CN104375097B - Fire emergency lamp comprehensive detection system and method - Google Patents
Fire emergency lamp comprehensive detection system and method Download PDFInfo
- Publication number
- CN104375097B CN104375097B CN201410681351.3A CN201410681351A CN104375097B CN 104375097 B CN104375097 B CN 104375097B CN 201410681351 A CN201410681351 A CN 201410681351A CN 104375097 B CN104375097 B CN 104375097B
- Authority
- CN
- China
- Prior art keywords
- resistance
- data
- emergency lamp
- connects
- fire emergency
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Fire Alarms (AREA)
Abstract
The invention discloses a kind of fire emergency lamp comprehensive detection system and method, including:Signal input module, data conversion and processing module and data outputting module;Charge control module connects fire emergency lamp, the fire emergency lamp connects signal input module, the output end connection data conversion and processing module of the signal input module, data conversion and processing module the connection data outputting module, wherein, the signal input module includes:Current acquisition module, voltage acquisition module and photoelectric signal collection module, the current acquisition module connection data conversion and processing module, the voltage acquisition module connection data conversion and processing module, the photoelectric signal collection module connection data conversion and processing module.
Description
Technical field
The present invention relates to computer realm, more particularly to a kind of fire emergency lamp comprehensive detection system and method.
Background technology
Fire emergency lamp total quality allows of no optimist, and is mainly manifested in:The emergency time does not reach standard requirement
90min;Sheathing material uses combustible material mostly;Final voltage is relatively low;Fail to meet standard gauge rated voltage requirement
80%;Discharge and recharge long duration test last discharge time does not reach the 85% of discharge time first and answers >=90min;Figure and word
It is not inconsistent standardization requirement etc..Cause fire emergency lamp product quality inferior, the reason for not meeting national standard mainly has following
Several aspects:
1st, enterprise-quality realizes thin, management system and falls behind, lacks qualified technical personnel
China's fire emergency lamp national Specification, fire emergency lamp manufacturing enterprise must be by before dispatching from the factory per batch products
Product standard is required to carry out exfactory inspection, and clear stipulaties exfactory inspection project, closed per batch products through product quality inspection
The qualified book that dispatches from the factory is provided after lattice by production unit, can be put goods on the market.But there is considerable part manufacturer to be to have done a little outer
See etc detection, passs that raw material in production process are stocked up, processing close, assemble flow close, factory testing pass etc. important step
It is not tight to check on, or even become a mere formality, it is intended merely to deal with the inspection of fire supervision department;Some manufacturers lack necessary
Detection device, it is individual other or even at all small without detection device, especially those production scales, just set foot in the enterprise of fire product
Industry, is the production of " family workshop " formula mostly, and enterprise-quality consciousness is thin, and production technology, managerial experiences lack, and just can not produce at all
Qualified product really up to the mark;Economic benefit is pursued simply by some manufacturers, by every possible means reduction product cost, to crucial first device
Part, parts are onlyed demand does not seek quality at a low price, and What is more, to reach inexpensive purpose, deliberately reduces the product skill about part
The requirement of art standard, causes bum fire emergency lamp to come into the market.On the other hand, enterprise personnel quality is not universal high, from
In recent years to fire emergency lamp producer check situation it is seen that, the workman that most enterprises are recruited is cheap labour, text
Change quality low, and without just on duty hurriedly by professional technique training;Or even quality or the person in charge of the technology aspect itself of Some Enterprises
Article index is also had little understanding.In addition, enterprise " family " phenomenon is more universal, business administration system is caused not conform to
Reason, many business entitys are both chief executive, are workshop class, group leader again.Enterprise talent proportion structure numerous imbalances, especially
It is that the middle management talent, technician are out of stock, talent competition mechanism can not be formed, and technological reserve is difficult to keep up with society with rapid changepl. never-ending changes and improvements
Can developing steps and market development demand.
2nd, enterprises propagandist implements that standard is ineffective, tight, technological innovation initiative is not high for execution standard
The existing fire emergency lamp standard GB17945-2000 of China《Fire emergency lamp》In issue on January 30th, 2000, and
Enforced on October 1st, 2000, and it is Ministry of Public Security's professional standard that fire emergency lamp product continues to use always before this
GA54-93《Fire-fighting emergency headlamp has general technical specifications》.Old and new standard is compareed, and many performance indications of product have been made accordingly
Increase and redjustment and modification, more conventional professional standard, existing national standards to fire emergency lamp technical conditions requirement have very
Big improves, to ensure that fire emergency lamp quality provides legal guarantee more preferably, stronger.But even to this day, from
The producer of production fire emergency lamp performs new standard situation and seen, has part producer that new standard a surname only has been passed through into several major techniques
Personnel, and other employees do not know that what new standard is also, while each link in production is also not carried out with process
New standard;Some enterprise product design document and pattern still continue to use former standard so far, do not carry out product approval by new standard, disappear
Anti- emergency light product technology transformation is even more not know where to begin with innovation;Considerable part enterprise is to pursue economic benefit and immediate interest,
Still in sale stock, very disruptive fire emergency lamp market order.In this regard, ineffective, execution is passed through not to new standard a surname in enterprise
Sternly, technological innovation consciousness is weak, indifferent, and the policy and mechanism of technological innovation are not in place, not only have impact on product quality, and
And cause current product update paces slowly, uncomfortable situation in response to the market demand.
3rd, disorderly competition, user pursue at a low price simply between enterprise
Fire emergency lamp production and sales industry is as other industries, and same market competition is very fierce, product price war
Become a flash point increasingly.Manufacturer is generally expanded sales to occupy market by demanding a lower price sale, and price reduction, which is fought for sale, have been seemed into enterprise
The only resource that industry is participated in market competition, ignores the primary factor expanded market for commodities --- and product quality, as a result production is looked forward to
Industry is made an issue of on raw material, component by fair means or foul, and some manufacturing enterprises even artificially simplify production process and detection
Program, to reach the purpose for reducing cost, so that it is not high to result in current fire emergency lamp total quality level.On the other hand,
User itself security against fire consciousness is not also the factor that cause product quality not high one can not be ignored by force.Some users are unilateral
Think, fire-fighting equipment input will not produce direct economic benefit, can save and then save.The low price of product is put undue emphasis on therefrom, is neglected
Depending on product quality requirement, individual user even knows that vacation is bought in vacation, only schemes cheaply, to provide to the sale of underproof fire emergency lamp
Market.
At present the country fire emergency lamp detection method have a lot, detection device be also it is uneven, in general, at this stage
The deficiency that fire emergency lamp detection device is present is concentrated mainly on the following aspects.
1st, functions of the equipments are single
Every detection device can only detect single project, carry out the detection of fire emergency lamp all events and need to purchase many setting
Standby, fund input is big, inefficiency;
2nd, automation degree of equipment is low
Result of the test is generally to visually observe, such as:The conversion time of fire emergency lamp is determined, should by being artificially transferred to from main electricity
Anxious state, then determines conversion time with stopwatch, because human eye has certain delay when light fixture changes, so actual
The value of test is greater than working value itself, and the result so obtained is also inaccurate, and everyone is different, obtained survey
Test result also has difference, if test result is easy for causing the erroneous judgement of result in critical condition, and experiment survey is filled in by artificial
There is larger error in trial record document, assay;
3rd, design of testing device is simple
Human-computer interaction is poor, and operation is extremely inconvenient, if testing staff wants that the detection for grasping a class product needs study many
The operating method of platform equipment, very big inconvenience is brought to work.By the current domestic every country quality testing center of investigation and respectively
The quality supervision and test department of province, is all targetedly to develop some simple fire-fighting emergents according to the actual conditions of oneself
Lamp inspection measurement equipment, intelligence degree is not high, and function is single, and the sample size of one-time detection is few, and efficiency is low.
