CN104375097A - Firefighting emergency light comprehensive detection system and method - Google Patents

Abstract

The invention discloses a firefighting emergency light comprehensive detection system and method. The system comprises a signal input module, a data conversion and processing module and a data output module. A charging control module is connected with a firefighting emergency light, the firefighting emergency light is connected with the signal input module, the output end of the signal input module is connected with the data conversion and processing module, and the data conversion and processing module is connected with the data output module. The signal input module comprises a current acquisition module, a voltage acquisition module and an optoelectronic signal acquisition module, wherein the current acquisition module is connected with the data conversion and processing module, the voltage acquisition module is connected with the data conversion and processing module, and the optoelectronic signal acquisition module is connected with the data conversion and processing module.

Description

Fire emergency lamp comprehensive detection system and method

Technical field

The present invention relates to computer realm, particularly relate to a kind of fire emergency lamp comprehensive detection system and method.

Background technology

Fire emergency lamps total quality allows of no optimist, and is mainly manifested in: the emergency time does not reach the 90min of standard-required; Sheathing material adopts combustible material mostly; Final voltage is on the low side; Fail to meet 80% of master gauge rated voltage requirement; Discharge and recharge long duration test last does not reach 85% of discharge time first and answers >=90min discharge time; Figure and word do not meet standard-required etc.Cause fire emergency lamps product quality inferior, the reason not meeting national standard mainly contains the following aspects:

1, thin, the management system of enterprise-quality consciousness falls behind, lacks qualified technical personnel

China's fire emergency lamps national Specification, the every batch products of fire emergency lamps manufacturing enterprise must carry out factory inspection by product standard requirement before dispatching from the factory, and clear stipulaties factory inspection project, every batch products provides by production unit the qualified book that dispatches from the factory after the assay was approved through product quality, can put goods on the market.But the detection of a little outward appearance and so on that had considerable part manufacturer just to do, not tight to check on to stock up pass, important step such as processing pass, assemble flow pass, factory testing pass etc. of starting material in production run, even become a mere formality, the inspection just in order to deal with fire supervision department; Some manufacturer lacks necessary checkout equipment, individual other does not have checkout equipment even at all, especially those production scales are little, just set foot in the enterprise of fire product, mostly be that " family workshop " formula is produced, enterprise-quality consciousness is thin, and production technology, managerial experience lack, and just can not produce qualified product really up to the mark at all; Economic benefit is pursued simply by some manufacturers, reduce cost of products by every possible means, key components, parts are onlyed demand to low price and do not asked quality, What is more, for reaching low cost object, the product technology standard-required of intentional reduction associate components, causes bum fire emergency lamps to come into the market.On the other hand, enterprise personnel quality is general not high, and from checking that situation was not difficult to find to fire emergency lamps producer in recent years, the workman that most enterprises is recruited was cheap labour, and cultural quality is low, and just not on duty hurriedly through professional technique training; Even the quality of Some Enterprises or person in charge of the technology aspect self also have little understanding to related products index.In addition, enterprise's " family " phenomenon is comparatively general, and causing business administration system unreasonable, many business entitys, is chief executive, is again workshop class, group leader.The enterprise talent proportion structure numerous imbalances, particularly the middle management talent, technician are out of stock, and talent competition mechanism cannot be formed, and tachnical storage is difficult to catch up with social development paces with rapid changepl. never-ending changes and improvements and market development demand.

2, enterprises propagandist implements that standard is ineffective, operative norm is tight, technological innovation initiative is not high

The existing fire emergency lamps standard GB17945-2000 " fire emergency lamps " of China was issued on January 30th, 2000, and enforce on October 1st, 2000, and fire emergency lamps product continues to use always before this is Ministry of Public Security industry standard GA54-93 " fire-fighting emergency headlamp tool general technical specifications ".Old and new standard contrasts, a lot of performance index of product have done corresponding increase and redjustment and modification, industry standard more in the past, existing national standards has required very large improving to fire emergency lamps technical conditions, for guaranteeing that fire emergency lamps quality provides better, stronger legal guarantee.But even to this day, new standard situation is performed from the producer producing fire emergency lamps, have part producer only new standard a surname to be passed through several major technique personnel, and other employees also do not know what new standard is, do not perform new standard in each link of producing and operation simultaneously yet; Some enterprise product design documents and pattern still continue to use former standard so far, do not carry out product approval by new standard, and the transformation of fire emergency lamps product technology is not known where to begin especially with innovation; Considerable part enterprise for pursuing economic benefit and immediate interest, still at sale stock, very disruptive fire emergency lamps market order.To this, enterprise to new standard a surname pass through ineffective, perform tight, technological innovation consciousness is weak, indifferent, policy and the mechanism of technological innovation are not in place, not only have impact on product quality, and it is slow to cause current product update paces, is not suitable with the situation of the market demand.

3, disorderly competition between enterprise, user pursue at a low price simply

Fire emergency lamps production and sales industry is the same with other industry, and same market competition is very fierce, and product price war becomes a flash point increasingly.Manufacturer is in order to occupy market, generally expanded sales by sale of demanding a lower price, make a price reduction the only resource seemed into enterprise participation market competition of fighting for sale, ignore the primary factor of expanding market for commodities---product quality, result manufacturing enterprise makes an issue of by fair means or foul on starting material, components and parts, some manufacturing enterprise simplifies production process and trace routine even artificially, and to reach the object reduced costs, thus it is not high to result in current fire emergency lamps total quality level.On the other hand, user self security against fire consciousness is not also cause product quality not high factor that can not be ignored by force.Some user is unilateral to be thought, fire control equipment drops into can not produce direct economic benefit, can economize and then economize.Put undue emphasis on the low price of product therefrom, ignore product quality requirement, individual user even knows that vacation is bought in vacation, and only figure is cheap, sells provide market to underproof fire emergency lamps.

