features, and advantages of the disclosure to be clearer and more comprehensible, and coordinate appended attached drawing,
It is described in detail below.
Description of the drawings
In order to illustrate more clearly of the technical solution of the disclosure, letter will be made to attached drawing needed in the embodiment below
It singly introduces, it should be understood that the following drawings illustrates only some embodiments of the disclosure, therefore is not construed as to range
It limits, it for those of ordinary skill in the art, without creative efforts, can also be according to these attached drawings
Obtain other relevant attached drawings.
Fig. 1 is the block diagram that a kind of beacon that the disclosure provides monitors system.
Fig. 2 is the circuit block diagram that a kind of beacon that the disclosure provides monitors system.
Fig. 3 is another block diagram that a kind of beacon that the disclosure provides monitors system.
Fig. 4 is the block diagram for the solar power generation component that the disclosure provides.
Icon:10- light detectors;20- master controls circuit;30- fault detection circuits;The second relays of 31-;32- is prompted
Device;40- controls sub-loop;51- solar panels;52- rectification circuits;53- rechargeable batteries.
Specific implementation mode
Below in conjunction with attached drawing in the disclosure, the technical solution in the disclosure is clearly and completely described, it is clear that
Described embodiment is only disclosure a part of the embodiment, instead of all the embodiments.Usually retouched in attached drawing here
The component for the disclosure stated and shown can be arranged and be designed with a variety of different configurations.Therefore, below to carrying in the accompanying drawings
The detailed description of the embodiment of the disclosure of confession is not intended to limit claimed the scope of the present disclosure, but is merely representative of this
Disclosed selected embodiment.Based on embodiment of the disclosure, those skilled in the art are in the premise for not making creative work
Lower obtained every other embodiment belongs to the range of disclosure protection.
It should be noted that:Similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi
It is defined, then it further need not be defined and explained in subsequent attached drawing in a attached drawing.
As shown in Figure 1, being the block diagram for the beacon monitoring system that the disclosure provides, beacon monitoring system is for monitoring
The working condition of beacon.
Beacon monitoring system in the disclosure includes light detector 10, master control circuit 20 and fault detection circuit 30.Always
Control circuit 20 is electrically connected with beacon, and fault detection circuit 30 is electrically connected with beacon.
Light detector 10 is set to beacon institute in the environment, to the beacon extraneous light in the environment examine
It surveys, when detecting that extraneous light brightness reaches threshold value, triggers between 20 deenergization of master control circuit and the beacon
Connection so that the power supply stops being that the beacon is powered.The light detector 10 is not up to threshold value in external light luminance
When, it triggers the master control circuit 20 and connects connection between the power supply and the beacon so that the power supply is the beacon
Power supply, and trigger the work of the fault detection circuit 30;
Light detector 10 can be photoreceptor, light sensor etc..
Fault detection circuit 30 monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.
Fig. 2 is please referred to, in order to realize that convenient reliable control, master control circuit 20 may include first relay (Fig. 2
In relay M1), the coil of first relay is connected to the power supply after connecting with the light detector 10, described
First normally-closed contact of the first relay is connected to the power supply after connecting with the beacon.
For the light detector 10 when external light luminance reaches threshold value, the coil for controlling first relay is logical
Electricity, first normally-closed contact disconnects, to disconnect the connection between the power supply and the beacon.The light detector 10
When external light luminance is not up to threshold value, the coil blackout of first relay is controlled, first normally-closed contact is closed,
To connect the connection between the power supply and the beacon.
In the disclosure, light detector 10 is equivalent to a switch, is connected if sensing that brightness reaches the light of threshold value
Connection line is powered to the coil of the first relay, and the first normally-closed contact disconnects, and then disconnects the power supply and the beacon
Between connection, beacon is in off working state.Light detector 10 disconnects if the light for being not sensed by brightness and reaching threshold value
Connection line, to the coil blackout of the first relay, the first normally-closed contact is closed, and then is connected to the power supply and the beacon
Between connection, beacon is in running order.
In order to realize that easy detection, fault detection circuit 30 may include the second relay 31 (the relay M4 in Fig. 2)
With prompting device 32.The coil of second relay 31 is connected with first normally-closed contact and the beacon, described second after
The normally-closed contact of electric appliance 31 is connected to power supply after connecting with the second normally-closed contact of the prompting device 32 and the first relay.