The content of the invention
It is contemplated that at least solving technical problem present in prior art, especially innovatively proposing a kind of fire-fighting should
Anxious lamp comprehensive detection system and method.
In order to realize the above-mentioned purpose of the present invention, the invention provides a kind of fire emergency lamp comprehensive detection system, it is closed
Key is, including:Charge control module, signal input module, data conversion and processing module and data outputting module;
Described charge control module one end connects fire emergency lamp, and the charge control module other end connects data conversion
And processing module, the output end connection data conversion of the signal input module and processing module, the data conversion and processing
Module connects data outputting module;
The signal input module includes:Current acquisition module, voltage acquisition module and photoelectric signal collection module, successively
Electric current, voltage and photosignal for gathering the fire emergency lamp, current acquisition module connection data conversion and
Processing module, the voltage acquisition module connection data conversion and processing module, the photoelectric signal collection module connects data
Conversion and processing module;
Charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, charge control mould are cut off
Block, the fire emergency lamp proceeds by electric discharge work, and emergency light lighting source is lighted N minutes, the photoelectric signal collection mould
Block receives emergency light lighting source photosignal, and charging interval and emergency light lighting source lighting time are fed back into detecting system
It is compared, meets given threshold requirement, send qualified prompting, described M, N is positive number;
Overcharge current test is carried out by current acquisition module to the fire emergency lamp of charging complete, passes through voltage acquisition
Module carries out overdischarge voltage tester, and the data after test are transferred into detecting system by data collecting card, to detection data
Result be compared with given threshold, send qualified or unqualified prompting;
Conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test are passed by data collecting card
It is defeated to arrive detecting system, to detecting that the result of data is compared with given threshold, send qualified or unqualified prompting.
Above-mentioned technical proposal has the beneficial effect that:Stability of the solution system during continuously working long hours and reliable
Property, the electric current, voltage and photosignal for gathering fire emergency lamp are more stable.
Described fire emergency lamp comprehensive detection system, it is preferred that the charge control module includes:First light-emitting diodes
Pipe, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode, the 6th diode, the 20th
Five resistance, the 26th resistance, the 27th resistance, the 28th resistance, the first relay, the second relay, 220V chargings
Port, re-charge control port, charging termination instruction port, charging terminate port;
Described the first normal open switch of first relay one end connects 220V charging ports, and first relay second is normally opened
Switch one end connection charging termination instruction port, described first relay coil one end connects the 5th diode cathode, described the
Five diode cathodes are also connected with re-charge control port, and the 5th diode cathode connects the first relay coil other end, institute
State the 5th diode cathode and be also connected with re-charge control port, the first normal open switch of the first relay other end connection 220V fills
Electric port, the first light emitting diode positive pole connects first relay the second normal open switch other end, described first luminous two
Pole pipe negative pole connects the 25th resistance one end, and the 25th resistance other end connection charging terminates port, described second
Light emitting diode positive pole connects the first relay fixing end, and the second light emitting diode negative pole connects the 26th resistance one
End, the 26th resistance other end connection charging termination instruction port earth terminal;
Described the first normal open switch of second relay one end connects 220V charging ports, and second relay second is normally opened
Switch one end connection charging termination instruction port, described second relay coil one end connects the 6th diode cathode, described the
Six diode cathodes are also connected with re-charge control port, and the 6th diode cathode connects the second relay coil other end, institute
State the 6th diode cathode and be also connected with re-charge control port, the first normal open switch of the second relay other end connection 220V fills
Electric port, the 3rd light emitting diode positive pole connects second relay the second normal open switch other end, the described 3rd luminous two
Pole pipe negative pole connects the 27th resistance one end, and the 27th resistance other end connection charging terminates port, the described 4th
Light emitting diode positive pole connects the second relay fixing end, and the 4th light emitting diode negative pole connects the 28th resistance one
End, the 28th resistance other end connection charging termination instruction port earth terminal.
Above-mentioned technical proposal has the beneficial effect that:Charge control module can provide charging work for fire emergency lamp, when
So in real work, re-charge control port can also extend relay and indicator lamp, after extension, by increasing capacitance it is possible to increase detection
Fire emergency lamp quantity, multigroup detection sample realizes the detection of a parameter simultaneously, and this method passes through duplex high precision number
According to capture card acquisition testing data simultaneously, overcome fire emergency lamp and carry out multiple with needing to configure multiple devices when entering and detecting
Problem.
Described fire emergency lamp comprehensive detection system, it is preferred that the data conversion and processing module include:Data are adopted
Truck and detecting system,
The data collecting card input connects photoelectric signal collection module, the data collecting card output end connecting detection
System, the fire emergency lamp real time data that the detecting system is used to be gathered data collecting card carries out analysis judgement.
Above-mentioned technical proposal has the beneficial effect that:Multigroup sample detects centralized Control, realizes several groups of detection samples while entering
The display in good time of row detection state is on computers.
Described fire emergency lamp comprehensive detection system, it is preferred that the data outputting module includes:Data memory module
And data inquiry module;
The data memory module input connection data conversion and processing module, the data memory module output end connect
Data inquiry module input is connect, the data inquiry module is used for the comprehensive parameters for showing detected fire emergency lamp.
Above-mentioned technical proposal has the beneficial effect that:Data memory module and data inquiry module preferably can be stored and looked into
Ask the data of the fire emergency lamp after detection.
Described fire emergency lamp comprehensive detection system, it is preferred that the data inquiry module includes:Printer and display
Device, the printer connects data inquiry module, the integrated data for printing detected fire emergency lamp, the display
Device connects data inquiry module, the integrated data for showing detected fire emergency lamp.