Current domestic fire emergency lamps detection method has a lot, and checkout equipment is also uneven, in general, present stage fire emergency lamps checkout equipment exist deficiency mainly concentrate on the following aspects.

1, functions of the equipments are single

Every platform checkout equipment can only detect single project, and carrying out the detection of fire emergency lamp all events needs to purchase multiple devices, and fund input is large, inefficiency;

2, automation degree of equipment is low

Test findings mostly is visual inspection, as: the switching time of fire emergency lamps measures, by artificially proceeding to emergency rating from main electricity, then switching time is determined with stopwatch, because human eye has certain delay when light fixture changes, so the value of actual test is greater than working value own, the result obtained so is also inaccurate, and everyone is different, the test result obtained also has difference, if test result is in critical conditions, just easily cause the erroneous judgement of result, by manually filling in experimental test record document, there is larger error in assay,

3, design of testing device is simple

Human-computer interaction is poor, and operation is inconvenience very, if testing staff thinks that the detection of grasp one series products needs to learn the method for operating of multiple devices, brings very big inconvenience to work.By investigating the quality supervision and test department at current domestic every country quality testing center and each province, all develop some simple fire emergency lamps checkout equipments targetedly according to the actual conditions of oneself, intelligence degree is not high, function singleness, the sample size of one-time detection is few, and efficiency is low.

Summary of the invention

The present invention is intended at least solve the technical matters existed in prior art, especially innovatively proposes a kind of fire emergency lamp comprehensive detection system and method.

In order to realize above-mentioned purpose of the present invention, the invention provides a kind of fire emergency lamp comprehensive detection system, its key is, comprising: 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, described charge control module other end connection data conversion and processing module, the output terminal connection data conversion of described signal input module and processing module, described data conversion and processing module connection data output module;

Described signal input module comprises: current acquisition module, voltage acquisition module and photoelectric signal collection module, successively for gathering the electric current of described fire emergency lamp, voltage and photosignal, described current acquisition model calling data conversion and processing module, described voltage acquisition module connection data conversion and processing module, described photoelectric signal collection model calling data conversion and processing module;

By charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, and described photoelectric signal collection module receives emergency light lighting source photosignal, duration of charging and emergency light lighting source lighting time are fed back to detection system compare, meet setting threshold requirement, send qualified prompting, described M, N are positive number;

By current acquisition module, overcharge current test is carried out to the fire emergency lamp of charging complete, overdischarge voltage tester is carried out by voltage acquisition module, data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting;

Changing voltage detection is carried out to the fire emergency lamp of charging complete, the data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting.

The beneficial effect of technique scheme is: resolution system, in the stability worked long hours continuously in process and reliability, gathers the electric current of fire emergency lamp, voltage and photosignal more stable.

Described fire emergency lamp comprehensive detection system, preferably, described charge control module comprises: the first light emitting diode, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode, the 6th diode, the 25 resistance, the 26 resistance, the 27 resistance, the 28 resistance, the first relay, the second relay, 220V charging port, re-charge control port, charging terminate instruction port, charging end port;

Described first relay 1 end connects 220V charging port, described first relay 2 end connects charging and terminates instruction port, described first relay 5 end connects the 5th diode cathode, described 5th diode cathode also connects re-charge control port, described 5th diode cathode connects the first relay 6 end, described 5th diode cathode also connects re-charge control port, described first relay 4 end connects 220V charging port, described first light emitting diode positive pole connects the first relay 3 end, described first light emitting diode negative pole connects the 25 resistance one end, the described 25 resistance other end connects charging and terminates port, described second light emitting diode positive pole connects the first relay 7 end, described second light emitting diode negative pole connects the 26 resistance one end, the described 26 resistance other end connects charging and terminates instruction port earth terminal,

Described second relay 1 end connects 220V charging port, described second relay 2 end connects charging and terminates instruction port, described second relay 5 end connects the 6th diode cathode, described 6th diode cathode also connects re-charge control port, described 6th diode cathode connects the first relay 6 end, described 6th diode cathode also connects re-charge control port, described second relay 4 end connects 220V charging port, described 3rd light emitting diode positive pole connects the first relay 3 end, described 3rd light emitting diode negative pole connects the 27 resistance one end, the described 27 resistance other end connects charging and terminates port, described 4th light emitting diode positive pole connects the second relay 7 end, described 4th light emitting diode negative pole connects the 28 resistance one end, the described 28 resistance other end connects charging and terminates instruction port earth terminal.

The beneficial effect of technique scheme is: charge control module can provide charging work for fire emergency lamp, certainly in real work, re-charge control port can also expand relay and pilot lamp, after expansion, the quantity of the fire emergency lamp of detection can be increased, many groups test samples realizes the detection of a parameter simultaneously, the method, by duplex high precision data collecting card acquisition testing data simultaneously, overcomes fire emergency lamps and carries out multiple problem with needing to configure multiple devices when entering to detect.

Described fire emergency lamp comprehensive detection system, preferably, described data conversion and processing module comprise: data collecting card and detection system,

Described data collecting card input end connects electrooptical signal collection circuit, and described data collecting card output terminal connects detection system, and the fire emergency lamp real time data that described detection system is used for being gathered by data collecting card is carried out analysis and judged.

The beneficial effect of technique scheme is: many group sample detection set control, and realizes several groups of test samples and carries out detected state simultaneously and show on computers in good time.