After the coil blackout of first relay, second normally-closed contact is closed, if the beacon is powered, is controlled
The coil of second relay 31 is powered, to disconnect second relay 31 normally-closed contact and power supply connection, institute
Prompting device 32 is stated not work.After the coil blackout of first relay, second normally-closed contact is closed, if the beacon is not
It is powered, then controls the coil blackout of second relay 31, to be connected to the normally-closed contact and electricity of second relay 31
The connection in source, the prompting device 32 work.
In order to ensure beacon reliably working, the beacon in the disclosure may include multiple light bulbs, and beacon monitoring system may be used also
To control multiple light bulbs.
When beacon includes multiple light bulbs, each light bulb rear and first normally-closed contact and described second parallel with one another
The coil of relay 31 is connected.
Please refer to Fig. 3, the beacon monitoring system further includes control sub-loop 40, the control sub-loop 40 with respectively
The light bulb connection, after first normally-closed contact closure, the light bulb controlled in each light bulb is powered.
As the optional realization method of one of which, the light bulb is three, including the first light bulb, the second light bulb and third lamp
Bubble.
The control sub-loop 40 include third relay and the 4th relay, the coil of the third relay with it is described
First light bulb is connected, coil and second bulb string of the normally-closed contact of the third relay and the 4th relay
The both ends of the coil of first light bulb and the third relay are parallel to after connection;The third relay it is another it is normally closed touch
The normally-closed contact of point and the 4th relay is parallel to first light bulb and described the after connecting with the third light bulb
The both ends of the coil of three relays.
After first normally-closed contact is closed, if the circuit of first light bulb is powered, the coil of the third relay
It is powered, the normally-closed contact of the third relay disconnects, second light bulb and the power-off of third light bulb;First normally-closed contact
After closure, if first light bulb circuit power-off, the coil blackout of the third relay, the third relay it is normally closed
Contact closure, if after the normally-closed contact of the third relay is closed, the circuit of second light bulb is powered, then the described 4th after
The normally-closed contact of electric appliance disconnects, the circuit power-off of the third light bulb;If after the normally-closed contact of the third relay is closed, institute
The circuit power-off of the second light bulb is stated, the normally-closed contact of the coil blackout of the 4th relay, the 4th relay is closed, institute
The circuit for stating third light bulb is powered.
Pass through the setting to controlling sub-loop 40 and multiple light bulbs, it is ensured that when there is bulb malfunction, other can be controlled
Light bulb works normally, so that it is guaranteed that beacon being capable of normal illumination, it is ensured that the reliability of beacon illumination.
Wherein, prompting device 32 may include alarm lamp.Prompting device 32 can also be including audible-visual annunciator etc..
In order to further fairly set out the realization principle of the disclosure, the disclosure is by taking circuit block diagram shown in Fig. 2 as an example to this public affairs
The workflow opened illustrates.
The disclosure can be applied to remote districts, isolates and safeguards inconvenient beacon.In the disclosure, light detector 10 can be with
For photoreceptor, the first relay is relay M1, and the second relay 31 is relay M4, and third relay is relay M2, the
Four relays are relay M3, and prompting device 32 can be alarm lamp.
Based on above-mentioned framework, normal (extraneous light brightness reaches threshold value) in daylight, photoreceptor experiences light
The coil of line relay M1 is powered, and normally-closed contact M1 is disconnected, and beacon no power, alarm lamp does not work.(exterior light when light is too dark
Line brightness is not up to threshold value), photoreceptor disconnects circuit, the coil blackout of relay M1, and normally-closed contact M1 is connected, and beacon is logical
Electricity, alarm lamp loop starts.
One beacon can install multiple light bulbs simultaneously, and a light bulb is broken, and circuit can automatically switch to other light bulbs
On circuit.For three light bulbs to be installed in beacon.After normally-closed contact M1 is closed, beacon is started to work.1# light bulbs circuit is powered
Work, since the coil of relay M2 obtains electric, normally-closed contact M2 disconnections, 2# light bulbs circuit and the disconnection of 3# light bulbs circuit, at this time only
There are 1# light bulbs bright.The problems such as due to the use of the service life, if 1# bulb malfunctions, 1# light bulbs circuit powers off at this time, the coil of relay M2
Dead electricity, normally-closed contact M2 are closed, and 2# light bulbs circuit is connected, and 2# light bulbs are bright, and the coil of relay M3 obtains electric, and normally-closed contact M3 is disconnected
It opens, 3# light bulbs circuit is in off-position, and only 2# light bulbs are bright at this time.Such as follow-up 2# bulb malfunctions, 2# light bulbs return at this time
Road powers off, the coil losing electricity of relay M3, and normally-closed contact M3 is closed, and 3# light bulbs circuit is connected, and 3# light bulbs are bright.