Described fire emergency lamp comprehensive detection system, it is preferred that the photoelectric signal collection module includes:First electricity
Resistance, second resistance, 3rd resistor, the 4th resistance, the 5th resistance, the 6th resistance, the 7th resistance, the 8th resistance, the 9th resistance,
Ten resistance, the 11st resistance, the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th resistance, the tenth
Seven resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd resistance, the 23rd electricity
Resistance, the 24th resistance, the first infrared diode, second transistor, third transistor, the 4th infrared diode, the 5th
Transistor, the 6th transistor, the 7th infrared diode, the 8th transistor, the 9th transistor, the tenth infrared diode,
11 transistors, the tenth two-transistor, the first diode, the second diode, the 3rd diode, the 4th diode, first switch,
Second switch, the 3rd switch, the 4th switch, the first LED, the 2nd LED, the 3rd LED, the 4th LED, first comparator, the second ratio
Compared with device, the 3rd comparator, the 4th comparator;
Described first LED negative poles connection second resistance one end, the second resistance other end connection second transistor transmitting
Pole, the second transistor base stage connects the first infrared diode negative pole, the first infrared diode positive pole connection the
Four resistance one end, described 4th resistance one end is also connected with the 5th resistance one end, and the 5th resistance other end connects the 3rd crystal
Pipe base stage, described third transistor emitter stage connection first resistor one end, the first resistor other end connects first switch one
End, the first switch other end connects the 4th infrared diode positive pole, and the third transistor base stage is also connected with the 6th electricity
One end is hindered, the 6th resistance other end connects first comparator output end, the electricity of first comparator negative pole end connection second
The other end is hindered, the first comparator positive terminal connects the 4th resistance other end;The third transistor colelctor electrode connection first
Diode cathode, the first LED positive poles connect the first switch other end, and the first LED negative poles are also connected with the 2nd LED and born
Pole, described 2nd LED positive poles connection second switch one end, the second switch other end connects the 12nd resistance one end, described
The 12nd resistance other end connects the 11st resistance one end, and the 11st resistance other end connects the tenth resistance one end, the tenth
The resistance other end connects the second comparator output terminal, and the second comparator positive terminal connects the 9th resistance one end, the described 9th
Resistance one end is also connected with the 8th resistance one end, and the 8th resistance other end connects the 7th resistance one end, and the 7th resistance is another
One end connects the second comparator negative pole end, and the second comparator negative pole end is also connected with the 5th emitter, the described 5th
Transistor base connects the 4th infrared diode negative pole, and the 5th transistor collector connects the 6th emitter,
6th transistor collector connects the second diode cathode, and second diode cathode connects the 3rd infrared diode
Negative pole, the 3rd infrared diode positive pole connection the 3rd switchs one end, the electricity of the 3rd switch other end connection the 18th
One end is hindered, the 18th resistance other end connects the 17th resistance one end, the 17th resistance other end connection the 16th
Resistance one end, the 16th resistance other end connects the 3rd comparator output terminal, the 3rd comparator negative pole end connection the
13 resistance one end, the 13rd resistance other end connects the 14th resistance one end, the 14th resistance other end connection
3rd comparator positive terminal, the 14th resistance other end is also connected with the 15th resistance one end, and the 15th resistance is another
The second diode cathode of end connection, the 9th transistor collector connects the 3rd diode cathode, and the 3rd diode is just
Pole connects the 4th LED negative poles, and the 4th LED positive poles connection the 4th switchs one end, the 4th switch other end connection second
14 resistance one end, the 24th resistance other end connects the 23rd resistance one end, and the 23rd resistance is another
End the 22nd resistance one end of connection, the 22nd resistance other end connects the 4th comparator output terminal, the 4th ratio
The 20th resistance one end is connected compared with device positive terminal, the 20th resistance other end connects the 19th resistance one end, the described tenth
The nine resistance other ends connect the 4th comparator negative pole end, and the 19th resistance other end is also connected with the 11st transistor emission
Pole, the 11st transistor base connects the tenth infrared diode negative pole, the tenth infrared diode positive pole connection
7th infrared diode positive pole, the 4th comparator positive terminal is also connected with the 21st resistance one end, the described 21st
The resistance other end connects the 23rd resistance one end, and the 23rd resistance other end is also connected with the tenth two-transistor base stage,
The tenth two-transistor colelctor electrode connects the 4th diode cathode, and the 4th diode cathode is connecting the 3rd diode just
Pole.
Above-mentioned technical proposal has the beneficial effect that:The photoelectric signal collection module can receive fire emergency lamp and be sent
Photosignal, pass through photoelectric signal collection module transfer to data collecting card.
Invention additionally discloses a kind of fire emergency lamp method for comprehensive detection, it is it is critical that comprise the following steps:
Step 1, charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, cut-out charging
Control module, the fire emergency lamp proceeds by electric discharge work, and emergency light lighting source is lighted N minutes, by the charging interval and
Emergency light lighting source lighting time feeds back to detecting system and is compared, and meets given threshold requirement, sends qualified prompting institute
M, N are stated for positive number;
Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, will tested
Data afterwards are transferred to detecting system by data collecting card, to detecting that the result of data is compared with given threshold, send
Qualified or unqualified prompting;
Step 3, conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test is adopted by data
Truck is transferred to detecting system, to detecting that the result of data is compared with given threshold, sends qualified or unqualified prompting.
Above-mentioned technical proposal has the beneficial effect that:Methods described continuously works long hours in the environment of system work, body
Reveal stability and reliability, the electric current, voltage and photosignal for gathering fire emergency lamp are more stable.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 1 includes:
Step 1-1, after charging M hours, the fire emergency lamp proceeds by electric discharge work, emergency light illumination light source point
Bright, photoelectric signal collection module is output as high level 1, and timer carries out timing to emergency light lighting source lighting time, when disappearing
When the over-discharge protection circuit of anti-emergency light starts, emergency light lighting source extinguishes;
Step 1-2, when the emergency light lighting source extinguishes, photoelectric signal collection module is output as low level 0, timing
Device stop timing, timing result is transferred to detecting system, timing result judged by detecting system, by timing result with
Judge that data are saved in data memory module.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 2 includes:
Step 2-1, fire emergency lamp is charged, and is calculated the charging interval by timer, is passed through current acquisition module
Charging current data is acquired, the signal of collection is sent in data collecting card by photoelectric signal collection module and carries out mould
Intend signal be converted to data signal be sent to detecting system processing obtain measurement data;
Step 2-2, standby mode of operation, emergency light illumination light are transferred to fire emergency lamp charging relief fire emergency lamp
Source point is bright, and photoelectric signal collection module detects and high level is output as after photosignal, and detecting system starts voltage acquisition module
The voltage at rechargeable battery end is gathered, when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes, light
Electrical signal collection module is output as low level, and collection voltages are sent into data collecting card after isolating by photosignal carries out mould
Plan signal is converted to data signal and carries out data processing to detecting system.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 3 includes:
Step 3-1, it is described to change that voltage detecting switchs to emergency rating detection into main electricity condition and emergency rating switchs to main electricity
State-detection;
Step 3-2, when main electricity condition switchs to emergency rating detection, when detecting system is transferred to emergency rating by main electricity condition
Main piezoelectric voltage should be in the range of main piezoelectric voltage 60%~85%, being charged to fire emergency lamp allows the filling of fire emergency lamp for 20 hours
After battery is fully charged, the State Transferring for adjusting civil power fire emergency lamp in the range of 60%~85% by pressure regulator indicates shape
State, and gather this voltage signal by photoelectric signal collection module by voltage signal be sent to data collecting card carry out analog signal
Be converted to data signal to detecting system preserve after data processing and show result, main electricity condition switchs to emergency rating detection
Process terminates, then is measured using equipment AC voltage regulator;
Step 3-3, when emergency rating switchs to main electricity condition detection, detecting system is returned to main electricity condition by emergency rating
When main piezoelectric voltage not should be greater than the 85% of main piezoelectric voltage, pass through pressure regulator adjust civil power fire emergency lamp in the range of 85%
State Transferring instruction state, and gather this voltage signal voltage signal is sent to by data acquisition by photoelectric signal collection module
Card progress analog signal is converted to data signal and to detecting system preserve after data processing and show result, and emergency rating turns
Terminate for main electricity condition detection process, then measured using equipment AC voltage regulator.
In summary, by adopting the above-described technical solution, the beneficial effects of the invention are as follows:
1. multigroup sample is realized while detecting a parameter;
2. the time required to shortening detection;
3. while quick detection is met, the data precision of fire emergency lamp detection is improved;
4. solve that fire emergency lamp occurs by difference present in sample design when detecting at the same time interferes
Problem;
5. stability and reliability of the system during continuously working long hours are solved.