Described fire emergency lamp comprehensive detection system, preferably, described data outputting module comprises: data memory module and data inquiry module;

Described data memory module input end connection data conversion and processing module, described data memory module output terminal connection data enquiry module input end, described data inquiry module is for showing the comprehensive parameters of detected fire emergency lamp.

The beneficial effect of technique scheme is: data memory module and data inquiry module can store and inquire about the data of the fire emergency lamp after detection better.

Described fire emergency lamp comprehensive detection system, preferably, described data inquiry module comprises: printer and display device, described printer connection data enquiry module, for printing the integrated data of detected fire emergency lamp, described display device connection data enquiry module, for showing the integrated data of detected fire emergency lamp.

Described fire emergency lamp comprehensive detection system, preferably, described photoelectric signal collection module comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, first infrared diode, transistor seconds, third transistor, 4th infrared diode, 5th transistor, 6th transistor, 7th infrared diode, 8th transistor, 9th transistor, tenth infrared diode, 11 transistor, tenth two-transistor, first diode, second diode, 3rd diode, 4th diode, first switch, second switch, 3rd switch, 4th switch, one LED, 2nd LED, 3rd LED, 4th LED, the first comparer, second comparer, 3rd comparer, 4th comparer,

A described LED negative pole connects second resistance one end, the described second resistance other end connects transistor seconds emitter, described transistor seconds base stage connects the first infrared diode negative pole, described first infrared diode positive pole connects the 4th resistance one end, described 4th resistance one end also connects the 5th resistance one end, the described 5th resistance other end connects third transistor base stage, described third transistor emitter connects first resistance one end, the described first resistance other end connects first switch one end, the described first switch other end connects the 4th infrared ray diode cathode, described third transistor base stage also connects the 6th resistance one end, the described 6th resistance other end connects the first comparer 1 end, described first comparer 2 end connects the second resistance other end, described first comparer 3 end connects the 4th resistance other end, described third transistor collector connects the first diode cathode, a described LED positive pole connects the first switch other end, a described LED negative pole also connects the 2nd LED negative pole, described 2nd LED positive pole connects second switch one end, the described second switch other end connects the 12 resistance one end, the described 12 resistance other end connects the 11 resistance one end, the described 11 resistance other end connects the tenth resistance one end, the tenth resistance other end connects the second comparer 7 end, described second comparer five terminal connects the 9th resistance one end, described 9th resistance one end also connects the 8th resistance one end, the described 8th resistance other end connects the 7th resistance one end, the described 7th resistance other end connects the second comparer 6 end, described second comparer 6 end also connects the 5th emitter, described 5th transistor base connects the 4th infrared ray diode cathode, described 5th transistor collector connects the 6th emitter, described 6th transistor collector connects the second diode cathode, described second diode cathode connects the 3rd infrared diode negative pole, described 3rd infrared diode positive pole connects the 3rd switch one end, the described 3rd switch other end connects the 18 resistance one end, the described 18 resistance other end connects the 17 resistance one end, the described 17 resistance other end connects the 16 resistance one end, the described 16 resistance other end connects the 3rd comparer 8 end, described 3rd comparer 9 end connects the 13 resistance one end, the described 13 resistance other end connects the 14 resistance one end, the described 14 resistance other end connects the 3rd comparer 10 end, the described 14 resistance other end also connects the 15 resistance one end, the described 15 resistance other end connects the second diode cathode, described 9th transistor collector connects the 3rd diode cathode, described 3rd diode cathode connects the 4th LED negative pole, described 4th LED positive pole connects the 4th switch one end, the described 4th switch other end connects the 24 resistance one end, the described 24 resistance other end connects the 23 resistance one end, the described 23 resistance other end connects the 22 resistance one end, the described 22 resistance other end connects the 4th comparer 14 end, described 4th comparer 12 end connects the 20 resistance one end, the described 20 resistance other end connects the 19 resistance one end, the described 19 resistance other end connects the 4th comparer 13 end, the described 19 resistance other end also connects the 11 emitter, described 11 transistor base connects the tenth infrared diode negative pole, described tenth infrared diode positive pole connects the 7th infrared diode positive pole, described 4th comparer 12 end also connects the 21 resistance one end, the described 21 resistance other end connects the 23 resistance one end, the described 23 resistance other end also connects the tenth two-transistor base stage, described tenth two-transistor collector connects the 4th diode cathode, described 4th diode positive pole connects the 3rd diode cathode.

The beneficial effect of technique scheme for: described photoelectric signal collection module can accept the photosignal that fire emergency lamp sends, by photoelectric signal collection module transfer to data collecting card.

The present invention also discloses a kind of fire emergency lamp method for comprehensive detection, and its key is, comprises the steps:

Step 1, by charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, duration of charging and emergency light lighting source lighting time is fed back to detection system and compares, meet setting threshold requirement, sending qualified prompting described M, N is positive number;

Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, data after test are transferred to detection system by data collecting card, the result detecting data are compared with setting threshold value, sends qualified or defective prompting;

Step 3, carries out changing voltage detection to the fire emergency lamp of charging complete, and the data after test are transferred to detection system by data collecting card, compares, send qualified or defective prompting to the result detecting data with setting threshold value.

The beneficial effect of technique scheme is: described method, under the environment of system works, works long hours continuously, embodies stability and reliability, gathers the electric current of fire emergency lamp, voltage and photosignal more stable.

Described fire emergency lamp method for comprehensive detection, preferably, described step 1 comprises:

Step 1-1, after charging M hour, described fire emergency lamp starts to carry out electric discharge work, emergency light lighting source is lighted, photoelectric signal collection module exports as high level 1, timer carries out timing to emergency light lighting source lighting time, and when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes;

Step 1-2, when described emergency light lighting source extinguishes, photoelectric signal collection module exports as low level 0, timer stops timing, timing result is transferred to detection system, by detection system, timing result is judged, timing result and decision data are saved in data memory module.