When beacon works, the work of fault alarm loop start.That is after normally-closed contact M1 is closed, beacon is started to work, together
When fault alarm circuit in normally-closed contact M1 be also be closed.If beacon works normally, that is, there is the energization of light bulb circuit so that relay
The coil of device M4 obtains electric, and normally-closed contact M4 is disconnected in fault alarm circuit, and alarm lamp do not work.Not such as beacon items light bulb circuit
It is powered, the coil losing electricity of relay M4, normally-closed contact M4 is closed in fault alarm circuit, and alarm lamp is bright, notifies operation and maintenance people
Member goes to overhaul.
In order to easily show the duration of beacon failure, when prompting device 32 includes alarm lamp, alarm lamp may include meter
When device and multiple indicator lights, the multiple indicator light shows the light of different colours respectively after opening.Correspondingly, described second often
Closed contact is closed, and when the beacon no power, and indicator light is opened one of in the multiple indicator light, the timer
Timing is carried out, and after timing reaches different durations, judges whether the beacon is still not powered on, if the beacon is still not powered on,
Control indicator light corresponding with the duration is opened, to the failure duration of beacon described in the sign according to different colours.
Wherein, it is not worked normally in initial detecting to beacon and timing obtains what beacon difference duration did not worked normally
In the case of, the color of the corresponding indicator light opened can flexibly be set.For example, it is abnormal to beacon to may be set in initial detecting
It is corresponding to open green indicator light when work.It is corresponding to open yellow instruction when timing show that the first duration of beacon does not work normally
Lamp.It is corresponding to open red indicating light etc. when timing show that the second duration of beacon does not work normally.The present embodiment does not limit this
System.The indicator light cost of a variety of colors is relatively low and small volume, thus it is relatively high to select indicator light to carry out instruction sexual valence, not duty
Between.
It should be appreciated that the instruction to beacon exception duration can also be realized by other means.For example, prompting device 32 can be with
Including timer and display, the timer counts the duration of beacon exception, and is shown by the display
Show.It selects display to be shown, beacon exception duration can be intuitively shown, to improve user experience.
Fig. 4 is please referred to, the beacon monitoring system can also include solar power generation component, the solar power generation
Component is installed on outside the beacon, and the solar power generation component is connect with rechargeable battery 53, and gives the rechargeable battery 53
Charging.
Rechargeable battery 53 can monitor the stand-by power supply of system as beacon, and system power supply is monitored for beacon.So that it is guaranteed that
Beacon monitors the reliability service of system.
Wherein, the solar power generation component includes solar panel 51 and rectification circuit 52, the solar cell
Plate 51 is installed on outside the beacon, and the rectification circuit 52 is electrically connected to the solar panel 51 and the rechargeable battery
Between 53, the electric energy that the solar panel 51 generates is transferred to the rechargeable battery after the processing of the rectification circuit 52
53, to charge for the rechargeable battery 53.
On the basis of the above, the disclosure also provides a kind of beacon monitoring method, is applied to above-mentioned beacon and monitors system, institute
The method of stating includes:Light detector 10 to beacon extraneous light in the environment be detected, detecting that extraneous light is bright
When degree reaches threshold value, the connection between 20 deenergization of triggering master control circuit and the beacon so that the power supply stops as institute
State beacon power supply;The light detector 10 triggers the master control circuit 20 and connects when external light luminance is not up to threshold value
Connection between the power supply and the beacon so that the power supply is powered for the beacon, and triggers the fault detect electricity
Road 30 works.