The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description
Obtain substantially, or recognized by the practice of the present invention.
Brief description of the drawings
The above-mentioned and/or additional aspect and advantage of the present invention will become from description of the accompanying drawings below to embodiment is combined
Substantially and be readily appreciated that, wherein:
Fig. 1 is fire emergency lamp comprehensive detection system schematic diagram of the present invention;
Fig. 2 is fire emergency lamp comprehensive detection system charge control module schematic diagram of the present invention;
Fig. 3 is fire emergency lamp comprehensive detection system photoelectric signal collection module diagram of the present invention.
Embodiment
Embodiments of the invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning to end
Same or similar label represents same or similar element or the element with same or like function.Below with reference to attached
The embodiment of figure description is exemplary, is only used for explaining the present invention, and is not considered as limiting the invention.
In the description of the invention, it is to be understood that term " longitudinal direction ", " transverse direction ", " on ", " under ", "front", "rear",
The orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " is based on accompanying drawing institutes
The orientation or position relationship shown, is for only for ease of the description present invention and simplifies description, rather than indicate or imply signified dress
Put or element there must be specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to the limit of the present invention
System.
In the description of the invention, unless otherwise prescribed with limit, it is necessary to explanation, term " installation ", " connected ",
" connection " should be interpreted broadly, for example, it may be mechanically connect or electrical connection or the connection of two element internals, can
To be to be joined directly together, it can also be indirectly connected to by intermediary, for the ordinary skill in the art, can basis
Concrete condition understands the concrete meaning of above-mentioned term.
As shown in figure 1, the invention provides a kind of fire emergency lamp comprehensive detection system, itself it is critical that including:Charging
Control module, signal input module, data conversion and processing module and data outputting module;
Described charge control module one end connects fire emergency lamp, and the charge control module other end connects data conversion
And processing module, the output end connection data conversion of the signal input module and processing module, the data conversion and processing
Module connects data outputting module;
The signal input module includes:Current acquisition module, voltage acquisition module and photoelectric signal collection module, successively
Electric current, voltage and photosignal for gathering the fire emergency lamp, current acquisition module connection data conversion and
Processing module, the voltage acquisition module connection data conversion and processing module, the photoelectric signal collection module connects data
Conversion and processing module;
Charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, charge control mould are cut off
Block, the fire emergency lamp proceeds by electric discharge work, and emergency light lighting source is lighted N minutes, the photoelectric signal collection mould
Block receives emergency light lighting source photosignal, and charging interval and emergency light lighting source lighting time are fed back into detecting system
It is compared, meets given threshold requirement, send qualified prompting, described M, N is positive number;
Overcharge current test is carried out by current acquisition module to the fire emergency lamp of charging complete, passes through voltage acquisition
Module carries out overdischarge voltage tester, and the data after test are transferred into detecting system by data collecting card, to detection data
Result be compared with given threshold, send qualified or unqualified prompting;
Conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test are passed by data collecting card
It is defeated to arrive detecting system, to detecting that the result of data is compared with given threshold, send qualified or unqualified prompting.
Above-mentioned technical proposal has the beneficial effect that:Stability of the solution system during continuously working long hours and reliable
Property, the electric current, voltage and photosignal for gathering fire emergency lamp are more stable.
As shown in Fig. 2 described fire emergency lamp comprehensive detection system, it is preferred that the charge control module includes:The
One light emitting diode, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode, the six or two pole
Pipe, the 25th resistance, the 26th resistance, the 27th resistance, the 28th resistance, the first relay, the second relay,
220V charging ports, re-charge control port, charging termination instruction port, charging terminate port;
Described the first normal open switch of first relay one end connects 220V charging ports, and first relay second is normally opened
Switch one end connection charging termination instruction port, described first relay coil one end connects the 5th diode cathode, described the
Five diode cathodes are also connected with re-charge control port, and the 5th diode cathode connects the first relay coil other end, institute
State the 5th diode cathode and be also connected with re-charge control port, the first normal open switch of the first relay other end connection 220V fills
Electric port, the first light emitting diode positive pole connects first relay the second normal open switch other end, described first luminous two
Pole pipe negative pole connects the 25th resistance one end, and the 25th resistance other end connection charging terminates port, described second
Light emitting diode positive pole connects the first relay fixing end, and the second light emitting diode negative pole connects the 26th resistance one
End, the 26th resistance other end connection charging termination instruction port earth terminal;
Described the first normal open switch of second relay one end connects 220V charging ports, and second relay second is normally opened
Switch one end connection charging termination instruction port, described second relay coil one end connects the 6th diode cathode, described the
Six diode cathodes are also connected with re-charge control port, and the 6th diode cathode connects the second relay coil other end, institute
State the 6th diode cathode and be also connected with re-charge control port, the first normal open switch of the second relay other end connection 220V fills
Electric port, the 3rd light emitting diode positive pole connects second relay the second normal open switch other end, the described 3rd luminous two
Pole pipe negative pole connects the 27th resistance one end, and the 27th resistance other end connection charging terminates port, the described 4th
Light emitting diode positive pole connects the second relay fixing end, and the 4th light emitting diode negative pole connects the 28th resistance one
End, the 28th resistance other end connection charging termination instruction port earth terminal.
Above-mentioned technical proposal has the beneficial effect that:Charge control module can provide charging work for fire emergency lamp, when
So in real work, re-charge control port can also extend relay and indicator lamp, after extension, by increasing capacitance it is possible to increase detection
Fire emergency lamp quantity, multigroup detection sample realizes the detection of a parameter simultaneously, and this method passes through duplex high precision number
According to capture card acquisition testing data simultaneously, overcome fire emergency lamp and carry out multiple with needing to configure multiple devices when entering and detecting
Problem.
Described fire emergency lamp comprehensive detection system, it is preferred that the data conversion and processing module include:Data are adopted
Truck and detecting system,
The data collecting card input connects electrooptical signal collection circuit, the data collecting card output end connecting detection
System, the fire emergency lamp real time data that the detecting system is used to be gathered data collecting card carries out analysis judgement.
Above-mentioned technical proposal has the beneficial effect that:Multigroup sample detects centralized Control, realizes several groups of detection samples while entering
The display in good time of row detection state is on computers.
Described fire emergency lamp comprehensive detection system, it is preferred that the data outputting module includes:Data memory module
And data inquiry module;
The data memory module input connection data conversion and processing module, the data memory module output end connect
Data inquiry module input is connect, the data inquiry module is used for the comprehensive parameters for showing detected fire emergency lamp.
Above-mentioned technical proposal has the beneficial effect that:Data memory module and data inquiry module preferably can be stored and looked into
Ask the data of the fire emergency lamp after detection.
Described fire emergency lamp comprehensive detection system, it is preferred that the data inquiry module includes:Printer and display
Device, the printer connects data inquiry module, the integrated data for printing detected fire emergency lamp, the display
Device connects data inquiry module, the integrated data for showing detected fire emergency lamp.