Described fire emergency lamp method for comprehensive detection, preferably, described step 2 comprises:

Step 2-1, fire emergency lamp is charged, the duration of charging is calculated by timer, by current acquisition module, charging current data is gathered, by photoelectric signal collection module the signal of collection delivered in data collecting card and carry out simulating signal and be converted to digital signal and be sent to detection system process and obtain measurement data;

Step 2-2, standby mode of operation is transferred to fire emergency lamps charging relief fire emergency lamp, emergency light lighting source is lighted, photoelectric signal collection module exports after photosignal being detected as high level, detection system trigger voltage acquisition module gathers the voltage of rechargeable battery end, when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes, photoelectric signal collection module exports as low level, sent to by collection voltage data collecting card to carry out simulating signal after being isolated by photosignal to be converted to digital signal and to carry out data processing to detection system.

Described fire emergency lamp method for comprehensive detection, preferably, described step 3 comprises:

Step 3-1, described changing voltage be detected as main electricity condition transfer to emergency rating detect and emergency rating transfer to main electricity condition detection;

Step 3-2, when main electricity condition transfers emergency rating detection to, main piezoelectric voltage when detection system proceeds to emergency rating by main electricity condition should in main piezoelectric voltage 60% ~ 85% scope, after charging within 20 hours, allow the rechargeable battery of fire emergency lamp be full of electricity to fire emergency lamp, the State Transferring indicating status of civil power fire emergency lamp in 60% ~ 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, main electricity condition transfers emergency rating testing process to be terminated, equipment AC voltage regulator is adopted to measure again,

Step 3-3, when emergency rating transfers the detection of main electricity condition to, main piezoelectric voltage when detection system is returned to main electricity condition by emergency rating should not be greater than 85% of main piezoelectric voltage, the State Transferring indicating status of civil power fire emergency lamp in 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, emergency rating transfers main electricity condition testing process to be terminated, equipment AC voltage regulator is adopted to measure again.

In sum, owing to have employed technique scheme, the invention has the beneficial effects as follows:

1. realize many group samples and detect a parameter simultaneously;

2. shorten and detect required time;

3., while meeting detection fast, the data precision that fire emergency lamps detects is improved;

4. the problem of the mutual interference occurred because of the difference existed in sample design when fire emergency lamp detects at the same time is solved;

5. resolution system is in the stability worked long hours continuously in process and reliability.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present invention and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, 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

Be described below in detail embodiments of the invention, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the present invention, and can not limitation of the present invention being interpreted as.

In describing the invention, it will be appreciated that, term " longitudinal direction ", " transverse direction ", " on ", D score, "front", "rear", "left", "right", " vertically ", " level ", " top ", " end ", " interior ", the orientation of the instruction such as " outward " or position relationship be based on orientation shown in the drawings or position relationship, only the present invention for convenience of description and simplified characterization, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as limitation of the present invention.

In describing the invention, unless otherwise prescribed and limit, it should be noted that, term " installation ", " being connected ", " connection " should be interpreted broadly, such as, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly be connected, also indirectly can be connected by intermediary, for the ordinary skill in the art, the concrete meaning of above-mentioned term can be understood as the case may be.

As shown in Figure 1, the invention provides a kind of fire emergency lamp comprehensive detection system, its key is, comprising: 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, described charge control module other end connection data conversion and processing module, the output terminal connection data conversion of described signal input module and processing module, described data conversion and processing module connection data output module;

Described signal input module comprises: current acquisition module, voltage acquisition module and photoelectric signal collection module, successively for gathering the electric current of described fire emergency lamp, voltage and photosignal, described current acquisition model calling data conversion and processing module, described voltage acquisition module connection data conversion and processing module, described photoelectric signal collection model calling data conversion and processing module;

By charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, and described photoelectric signal collection module receives emergency light lighting source photosignal, duration of charging and emergency light lighting source lighting time are fed back to detection system compare, meet setting threshold requirement, send qualified prompting, described M, N are positive number;

By current acquisition module, overcharge current test is carried out to the fire emergency lamp of charging complete, overdischarge voltage tester is carried out by voltage acquisition module, data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting;

Changing voltage detection is carried out to the fire emergency lamp of charging complete, the data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting.

The beneficial effect of technique scheme is: resolution system, in the stability worked long hours continuously in process and reliability, gathers the electric current of fire emergency lamp, voltage and photosignal more stable.

As shown in Figure 2, described fire emergency lamp comprehensive detection system, preferably, described charge control module comprises: the first light emitting diode, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode, the 6th diode, the 25 resistance, the 26 resistance, the 27 resistance, the 28 resistance, the first relay, the second relay, 220V charging port, re-charge control port, charging terminate instruction port, charging end port;

Described first relay 1 end connects 220V charging port, described first relay 2 end connects charging and terminates instruction port, described first relay 5 end connects the 5th diode cathode, described 5th diode cathode also connects re-charge control port, described 5th diode cathode connects the first relay 6 end, described 5th diode cathode also connects re-charge control port, described first relay 4 end connects 220V charging port, described first light emitting diode positive pole connects the first relay 3 end, described first light emitting diode negative pole connects the 25 resistance one end, the described 25 resistance other end connects charging and terminates port, described second light emitting diode positive pole connects the first relay 7 end, described second light emitting diode negative pole connects the 26 resistance one end, the described 26 resistance other end connects charging and terminates instruction port earth terminal,

Described second relay 1 end connects 220V charging port, described second relay 2 end connects charging and terminates instruction port, described second relay 5 end connects the 6th diode cathode, described 6th diode cathode also connects re-charge control port, described 6th diode cathode connects the first relay 6 end, described 6th diode cathode also connects re-charge control port, described second relay 4 end connects 220V charging port, described 3rd light emitting diode positive pole connects the first relay 3 end, described 3rd light emitting diode negative pole connects the 27 resistance one end, the described 27 resistance other end connects charging and terminates port, described 4th light emitting diode positive pole connects the second relay 7 end, described 4th light emitting diode negative pole connects the 28 resistance one end, the described 28 resistance other end connects charging and terminates instruction port earth terminal.