The fault detection circuit 30 monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up
The beacon that the disclosure provides monitors system and method, by the way that light detector 10, master control circuit 20 and failure is arranged
Detection circuit 30 so that light detection device can to beacon light in the environment be detected, in external light luminance
Not up to threshold value when side powers on the connection between beacon by master control circuit 20 so that power supply is powered for beacon, beacon
To be lighted when external light luminance is not up to threshold value.And when external light luminance reaches threshold value, stop powering for beacon,
Beacon is closed, and non-essential energy consumption is avoided.After powering to beacon, also triggers fault detection circuit 30 and work, examined by failure
Slowdown monitoring circuit 30 monitor beacon whether light, prompted when beacon is non-lit up so that related personnel can in time to beacon into
Row repair, it is ensured that the reliably working of beacon.
In several embodiments that the disclosure is provided, it should be understood that disclosed system and method can also pass through
Other modes are realized.System and method embodiment described above is only schematical, for example, the flow chart in attached drawing
The system of multiple embodiments according to the disclosure, the system in the cards of method and computer program product are shown with block diagram
Framework, function and operation.In this regard, each box in flowchart or block diagram can represent a module, program segment or generation
A part for code, the part of the module, section or code include one or more for realizing defined logic function
Executable instruction.It should also be noted that at some as in the realization method replaced, the function that is marked in box can also be with
Occur different from the sequence marked in attached drawing.For example, two continuous boxes can essentially be basically executed in parallel, they
Sometimes it can also execute in the opposite order, this is depended on the functions involved.It is also noted that block diagram and or flow chart
In each box and the box in block diagram and or flow chart combination, the special of function or action as defined in executing can be used
Hardware based system is realized, or can be realized using a combination of dedicated hardware and computer instructions.
In addition, each function module in each embodiment of the disclosure can integrate to form an independent portion
Point, can also be modules individualism, can also two or more modules be integrated to form an independent part.
It, can be with if the function is realized and when sold or used as an independent product in the form of software function module
It is stored in a computer read/write memory medium.Based on this understanding, the technical solution of the disclosure is substantially in other words
The part of the part that contributes to existing technology or the technical solution can be expressed in the form of software products, the meter
Calculation machine software product is stored in a storage medium, including some instructions are used so that a computer equipment (can be
People's computer, electronic equipment or network equipment etc.) execute all or part of step of each embodiment the method for the disclosure
Suddenly.And storage medium above-mentioned includes:USB flash disk, mobile hard disk, read-only memory (ROM, Read-OnlyMemory), arbitrary access
The various media that can store program code such as memory (RAM, Random Access Memory), magnetic disc or CD.It needs
It is noted that herein, the terms "include", "comprise" or its any other variant are intended to the packet of nonexcludability
Contain, so that the process, method, article or equipment including a series of elements includes not only those elements, but also includes
Other elements that are not explicitly listed, or further include for elements inherent to such a process, method, article, or device.
In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including the element
Process, method, article or equipment in there is also other identical elements.
The foregoing is merely the alternative embodiments of the disclosure, are not limited to the disclosure, for the skill of this field
For art personnel, the disclosure can have various modifications and variations.It is all within the spirit and principle of the disclosure, made by any repair
Change, equivalent replacement, improvement etc., should be included within the protection domain of the disclosure.
Claims (10)
1. a kind of beacon monitors system, the working condition for monitoring beacon, which is characterized in that the beacon monitors system packet
It includes:Light detector, master control circuit and fault detection circuit, the master control circuit are electrically connected with the beacon;
The light detector is set to beacon institute in the environment, to the extraneous light progress of beacon institute in the environment
Detection, when detecting that extraneous light brightness reaches threshold value, is triggered between master control circuit deenergization and the beacon
Connection so that the power supply stops being that the beacon is powered;The light detector when external light luminance is not up to threshold value,
It triggering the master control circuit and connects connection between the power supply and the beacon so that the power supply is beacon power supply,
And trigger the fault detection circuit work;
The fault detection circuit monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.
2. beacon according to claim 1 monitors system, which is characterized in that the master control circuit includes the first relay,
The coil of first relay is connected to the power supply after connecting with the light detector, and the first of first relay
Normally-closed contact is connected to the power supply after connecting with the beacon;
When external light luminance reaches threshold value, the coil for controlling first relay is powered the light detector, described
First normally-closed contact disconnects, to disconnect the connection between the power supply and the beacon;The light detector is in exterior light
When line brightness is not up to threshold value, the coil blackout of first relay is controlled, first normally-closed contact is closed, to connect
Connection between the power supply and the beacon.