As shown in figure 3, described fire emergency lamp comprehensive detection system, it is preferred that the photoelectric signal collection module bag
Include:First resistor, second resistance, 3rd resistor, the 4th resistance, the 5th resistance, the 6th resistance, the 7th resistance, the 8th resistance,
Nine resistance, the tenth resistance, the 11st resistance, the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance, the 16th
Resistance, the 17th resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd resistance,
23 resistance, the 24th resistance, the first infrared diode, second transistor, third transistor, the pole of the 4th infrared ray two
Pipe, the 5th transistor, the 6th transistor, the 7th infrared diode, the 8th transistor, the 9th transistor, the tenth infrared ray two
Pole pipe, the 11st transistor, the tenth two-transistor, the first diode, the second diode, the 3rd diode, the 4th diode,
One switch, second switch, the 3rd switch, the 4th switch, the first LED, the 2nd LED, the 3rd LED, the 4th LED, first comparator,
Second comparator, the 3rd comparator, the 4th comparator;
Described first LED negative poles connection second resistance one end, the second resistance other end connection second transistor transmitting
Pole, the second transistor base stage connects the first infrared diode negative pole, the first infrared diode positive pole connection the
Four resistance one end, described 4th resistance one end is also connected with the 5th resistance one end, and the 5th resistance other end connects the 3rd crystal
Pipe base stage, described third transistor emitter stage connection first resistor one end, the first resistor other end connects first switch one
End, the first switch other end connects the 4th infrared diode positive pole, and the third transistor base stage is also connected with the 6th electricity
One end is hindered, the 6th resistance other end connects first comparator output end, the electricity of first comparator negative pole end connection second
The other end is hindered, the first comparator positive terminal connects the 4th resistance other end;The third transistor colelctor electrode connection first
Diode cathode, the first LED positive poles connect the first switch other end, and the first LED negative poles are also connected with the 2nd LED and born
Pole, described 2nd LED positive poles connection second switch one end, the second switch other end connects the 12nd resistance one end, described
The 12nd resistance other end connects the 11st resistance one end, and the 11st resistance other end connects the tenth resistance one end, the tenth
The resistance other end connects the second comparator output terminal, and the second comparator positive terminal connects the 9th resistance one end, the described 9th
Resistance one end is also connected with the 8th resistance one end, and the 8th resistance other end connects the 7th resistance one end, and the 7th resistance is another
One end connects the second comparator negative pole end, and the second comparator negative pole end is also connected with the 5th emitter, the described 5th
Transistor base connects the 4th infrared diode negative pole, and the 5th transistor collector connects the 6th emitter,
6th transistor collector connects the second diode cathode, and second diode cathode connects the 3rd infrared diode
Negative pole, the 3rd infrared diode positive pole connection the 3rd switchs one end, the electricity of the 3rd switch other end connection the 18th
One end is hindered, the 18th resistance other end connects the 17th resistance one end, the 17th resistance other end connection the 16th
Resistance one end, the 16th resistance other end connects the 3rd comparator output terminal, the 3rd comparator negative pole end connection the
13 resistance one end, the 13rd resistance other end connects the 14th resistance one end, the 14th resistance other end connection
3rd comparator positive terminal, the 14th resistance other end is also connected with the 15th resistance one end, and the 15th resistance is another
The second diode cathode of end connection, the 9th transistor collector connects the 3rd diode cathode, and the 3rd diode is just
Pole connects the 4th LED negative poles, and the 4th LED positive poles connection the 4th switchs one end, the 4th switch other end connection second
14 resistance one end, the 24th resistance other end connects the 23rd resistance one end, and the 23rd resistance is another
End the 22nd resistance one end of connection, the 22nd resistance other end connects the 4th comparator output terminal, the 4th ratio
The 20th resistance one end is connected compared with device positive terminal, the 20th resistance other end connects the 19th resistance one end, the described tenth
The nine resistance other ends connect the 4th comparator negative pole end, and the 19th resistance other end is also connected with the 11st transistor emission
Pole, the 11st transistor base connects the tenth infrared diode negative pole, the tenth infrared diode positive pole connection
7th infrared diode positive pole, the 4th comparator positive terminal is also connected with the 21st resistance one end, the described 21st
The resistance other end connects the 23rd resistance one end, and the 23rd resistance other end is also connected with the tenth two-transistor base stage,
The tenth two-transistor colelctor electrode connects the 4th diode cathode, and the 4th diode cathode is connecting the 3rd diode just
Pole.
Above-mentioned technical proposal has the beneficial effect that:The photoelectric signal collection module can receive fire emergency lamp and be sent
Photosignal, pass through photoelectric signal collection module transfer to data collecting card.
Invention additionally discloses a kind of fire emergency lamp method for comprehensive detection, it is it is critical that comprise the following steps:
Step 1, charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, cut-out charging
Control module, the fire emergency lamp proceeds by electric discharge work, and emergency light lighting source is lighted N minutes, by the charging interval and
Emergency light lighting source lighting time feeds back to detecting system and is compared, and meets given threshold requirement, sends qualified prompting institute
M, N are stated for positive number;
Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, will tested
Data afterwards are transferred to detecting system by data collecting card, to detecting that the result of data is compared with given threshold, send
Qualified or unqualified prompting;
Step 3, conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test is adopted by data
Truck is transferred to detecting system, to detecting that the result of data is compared with given threshold, sends qualified or unqualified prompting.
Above-mentioned technical proposal has the beneficial effect that:Methods described continuously works long hours in the environment of system work, body
Reveal stability and reliability, the electric current, voltage and photosignal for gathering fire emergency lamp are more stable.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 1 includes:
Step 1-1, after charging M hours, the fire emergency lamp proceeds by electric discharge work, emergency light illumination light source point
Bright, photoelectric signal collection module is output as high level 1, and timer carries out timing to emergency light lighting source lighting time, when disappearing
When the over-discharge protection circuit of anti-emergency light starts, emergency light lighting source extinguishes;
Step 1-2, when the emergency light lighting source extinguishes, photoelectric signal collection module is output as low level 0, timing
Device stop timing, timing result is transferred to detecting system, timing result judged by detecting system, by timing result with
Judge that data are saved in data memory module.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 2 includes:
Step 2-1, fire emergency lamp is charged, and is calculated the charging interval by timer, is passed through current acquisition module
Charging current data is acquired, the signal of collection is sent in data collecting card by photoelectric signal collection module and carries out mould
Intend signal be converted to data signal be sent to detecting system processing obtain measurement data;
Step 2-2, standby mode of operation, emergency light illumination light are transferred to fire emergency lamp charging relief fire emergency lamp
Source point is bright, and photoelectric signal collection module detects and high level is output as after photosignal, and detecting system starts voltage acquisition module
The voltage at rechargeable battery end is gathered, when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes, light
Electrical signal collection module is output as low level, and collection voltages are sent into data collecting card after isolating by photosignal carries out mould
Plan signal is converted to data signal and carries out data processing to detecting system.
Described fire emergency lamp method for comprehensive detection, it is preferred that the step 3 includes:
Step 3-1, it is described to change that voltage detecting switchs to emergency rating detection into main electricity condition and emergency rating switchs to main electricity
State-detection;
Step 3-2, when main electricity condition switchs to emergency rating detection, when detecting system is transferred to emergency rating by main electricity condition
Main piezoelectric voltage should be in the range of main piezoelectric voltage 60%~85%, being charged to fire emergency lamp allows the filling of fire emergency lamp for 20 hours
After battery is fully charged, the State Transferring for adjusting civil power fire emergency lamp in the range of 60%~85% by pressure regulator indicates shape
State, and gather this voltage signal by photoelectric signal collection module by voltage signal be sent to data collecting card carry out analog signal
Be converted to data signal to detecting system preserve after data processing and show result, main electricity condition switchs to emergency rating detection
Process terminates, then is measured using equipment AC voltage regulator;
Step 3-3, when emergency rating switchs to main electricity condition detection, detecting system is returned to main electricity condition by emergency rating
When main piezoelectric voltage not should be greater than the 85% of main piezoelectric voltage, pass through pressure regulator adjust civil power fire emergency lamp in the range of 85%
State Transferring instruction state, and gather this voltage signal voltage signal is sent to by data acquisition by photoelectric signal collection module
Card progress analog signal is converted to data signal and to detecting system preserve after data processing and show result, and emergency rating turns
Terminate for main electricity condition detection process, then measured using equipment AC voltage regulator.