The beneficial effect of technique scheme is: charge control module can provide charging work for fire emergency lamp, certainly in real work, re-charge control port can also expand relay and pilot lamp, after expansion, the quantity of the fire emergency lamp of detection can be increased, many groups test samples realizes the detection of a parameter simultaneously, the method, by duplex high precision data collecting card acquisition testing data simultaneously, overcomes fire emergency lamps and carries out multiple problem with needing to configure multiple devices when entering to detect.

Described fire emergency lamp comprehensive detection system, preferably, described data conversion and processing module comprise: data collecting card and detection system,

Described data collecting card input end connects electrooptical signal collection circuit, and described data collecting card output terminal connects detection system, and the fire emergency lamp real time data that described detection system is used for being gathered by data collecting card is carried out analysis and judged.

The beneficial effect of technique scheme is: many group sample detection set control, and realizes several groups of test samples and carries out detected state simultaneously and show on computers in good time.

Described fire emergency lamp comprehensive detection system, preferably, described data outputting module comprises: data memory module and data inquiry module;

Described data memory module input end connection data conversion and processing module, described data memory module output terminal connection data enquiry module input end, described data inquiry module is for showing the comprehensive parameters of detected fire emergency lamp.

The beneficial effect of technique scheme is: data memory module and data inquiry module can store and inquire about the data of the fire emergency lamp after detection better.

Described fire emergency lamp comprehensive detection system, preferably, described data inquiry module comprises: printer and display device, described printer connection data enquiry module, for printing the integrated data of detected fire emergency lamp, described display device connection data enquiry module, for showing the integrated data of detected fire emergency lamp.

As shown in Figure 3, described fire emergency lamp comprehensive detection system, preferably, described photoelectric signal collection module comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, first infrared diode, transistor seconds, third transistor, 4th infrared diode, 5th transistor, 6th transistor, 7th infrared diode, 8th transistor, 9th transistor, tenth infrared diode, 11 transistor, tenth two-transistor, first diode, second diode, 3rd diode, 4th diode, first switch, second switch, 3rd switch, 4th switch, one LED, 2nd LED, 3rd LED, 4th LED, the first comparer, second comparer, 3rd comparer, 4th comparer,

A described LED negative pole connects second resistance one end, the described second resistance other end connects transistor seconds emitter, described transistor seconds base stage connects the first infrared diode negative pole, described first infrared diode positive pole connects the 4th resistance one end, described 4th resistance one end also connects the 5th resistance one end, the described 5th resistance other end connects third transistor base stage, described third transistor emitter connects first resistance one end, the described first resistance other end connects first switch one end, the described first switch other end connects the 4th infrared ray diode cathode, described third transistor base stage also connects the 6th resistance one end, the described 6th resistance other end connects the first comparer 1 end, described first comparer 2 end connects the second resistance other end, described first comparer 3 end connects the 4th resistance other end, described third transistor collector connects the first diode cathode, a described LED positive pole connects the first switch other end, a described LED negative pole also connects the 2nd LED negative pole, described 2nd LED positive pole connects second switch one end, the described second switch other end connects the 12 resistance one end, the described 12 resistance other end connects the 11 resistance one end, the described 11 resistance other end connects the tenth resistance one end, the tenth resistance other end connects the second comparer 7 end, described second comparer five terminal connects the 9th resistance one end, described 9th resistance one end also connects the 8th resistance one end, the described 8th resistance other end connects the 7th resistance one end, the described 7th resistance other end connects the second comparer 6 end, described second comparer 6 end also connects the 5th emitter, described 5th transistor base connects the 4th infrared ray diode cathode, described 5th transistor collector connects the 6th emitter, described 6th transistor collector connects the second diode cathode, described second diode cathode connects the 3rd infrared diode negative pole, described 3rd infrared diode positive pole connects the 3rd switch one end, the described 3rd switch other end connects the 18 resistance one end, the described 18 resistance other end connects the 17 resistance one end, the described 17 resistance other end connects the 16 resistance one end, the described 16 resistance other end connects the 3rd comparer 8 end, described 3rd comparer 9 end connects the 13 resistance one end, the described 13 resistance other end connects the 14 resistance one end, the described 14 resistance other end connects the 3rd comparer 10 end, the described 14 resistance other end also connects the 15 resistance one end, the described 15 resistance other end connects the second diode cathode, described 9th transistor collector connects the 3rd diode cathode, described 3rd diode cathode connects the 4th LED negative pole, described 4th LED positive pole connects the 4th switch one end, the described 4th switch other end connects the 24 resistance one end, the described 24 resistance other end connects the 23 resistance one end, the described 23 resistance other end connects the 22 resistance one end, the described 22 resistance other end connects the 4th comparer 14 end, described 4th comparer 12 end connects the 20 resistance one end, the described 20 resistance other end connects the 19 resistance one end, the described 19 resistance other end connects the 4th comparer 13 end, the described 19 resistance other end also connects the 11 emitter, described 11 transistor base connects the tenth infrared diode negative pole, described tenth infrared diode positive pole connects the 7th infrared diode positive pole, described 4th comparer 12 end also connects the 21 resistance one end, the described 21 resistance other end connects the 23 resistance one end, the described 23 resistance other end also connects the tenth two-transistor base stage, described tenth two-transistor collector connects the 4th diode cathode, described 4th diode positive pole connects the 3rd diode cathode.