3. beacon according to claim 2 monitors system, which is characterized in that the fault detection circuit includes the second relay
Device and prompting device, the coil of second relay are connected with first normally-closed contact and the beacon, second relay
The normally-closed contact of device is connected to power supply after connecting with the second normally-closed contact of the prompting device and the first relay;
After the coil blackout of first relay, second normally-closed contact is closed, if the beacon is powered, described in control
The coil of second relay is powered, to disconnect second relay normally-closed contact and power supply connection, the prompting device
It does not work;After the coil blackout of first relay, second normally-closed contact is closed, if the beacon no power, is controlled
The coil blackout for making second relay, to be connected to second relay normally-closed contact and power supply connection, it is described
Prompting device works.
4. beacon according to claim 3 monitors system, which is characterized in that the beacon includes multiple light bulbs, each described
It connects with the coil of first normally-closed contact and second relay after light bulb is parallel with one another;
Beacon monitoring system further includes control sub-loop, and the control sub-loop is connect with each light bulb, described the
After one normally-closed contact is closed, the light bulb controlled in each light bulb is powered.
5. beacon according to claim 4 monitors system, which is characterized in that the light bulb is three, including the first light bulb,
Second light bulb and third light bulb;
The control sub-loop includes third relay and the 4th relay, the coil of the third relay and first lamp
Bubble series connection, the coil of the normally-closed contact of the third relay and the 4th relay connect with second light bulb after simultaneously
It is coupled to the both ends of the coil of first light bulb and the third relay;Another normally-closed contact of the third relay and
The normally-closed contact of 4th relay is parallel to first light bulb and the third relay after connecting with the third light bulb
The both ends of the coil of device;
After first normally-closed contact is closed, if the circuit of first light bulb is powered, the coil of the third relay is powered,
The normally-closed contact of the third relay disconnects, second light bulb and the power-off of third light bulb;First normally-closed contact is closed
Afterwards, if the circuit power-off of first light bulb, the coil blackout of the third relay, the normally-closed contact of the third relay
It is closed, if after the normally-closed contact of the third relay is closed, the circuit of second light bulb is powered, then the 4th relay
Normally-closed contact disconnect, the power-off of the circuit of the third light bulb;If after the normally-closed contact of the third relay is closed, described the
The circuits of two light bulbs powers off, the coil blackout of the 4th relay, and the normally-closed contact of the 4th relay is closed, and described the
The circuit of three light bulbs is powered.
6. beacon according to claim 3 monitors system, which is characterized in that the prompting device includes alarm lamp.
7. beacon according to claim 6 monitors system, which is characterized in that the alarm lamp includes timer and multiple fingers
Show the light for showing different colours after lamp, the multiple indicator light are opened respectively;
Second normally-closed contact is closed, and when the beacon no power, indicator light one of in the multiple indicator light
It opens, the timer carries out timing, and after timing reaches different durations, judges whether the beacon is still not powered on, if institute
It states beacon to be still not powered on, controls indicator light corresponding with the duration and open, described in the sign according to different colours
The failure duration of beacon.
8. beacon according to any one of claims 1 to 7 monitors system, which is characterized in that the beacon monitoring system is also
Including solar power generation component, the solar power generation component is installed on outside the beacon, the solar power generation component with
Rechargeable battery connects, and charges to the rechargeable battery.
9. beacon according to claim 8 monitors system, which is characterized in that the solar power generation component includes solar energy
Solar panel and rectification circuit, the solar panel are installed on outside the beacon, and the rectification circuit is electrically connected to described
Between solar panel and the rechargeable battery, the electric energy that the solar panel generates handles it through the rectification circuit
After be transferred to the rechargeable battery, to for the rechargeable battery charge.
10. a kind of beacon monitoring method, which is characterized in that be applied to claim 1 to 9 any one of them beacon monitoring system
System, the method includes:
Light detector to beacon extraneous light in the environment be detected, detecting that extraneous light brightness reaches threshold value
When, trigger the connection between master control circuit deenergization and the beacon so that the power supply stops being that the beacon is powered;Institute
Light detector is stated when external light luminance is not up to threshold value, the master control circuit is triggered and connects the power supply and the beacon
Between connection so that the power supply is beacon power supply, and triggers fault detection circuit work;
The fault detection circuit monitors whether the beacon is lighted, and is prompted when the beacon is non-lit up.
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