Goal in research of the present invention is to set up a kind of time saving, accurate, and can realize multigroup sample quick detection, reaches and quickly sentences
Determine the method for predominantly detecting the whether qualified purpose of index of fire emergency lamp.For above-mentioned target, the main of this project is set
Research contents is:
1. multigroup detection sample realizes the detection of a parameter simultaneously, and this method is same by duplex high precision data collecting card
When acquisition testing data, overcome fire emergency lamp carry out it is multiple with enter detect when need configuration multiple devices the problem of.Wherein
Emphasis is solved:Large number quipments and resource are taken when fire emergency lamp is detected.
2. multigroup sample detection centralized Control, realizes several groups of detection samples while carrying out detection state is shown in computer in good time
On.
3. whole day uninterrupted test is realized, by the working condition of software Control Assay, whole day is realized 24 hours uninterruptedly
Working method, reach the demand for realizing quick detection.
4. the automatic detection data for calculating and preserving fire emergency lamp, and form examining report, are easily looked into while realizing
Ask and print.
The key technology effect of realization:
1. multigroup sample is realized while detecting a parameter;
2. the time required to shortening detection;
3. while quick detection is met, the data precision of fire emergency lamp detection is improved;
4. solve that fire emergency lamp occurs by difference present in sample design when detecting at the same time interferes
Problem;
5. stability and reliability of the system during continuously working long hours are solved.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show
The description of example " or " some examples " etc. means to combine specific features, structure, material or the spy that the embodiment or example are described
Point is contained at least one embodiment of the present invention or example.In this manual, to the schematic representation of above-mentioned term not
Necessarily refer to identical embodiment or example.Moreover, specific features, structure, material or the feature of description can be any
One or more embodiments or example in combine in an appropriate manner.
Although an embodiment of the present invention has been shown and described, it will be understood by those skilled in the art that:Not
In the case of departing from the principle and objective of the present invention a variety of change, modification, replacement and modification can be carried out to these embodiments, this
The scope of invention is limited by claim and its equivalent.
Claims (9)
1. a kind of fire emergency lamp comprehensive detection system, it is characterised in that including:Charge control module, signal input module, number
According to conversion and processing module and data outputting module;
Described charge control module one end connects fire emergency lamp, the charge control module other end connection data conversion and place
Manage module, the output end connection data conversion and processing module of the signal input module, the data conversion and processing module
Connect data outputting module;
The signal input module includes:Current acquisition module, voltage acquisition module and photoelectric signal collection module, are used for successively
Gather the electric current, voltage and photosignal of the fire emergency lamp, the current acquisition module connection data conversion and processing
Module, the voltage acquisition module connection data conversion and processing module, the photoelectric signal collection module connects data conversion
And processing module;
The data conversion and processing module include:Data collecting card and detecting system,
The data collecting card input connects photoelectric signal collection module, the data collecting card output end connecting detection system
System, the fire emergency lamp real time data that the detecting system is used to be gathered data collecting card carries out analysis judgement;
Charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, charge control module are cut off,
The fire emergency lamp proceeds by electric discharge work, and fire emergency lamp lighting source is lighted N minutes, the photoelectric signal collection mould
Block receives fire emergency lamp lighting source photosignal, and charging interval and fire emergency lamp lighting source lighting time are fed back to
Detecting system is compared, and meets given threshold requirement, sends qualified prompting, and described M, N are positive number;
Overcharge current test is carried out by current acquisition module to the fire emergency lamp of charging complete, passes through voltage acquisition module
Overdischarge voltage tester is carried out, the data after test are transferred to detecting system by data collecting card, the knot to detecting data
Fruit is compared with given threshold, sends qualified or unqualified prompting;
Conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test are transferred to by data collecting card
Detecting system, to detecting that the result of data is compared with given threshold, sends qualified or unqualified prompting.
2. fire emergency lamp comprehensive detection system according to claim 1, it is characterised in that the charge control module bag
Include:First light emitting diode, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode,
Six diodes, the 25th resistance, the 26th resistance, the 27th resistance, the 28th resistance, the first relay, second
Relay, 220V charging ports, re-charge control port, charging termination instruction port and charging terminate port;
Described the first normal open switch of first relay one end connects 220V charging ports, the normal open switch of the first relay second
One end connection charging termination instruction port, described first relay coil one end connects the 5th diode cathode, the described 5th 2
Pole pipe negative pole is also connected with re-charge control port, and the 5th diode cathode connects the first relay coil other end, and described the
Five diode cathodes are also connected with re-charge control port, the first normal open switch of the first relay other end connection 220V charging ends
Mouthful, the first light emitting diode positive pole connects first relay the second normal open switch other end, first light emitting diode
Negative pole connects the 25th resistance one end, and the 25th resistance other end connection charging terminates port, and described second lights
Diode cathode connects the first relay fixing end, and the second light emitting diode negative pole connects the 26th resistance one end, institute
State the 26th resistance other end connection charging termination instruction port earth terminal;
Described the first normal open switch of second relay one end connects 220V charging ports, the normal open switch of the second relay second
One end connection charging termination instruction port, described second relay coil one end connects the 6th diode cathode, the described 6th 2
Pole pipe negative pole is also connected with re-charge control port, and the 6th diode cathode connects the second relay coil other end, and described the
Six diode cathodes are also connected with re-charge control port, the first normal open switch of the second relay other end connection 220V charging ends
Mouthful, the 3rd light emitting diode positive pole connects second relay the second normal open switch other end, the 3rd light emitting diode
Negative pole connects the 27th resistance one end, and the 27th resistance other end connection charging terminates port, and the described 4th lights
Diode cathode connects the second relay fixing end, and the 4th light emitting diode negative pole connects the 28th resistance one end, institute
State the 28th resistance other end connection charging termination instruction port earth terminal.
3. fire emergency lamp comprehensive detection system according to claim 1, it is characterised in that the data outputting module bag
Include:Data memory module and data inquiry module;
The data memory module input connection data conversion and processing module, the data memory module output end connect number
It is investigated that asking module input, the data inquiry module is used for the comprehensive parameters for showing detected fire emergency lamp.
4. fire emergency lamp comprehensive detection system according to claim 3, it is characterised in that the data inquiry module bag
Include:Printer and display device, the printer connect data inquiry module, for printing the comprehensive of detected fire emergency lamp
Data are closed, the display device connects data inquiry module, the integrated data for showing detected fire emergency lamp.