The beneficial effect of technique scheme for: described photoelectric signal collection module can accept the photosignal that fire emergency lamp sends, by photoelectric signal collection module transfer to data collecting card.

The present invention also discloses a kind of fire emergency lamp method for comprehensive detection, and its key is, comprises the steps:

Step 1, by charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, duration of charging and emergency light lighting source lighting time is fed back to detection system and compares, meet setting threshold requirement, sending qualified prompting described M, N is positive number;

Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, data after test are transferred to detection system by data collecting card, the result detecting data are compared with setting threshold value, sends qualified or defective prompting;

Step 3, carries out changing voltage detection to the fire emergency lamp of charging complete, and the data after test are transferred to detection system by data collecting card, compares, send qualified or defective prompting to the result detecting data with setting threshold value.

The beneficial effect of technique scheme is: described method, under the environment of system works, works long hours continuously, embodies stability and reliability, gathers the electric current of fire emergency lamp, voltage and photosignal more stable.

Described fire emergency lamp method for comprehensive detection, preferably, described step 1 comprises:

Step 1-1, after charging M hour, described fire emergency lamp starts to carry out electric discharge work, emergency light lighting source is lighted, photoelectric signal collection module exports as high level 1, timer carries out timing to emergency light lighting source lighting time, and when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes;

Step 1-2, when described emergency light lighting source extinguishes, photoelectric signal collection module exports as low level 0, timer stops timing, timing result is transferred to detection system, by detection system, timing result is judged, timing result and decision data are saved in data memory module.

Described fire emergency lamp method for comprehensive detection, preferably, described step 2 comprises:

Step 2-1, fire emergency lamp is charged, the duration of charging is calculated by timer, by current acquisition module, charging current data is gathered, by photoelectric signal collection module the signal of collection delivered in data collecting card and carry out simulating signal and be converted to digital signal and be sent to detection system process and obtain measurement data;

Step 2-2, standby mode of operation is transferred to fire emergency lamps charging relief fire emergency lamp, emergency light lighting source is lighted, photoelectric signal collection module exports after photosignal being detected as high level, detection system trigger voltage acquisition module gathers the voltage of rechargeable battery end, when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes, photoelectric signal collection module exports as low level, sent to by collection voltage data collecting card to carry out simulating signal after being isolated by photosignal to be converted to digital signal and to carry out data processing to detection system.

Described fire emergency lamp method for comprehensive detection, preferably, described step 3 comprises:

Step 3-1, described changing voltage be detected as main electricity condition transfer to emergency rating detect and emergency rating transfer to main electricity condition detection;

Step 3-2, when main electricity condition transfers emergency rating detection to, main piezoelectric voltage when detection system proceeds to emergency rating by main electricity condition should in main piezoelectric voltage 60% ~ 85% scope, after charging within 20 hours, allow the rechargeable battery of fire emergency lamp be full of electricity to fire emergency lamp, the State Transferring indicating status of civil power fire emergency lamp in 60% ~ 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, main electricity condition transfers emergency rating testing process to be terminated, equipment AC voltage regulator is adopted to measure again,

Step 3-3, when emergency rating transfers the detection of main electricity condition to, main piezoelectric voltage when detection system is returned to main electricity condition by emergency rating should not be greater than 85% of main piezoelectric voltage, the State Transferring indicating status of civil power fire emergency lamp in 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, emergency rating transfers main electricity condition testing process to be terminated, equipment AC voltage regulator is adopted to measure again.

Goal in research of the present invention sets up one to save time, accurately, and can realize many group samples and detect fast, reaches the method judging the object whether main Testing index of fire emergency lamps is qualified fast.For above-mentioned target, the main research setting this project is:

1. many group test samples realize the detection of a parameter simultaneously, and the method, by duplex high precision data collecting card acquisition testing data simultaneously, overcomes fire emergency lamps and carries out multiple problem with needing to configure multiple devices when entering to detect.Wherein emphasis solves: take large number quipments and resource when fire emergency lamps detects.

2. many group sample detection set control, and realize several groups of test samples and carry out detected state simultaneously and show on computers in good time.

3. realize whole day uninterruptedly to test, by the duty of software control sample, realize whole day 24 hours continual working methods, reach the demand realizing detecting fast.

4. automatically calculate and preserve the detection data of fire emergency lamp, and form examining report, realize inquiring about easily and printing simultaneously.

The gordian technique effect realized:

1. realize many group samples and detect a parameter simultaneously;

2. shorten and detect required time;

3., while meeting detection fast, the data precision that fire emergency lamps detects is improved;

4. the problem of the mutual interference occurred because of the difference existed in sample design when fire emergency lamp detects at the same time is solved;

5. resolution system is in the stability worked long hours continuously in process and reliability.

In the description of this instructions, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present invention or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and describe embodiments of the invention, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present invention and aim, scope of the present invention is by claim and equivalents thereof.