5. fire emergency lamp comprehensive detection system according to claim 1, it is characterised in that the photoelectric signal collection mould
Block includes:First resistor, second resistance, 3rd resistor, the 4th resistance, the 5th resistance, the 6th resistance, the 7th resistance, the 8th electricity
Resistance, the 9th resistance, the tenth resistance, the 11st resistance, the 12nd resistance, the 13rd resistance, the 14th resistance, the 15th resistance,
16th resistance, the 17th resistance, the 18th resistance, the 19th resistance, the 20th resistance, the 21st resistance, the 22nd
It is resistance, the 23rd resistance, the 24th resistance, the first infrared diode, second transistor, third transistor, the 4th red
Outside line diode, the 5th transistor, the 6th transistor, the 7th infrared diode, the 8th transistor, the 9th transistor, the tenth
Infrared diode, the 11st transistor, the tenth two-transistor, the first diode, the second diode, the 3rd diode, the 4th
Diode, first switch, second switch, third switch, the 4th switch, the first LED, the 2nd LED, the 3rd LED and the 4th LED,
First comparator, the second comparator, the 3rd comparator and the 4th comparator;
Described first LED negative poles connection second resistance one end, the second resistance other end connects second transistor emitter stage, institute
State second transistor base stage and connect the first infrared diode negative pole, the first infrared diode positive pole connects the 4th resistance
One end, described 4th resistance one end is also connected with the 5th resistance one end, and the 5th resistance other end connects third transistor base stage,
Described third transistor emitter stage connection first resistor one end, described first resistor other end connection first switch one end is described
The first switch other end connects the 4th infrared diode positive pole, and the third transistor base stage is also connected with the 6th resistance one end,
The 6th resistance other end connects first comparator output end, and the first comparator negative pole end connection second resistance is another
End, the first comparator positive terminal connects the 4th resistance other end;The third transistor colelctor electrode connects the first diode
Negative pole, the first LED positive poles connect the first switch other end, and the first LED negative poles are also connected with the 2nd LED negative poles, described
2nd LED positive poles connection second switch one end, the second switch other end connects the 12nd resistance one end, the 12nd electricity
Hinder the other end and connect the 11st resistance one end, the 11st resistance other end connects the tenth resistance one end, and the tenth resistance is another
The second comparator output terminal of end connection, the second comparator positive terminal connects the 9th resistance one end, described 9th resistance one end
The 8th resistance one end is also connected with, the 8th resistance other end connects the 7th resistance one end, the 7th resistance other end connection
Second comparator negative pole end, the second comparator negative pole end is also connected with the 5th emitter, the 5th transistor base
Pole connects the 4th infrared diode negative pole, and the 5th transistor collector connects the 6th emitter, the described 6th
Transistor collector connects the second diode cathode, and second diode cathode connects the 3rd infrared diode negative pole, institute
State the 3rd infrared diode positive pole connection the 3rd and switch one end, the 3rd switch other end connects the 18th resistance one end,
The 18th resistance other end connects the 17th resistance one end, and the 17th resistance other end connects the 16th resistance one
End, the 16th resistance other end connects the 3rd comparator output terminal, the electricity of the 3rd comparator negative pole end connection the 13rd
One end is hindered, the 13rd resistance other end connects the 14th resistance one end, and the 14th resistance other end connection the 3rd is compared
Compared with device positive terminal, the 14th resistance other end is also connected with the 15th resistance one end, the 15th resistance other end connection
Second diode cathode, the 9th transistor collector connects the 3rd diode cathode, the 3rd diode cathode connection
4th LED negative poles, the 4th LED positive poles connection the 4th switchs one end, the electricity of the 4th switch other end connection the 24th
One end is hindered, the 24th resistance other end connects the 23rd resistance one end, the 23rd resistance other end connection
22nd resistance one end, the 22nd resistance other end connects the 4th comparator output terminal, and the 4th comparator is just
The 20th resistance one end of extreme connection, the 20th resistance other end connects the 19th resistance one end, the 19th resistance
The other end connects the 4th comparator negative pole end, and the 19th resistance other end is also connected with the 11st emitter, described
11st transistor base connects the tenth infrared diode negative pole, and the tenth infrared diode positive pole connection the 7th is infrared
Line diode cathode, the 4th comparator positive terminal is also connected with the 21st resistance one end, and the 21st resistance is another
End the 23rd resistance one end of connection, the 23rd resistance other end is also connected with the tenth two-transistor base stage, the described tenth
Two-transistor colelctor electrode connects the 4th diode cathode, and the 4th diode cathode connects the 3rd diode cathode.
6. a kind of fire emergency lamp method for comprehensive detection, it is characterised in that comprise the following steps:
Step 1, charging operations are carried out to fire emergency lamp by charge control module, after charging M hours, cuts off charge control
Module, the fire emergency lamp proceeds by electric discharge work, and fire emergency lamp lighting source is lighted N minutes, by the charging interval and
Fire emergency lamp lighting source lighting time feeds back to detecting system and is compared, and meets given threshold requirement, sends qualified carry
Show, described M, N are positive number;
Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, after test
Data are transferred to detecting system by data collecting card, to detecting that the result of data is compared with given threshold, send qualified
Or unqualified prompting;
Step 3, conversion voltage detecting is carried out to the fire emergency lamp of charging complete, the data after test is passed through into data collecting card
Detecting system is transferred to, to detecting that the result of data is compared with given threshold, qualified or unqualified prompting is sent.
7. fire emergency lamp method for comprehensive detection according to claim 6, it is characterised in that the step 1 includes:
Step 1-1, after charging M hours, the fire emergency lamp proceeds by electric discharge work, fire emergency lamp illumination light source point
Bright, photoelectric signal collection module is output as high level 1, and timer carries out timing to fire emergency lamp lighting source lighting time,
When the over-discharge protection circuit of fire emergency lamp starts, fire emergency lamp lighting source extinguishes;
Step 1-2, when the fire emergency lamp lighting source extinguishes, photoelectric signal collection module is output as low level 0, timing
Device stop timing, timing result is transferred to detecting system, timing result judged by detecting system, by timing result with
Judge that data are saved in data memory module.
8. fire emergency lamp method for comprehensive detection according to claim 6, it is characterised in that the step 2 includes:
Step 2-1, fire emergency lamp is charged, and the charging interval is calculated by timer, by current acquisition module to filling
Electric current data is acquired, and the signal of collection is sent into progress analog signal in data collecting card is converted to data signal transmission
Measurement data is obtained to detecting system processing;
Step 2-2, after being charged to fire emergency lamp, allows fire emergency lamp to be transferred to standby mode of operation, fire emergency lamp illumination
Light source igniting, photoelectric signal collection module detects and high level is output as after photosignal, and detecting system starts voltage acquisition mould
The voltage at block collection rechargeable battery end, when the over-discharge protection circuit of fire emergency lamp starts, fire emergency lamp lighting source
Extinguish, photoelectric signal collection module is output as low level, collection voltages are sent into data collecting card by voltage acquisition module
Progress analog signal is converted to data signal and carries out data processing to detecting system.
9. fire emergency lamp method for comprehensive detection according to claim 6, it is characterised in that the step 3 includes:
Step 3-1, it is described to change that voltage detecting switchs to emergency rating detection into main electricity condition and emergency rating switchs to main electricity condition
Detection;
Step 3-2, when main electricity condition switchs to emergency rating detection, electricity when detecting system is transferred to emergency rating by main electricity condition
Pressure should allow the rechargeable battery of fire emergency lamp to fill in 20 hours in the range of main piezoelectric voltage 60%~85% to fire emergency lamp charging
After full electricity, civil power fire emergency lamp in the range of 60%~85% is adjusted by pressure regulator and is converted to emergent instruction state, is passed through
Voltage acquisition module collection voltages signal, is sent to data collecting card progress analog signal by voltage signal and is converted to data signal
To detecting system preserve after data processing and show result, main electricity condition, which switchs to emergency rating detection process, to be terminated, then is adopted
Measured with equipment AC voltage regulator;
Step 3-3, when emergency rating switchs to main electricity condition detection, when detecting system is returned to main electricity condition by emergency rating
Voltage not should be greater than the 85% of main piezoelectric voltage, and civil power electricity based on fire emergency lamp conversion in the range of 85% is adjusted by pressure regulator
Instruction state, by voltage acquisition module collection voltages signal, is sent to data collecting card by voltage signal and carries out analog signal
Be converted to data signal to detecting system preserve after data processing and show result, emergency rating switchs to main electricity condition detection
Process terminates, then is measured using equipment AC voltage regulator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410681351.3A CN104375097B (en) | 2014-11-24 | 2014-11-24 | Fire emergency lamp comprehensive detection system and method |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201410681351.3A CN104375097B (en) | 2014-11-24 | 2014-11-24 | Fire emergency lamp comprehensive detection system and method |
Publications (2)
Publication Number | Publication Date |
---|---|
CN104375097A CN104375097A (en) | 2015-02-25 |
CN104375097B true CN104375097B (en) | 2017-07-28 |
Family
ID=52554133
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201410681351.3A Active CN104375097B (en) | 2014-11-24 | 2014-11-24 | Fire emergency lamp comprehensive detection system and method |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN104375097B (en) |
Families Citing this family (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106686845B (en) * | 2015-11-06 | 2019-05-17 | 海洋王(东莞)照明科技有限公司 | Microwave induced light adjusting circuit and lamps and lanterns with contingency mode |
CN105606994A (en) * | 2016-03-08 | 2016-05-25 | 恒银金融科技股份有限公司 | Testing device for SIU module of financial self-service equipment, and testing method thereof |
CN109307846A (en) * | 2018-08-08 | 2019-02-05 | 中冶天工集团有限公司 | Fire fighting lamp automatic inspection device |
CN110308407A (en) * | 2019-06-25 | 2019-10-08 | 苏州科思尼克照明科技有限公司 | Emergency lighting test module, test method, emergency lighting system and storage medium |
CN110542847A (en) * | 2019-08-16 | 2019-12-06 | 珠海易发照明器材有限公司 | PCBA (printed circuit board assembly) inspection device and method for emergency lamp with power supply |
CN112697404A (en) * | 2021-01-15 | 2021-04-23 | 莱茵技术(上海)有限公司 | Automatic optical test system for emergency lamp |
CN113470298B (en) * | 2021-06-30 | 2023-04-28 | 重庆消防安全技术研究服务有限责任公司 | Fire control intelligent early warning patrol equipment |
CN114035416B (en) * | 2021-10-21 | 2023-01-13 | 山东省计量科学研究院 | Method for measuring and calibrating emergency time of detector of fire-fighting emergency lighting lamp |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2227390Y (en) * | 1995-02-21 | 1996-05-15 | 北京力恒技贸中心 | Emergency lamp with accumulator automatic charging and detecting function |
CN2702510Y (en) * | 2004-02-17 | 2005-05-25 | 王绍先 | Fire-fighting emergency lamp control circuit |
CN200953676Y (en) * | 2006-09-21 | 2007-09-26 | 山东山大华天科技股份有限公司 | Automatic detecting system of fire emergency light |
CN202404436U (en) * | 2011-12-30 | 2012-08-29 | 山东省产品质量监督检验研究院 | Automatic detecting device of fire fighting emergency lighting and evacuation indicating system |
CN103684383A (en) * | 2012-09-25 | 2014-03-26 | 深圳市海洋王照明工程有限公司 | An emergence time counting circuit |
Family Cites Families (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPS61100675A (en) * | 1984-10-23 | 1986-05-19 | Matsushita Electric Works Ltd | Battery monitor circuit |
KR20120136119A (en) * | 2011-06-08 | 2012-12-18 | 한국원자력기술 주식회사 | Battery evaluation apparatus having charging and discharging function |
-
2014
- 2014-11-24 CN CN201410681351.3A patent/CN104375097B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2227390Y (en) * | 1995-02-21 | 1996-05-15 | 北京力恒技贸中心 | Emergency lamp with accumulator automatic charging and detecting function |
CN2702510Y (en) * | 2004-02-17 | 2005-05-25 | 王绍先 | Fire-fighting emergency lamp control circuit |
CN200953676Y (en) * | 2006-09-21 | 2007-09-26 | 山东山大华天科技股份有限公司 | Automatic detecting system of fire emergency light |
CN202404436U (en) * | 2011-12-30 | 2012-08-29 | 山东省产品质量监督检验研究院 | Automatic detecting device of fire fighting emergency lighting and evacuation indicating system |
CN103684383A (en) * | 2012-09-25 | 2014-03-26 | 深圳市海洋王照明工程有限公司 | An emergence time counting circuit |
Also Published As
Publication number | Publication date |
---|---|
CN104375097A (en) | 2015-02-25 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN104375097B (en) | Fire emergency lamp comprehensive detection system and method | |
CN100498261C (en) | Combined type digital pressure calibration instrument | |
US20110264293A1 (en) | System and method of determining an energy harvesting capability of a location | |
CN204086505U (en) | A kind of LED lamp intelligence aging testing system | |
US9048685B2 (en) | Emergency lighting with charging indicator circuitry | |
CN204575757U (en) | Charger output characteristics automatic detection device | |
CN104092251A (en) | Ni-mh battery and nickel-cadmium battery charging and discharging analyzer and charging and discharging method of ni-mh battery and nickel-cadmium battery charging and discharging analyzer | |
AU2015411280B2 (en) | Intelligent charger with diagnostic function and charging method | |
CN103698691A (en) | Automatic detection calibration device and automatic detection calibration method of electric car bridge board | |
CN202384827U (en) | Uninterruptible power system (UPS) maintenance instrument | |
CN104777377A (en) | System and method for detecting output properties of lead-acid battery charger | |
CN202059194U (en) | Intelligent general type liquid crystal display charger | |
CN101004440A (en) | Device and method for measuring internal resistance of accumulator based on 485 bus mode | |
CN211347212U (en) | Fast detection device of full-bridge pressure sensor | |
CN104242392B (en) | A kind of for monitoring and the device of equalizing battery voltage | |
CN202110236U (en) | Storage battery polarity detection and alarm device | |
CN109655765A (en) | A kind of fire emergency lamp comprehensive detection system and method | |
CN108063486A (en) | The charger and its charging method, transformation of electrical energy circuit to charge suitable for multiple battery | |
CN201532447U (en) | Automatic monitoring system of electrical property of solar electric source | |
CN202443330U (en) | Combination control unit detector | |
CN204789917U (en) | Photovoltaic controller detecting system | |
CN109342878A (en) | A kind of Electrical Power Line Parameter detection auxiliary system based on Internet of Things | |
CN211123230U (en) | Portable automatic debugging system for calibrator | |
CN108173298A (en) | A kind of balancing control circuit of power battery module | |
CN209513961U (en) | Electrical Power Line Parameter based on Internet of Things detects auxiliary system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C06 | Publication | ||
PB01 | Publication | ||
C10 | Entry into substantive examination | ||
SE01 | Entry into force of request for substantive examination | ||
GR01 | Patent grant | ||
GR01 | Patent grant |