Claims (10)

1. a fire emergency lamp comprehensive detection system, is characterized in that, comprising: 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, described charge control module other end connection data conversion and processing module, the output terminal connection data conversion of described signal input module and processing module, described data conversion and processing module connection data output module;

Described signal input module comprises: current acquisition module, voltage acquisition module and photoelectric signal collection module, successively for gathering the electric current of described fire emergency lamp, voltage and photosignal, described current acquisition model calling data conversion and processing module, described voltage acquisition module connection data conversion and processing module, described photoelectric signal collection model calling data conversion and processing module;

By charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, and described photoelectric signal collection module receives emergency light lighting source photosignal, duration of charging and emergency light lighting source lighting time are fed back to detection system compare, meet setting threshold requirement, send qualified prompting, described M, N are positive number;

By current acquisition module, overcharge current test is carried out to the fire emergency lamp of charging complete, overdischarge voltage tester is carried out by voltage acquisition module, data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting;

Changing voltage detection is carried out to the fire emergency lamp of charging complete, the data after test are transferred to detection system by data collecting card, the result detecting data is compared with setting threshold value, sends qualified or defective prompting.

2. fire emergency lamp comprehensive detection system according to claim 1, it is characterized in that, described charge control module comprises: the first light emitting diode, the second light emitting diode, the 3rd light emitting diode, the 4th light emitting diode, the 5th diode, the 6th diode, the 25 resistance, the 26 resistance, the 27 resistance, the 28 resistance, the first relay, the second relay, 220V charging port, re-charge control port, charging terminate instruction port, charging end port;

Described first relay 1 end connects 220V charging port, described first relay 2 end connects charging and terminates instruction port, described first relay 5 end connects the 5th diode cathode, described 5th diode cathode also connects re-charge control port, described 5th diode cathode connects the first relay 6 end, described 5th diode cathode also connects re-charge control port, described first relay 4 end connects 220V charging port, described first light emitting diode positive pole connects the first relay 3 end, described first light emitting diode negative pole connects the 25 resistance one end, the described 25 resistance other end connects charging and terminates port, described second light emitting diode positive pole connects the first relay 7 end, described second light emitting diode negative pole connects the 26 resistance one end, the described 26 resistance other end connects charging and terminates instruction port earth terminal,

Described second relay 1 end connects 220V charging port, described second relay 2 end connects charging and terminates instruction port, described second relay 5 end connects the 6th diode cathode, described 6th diode cathode also connects re-charge control port, described 6th diode cathode connects the first relay 6 end, described 6th diode cathode also connects re-charge control port, described second relay 4 end connects 220V charging port, described 3rd light emitting diode positive pole connects the first relay 3 end, described 3rd light emitting diode negative pole connects the 27 resistance one end, the described 27 resistance other end connects charging and terminates port, described 4th light emitting diode positive pole connects the second relay 7 end, described 4th light emitting diode negative pole connects the 28 resistance one end, the described 28 resistance other end connects charging and terminates instruction port earth terminal.

3. fire emergency lamp comprehensive detection system according to claim 1, is characterized in that, described data conversion and processing module comprise: data collecting card and detection system,

Described data collecting card input end connects electrooptical signal collection circuit, and described data collecting card output terminal connects detection system, and the fire emergency lamp real time data that described detection system is used for being gathered by data collecting card is carried out analysis and judged.

4. fire emergency lamp comprehensive detection system according to claim 1, is characterized in that, described data outputting module comprises: data memory module and data inquiry module;

Described data memory module input end connection data conversion and processing module, described data memory module output terminal connection data enquiry module input end, described data inquiry module is for showing the comprehensive parameters of detected fire emergency lamp.

5. fire emergency lamp comprehensive detection system according to claim 4, it is characterized in that, described data inquiry module comprises: printer and display device, described printer connection data enquiry module, for printing the integrated data of detected fire emergency lamp, described display device connection data enquiry module, for showing the integrated data of detected fire emergency lamp.

6. the fire emergency lamp comprehensive detection system according to claim 1 or 3, is characterized in that, described photoelectric signal collection module comprises: the first resistance, second resistance, 3rd resistance, 4th resistance, 5th resistance, 6th resistance, 7th resistance, 8th resistance, 9th resistance, tenth resistance, 11 resistance, 12 resistance, 13 resistance, 14 resistance, 15 resistance, 16 resistance, 17 resistance, 18 resistance, 19 resistance, 20 resistance, 21 resistance, 22 resistance, 23 resistance, 24 resistance, first infrared diode, transistor seconds, third transistor, 4th infrared diode, 5th transistor, 6th transistor, 7th infrared diode, 8th transistor, 9th transistor, tenth infrared diode, 11 transistor, tenth two-transistor, first diode, second diode, 3rd diode, 4th diode, first switch, second switch, 3rd switch, 4th switch, one LED, 2nd LED, 3rd LED, 4th LED, the first comparer, second comparer, 3rd comparer, 4th comparer,

A described LED negative pole connects second resistance one end, the described second resistance other end connects transistor seconds emitter, described transistor seconds base stage connects the first infrared diode negative pole, described first infrared diode positive pole connects the 4th resistance one end, described 4th resistance one end also connects the 5th resistance one end, the described 5th resistance other end connects third transistor base stage, described third transistor emitter connects first resistance one end, the described first resistance other end connects first switch one end, the described first switch other end connects the 4th infrared ray diode cathode, described third transistor base stage also connects the 6th resistance one end, the described 6th resistance other end connects the first comparer 1 end, described first comparer 2 end connects the second resistance other end, described first comparer 3 end connects the 4th resistance other end, described third transistor collector connects the first diode cathode, a described LED positive pole connects the first switch other end, a described LED negative pole also connects the 2nd LED negative pole, described 2nd LED positive pole connects second switch one end, the described second switch other end connects the 12 resistance one end, the described 12 resistance other end connects the 11 resistance one end, the described 11 resistance other end connects the tenth resistance one end, the tenth resistance other end connects the second comparer 7 end, described second comparer five terminal connects the 9th resistance one end, described 9th resistance one end also connects the 8th resistance one end, the described 8th resistance other end connects the 7th resistance one end, the described 7th resistance other end connects the second comparer 6 end, described second comparer 6 end also connects the 5th emitter, described 5th transistor base connects the 4th infrared ray diode cathode, described 5th transistor collector connects the 6th emitter, described 6th transistor collector connects the second diode cathode, described second diode cathode connects the 3rd infrared diode negative pole, described 3rd infrared diode positive pole connects the 3rd switch one end, the described 3rd switch other end connects the 18 resistance one end, the described 18 resistance other end connects the 17 resistance one end, the described 17 resistance other end connects the 16 resistance one end, the described 16 resistance other end connects the 3rd comparer 8 end, described 3rd comparer 9 end connects the 13 resistance one end, the described 13 resistance other end connects the 14 resistance one end, the described 14 resistance other end connects the 3rd comparer 10 end, the described 14 resistance other end also connects the 15 resistance one end, the described 15 resistance other end connects the second diode cathode, described 9th transistor collector connects the 3rd diode cathode, described 3rd diode cathode connects the 4th LED negative pole, described 4th LED positive pole connects the 4th switch one end, the described 4th switch other end connects the 24 resistance one end, the described 24 resistance other end connects the 23 resistance one end, the described 23 resistance other end connects the 22 resistance one end, the described 22 resistance other end connects the 4th comparer 14 end, described 4th comparer 12 end connects the 20 resistance one end, the described 20 resistance other end connects the 19 resistance one end, the described 19 resistance other end connects the 4th comparer 13 end, the described 19 resistance other end also connects the 11 emitter, described 11 transistor base connects the tenth infrared diode negative pole, described tenth infrared diode positive pole connects the 7th infrared diode positive pole, described 4th comparer 12 end also connects the 21 resistance one end, the described 21 resistance other end connects the 23 resistance one end, the described 23 resistance other end also connects the tenth two-transistor base stage, described tenth two-transistor collector connects the 4th diode cathode, described 4th diode positive pole connects the 3rd diode cathode.

7. a fire emergency lamp method for comprehensive detection, is characterized in that, comprises the steps:

Step 1, by charging control circuit, charging operations is carried out to fire emergency lamp, after charging M hour, cut off charging control circuit, described fire emergency lamp starts to carry out electric discharge work, and N minute lighted by emergency light lighting source, duration of charging and emergency light lighting source lighting time is fed back to detection system and compares, meet setting threshold requirement, sending qualified prompting described M, N is positive number;

Step 2, overcharge current test and overdischarge voltage tester are carried out to the fire emergency lamp of charging complete, data after test are transferred to detection system by data collecting card, the result detecting data are compared with setting threshold value, sends qualified or defective prompting;

Step 3, carries out changing voltage detection to the fire emergency lamp of charging complete, and the data after test are transferred to detection system by data collecting card, compares, send qualified or defective prompting to the result detecting data with setting threshold value.

8. fire emergency lamp method for comprehensive detection according to claim 7, is characterized in that, described step 1 comprises:

Step 1-1, after charging M hour, described fire emergency lamp starts to carry out electric discharge work, emergency light lighting source is lighted, photoelectric signal collection module exports as high level 1, timer carries out timing to emergency light lighting source lighting time, and when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes;

Step 1-2, when described emergency light lighting source extinguishes, photoelectric signal collection module exports as low level 0, timer stops timing, timing result is transferred to detection system, by detection system, timing result is judged, timing result and decision data are saved in data memory module.

9. fire emergency lamp method for comprehensive detection according to claim 7, is characterized in that, described step 2 comprises:

Step 2-1, fire emergency lamp is charged, the duration of charging is calculated by timer, by current acquisition module, charging current data is gathered, by photoelectric signal collection module the signal of collection delivered in data collecting card and carry out simulating signal and be converted to digital signal and be sent to detection system process and obtain measurement data;

Step 2-2, standby mode of operation is transferred to fire emergency lamps charging relief fire emergency lamp, emergency light lighting source is lighted, photoelectric signal collection module exports after photosignal being detected as high level, detection system trigger voltage acquisition module gathers the voltage of rechargeable battery end, when the over-discharge protection circuit of fire emergency lamp starts, emergency light lighting source extinguishes, photoelectric signal collection module exports as low level, sent to by collection voltage data collecting card to carry out simulating signal after being isolated by photosignal to be converted to digital signal and to carry out data processing to detection system.

10. fire emergency lamp method for comprehensive detection according to claim 7, is characterized in that, described step 3 comprises:

Step 3-1, described changing voltage be detected as main electricity condition transfer to emergency rating detect and emergency rating transfer to main electricity condition detection;

Step 3-2, when main electricity condition transfers emergency rating detection to, main piezoelectric voltage when detection system proceeds to emergency rating by main electricity condition should in main piezoelectric voltage 60% ~ 85% scope, after charging within 20 hours, allow the rechargeable battery of fire emergency lamp be full of electricity to fire emergency lamp, the State Transferring indicating status of civil power fire emergency lamp in 60% ~ 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, main electricity condition transfers emergency rating testing process to be terminated, equipment AC voltage regulator is adopted to measure again,

Step 3-3, when emergency rating transfers the detection of main electricity condition to, main piezoelectric voltage when detection system is returned to main electricity condition by emergency rating should not be greater than 85% of main piezoelectric voltage, the State Transferring indicating status of civil power fire emergency lamp in 85% scope is regulated by pressure regulator, and gather this voltage signal and voltage signal is sent to data collecting card by photoelectric signal collection module and carries out simulating signal and be converted to digital signal to preserving after detection system carries out data processing and showing result, emergency rating transfers main electricity condition testing process to be terminated, equipment AC voltage regulator is adopted to measure again.