CN104062606A - Aging algorithm of batch of lights - Google Patents
Aging algorithm of batch of lights Download PDFInfo
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- CN104062606A CN104062606A CN201410309054.6A CN201410309054A CN104062606A CN 104062606 A CN104062606 A CN 104062606A CN 201410309054 A CN201410309054 A CN 201410309054A CN 104062606 A CN104062606 A CN 104062606A
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Abstract
The invention discloses an aging algorithm of a batch of lights. The algorithm comprises lights numbered as D1, D2, D3 to Dn. An illumination photometer probe faces the lights D1 to Dn simultaneously from the same distance. The light D1 is turned on, and after stabilization for a time T1, the probe measures the illuminance of the light D1; the light D2 is turned on, and after stabilization for the time T1, the light D1 is turned off and the illuminance of the light D2 is measured; and all the lights are subjected to illuminance testing automatically in a similar way. The algorithm controls the aging process of the batch of lights intelligently without manual intervention and can take control of the aging situation of each light in the batch.
Description
Technical field
The present invention relates to a kind of batch light fixture aging algorithm.
Background technology
The tested object of this invention is the multi-lamp tool (light fixture kind is not limit) in ageing state.While using classic method to carry out illumination test to any light fixture wherein in multi-lamp tool, there will be two kinds of situations conventionally: 1, need the position of human intervention, movable lamps to carry out illumination test; 2, take the accuracy of sacrificing test result is cost, cannot obtain the accurate test data of whole light fixtures.
The test of the optical parameter of light fixture, generally the parameter of main test has illumination, light intensity, luminous flux.For different measurement types, only can test the optical parameter of a light fixture at every turn.Illumination to light fixture is tested, and is the optical parameter method the most efficiently that obtains light fixture.Obtain the optical parameter of light fixture integral body, the simplest method is the illumination that obtains light fixture.By the passing along with digestion time, from illumination, reflect the current state of light fixture.
Due to after ordinary lamp and lantern produces, the whole light output of light fixture is in an unsure state.In order to make the overall performance of light fixture keep stable, therefore light fixture is carried out to aging, aging process and be actually the process that the whole light output of light fixture is tended towards stability gradually.The realization that light fixture is aging is by the normal condition of work of long-time simulation light fixture, makes the performance of each parts of light fixture reach gradually stable, thereby makes the whole light output of light fixture reach steady state (SS).The evaluation of the output state of light fixture is to weigh by the value of the luminous flux of test light fixture, because the aging of light fixture normally carries out aging to batch light fixture, in ageing process, if need to the luminous flux of light fixture be tested, so just need to sampling to light fixture in batches, carry out separately photometric measurement, only can test a light fixture at every turn, by the test data of sampling light fixture, assess the performance of the type light fixture integral body.
Summary of the invention
The invention provides the aging algorithm of a kind of batch light fixture, by this algorithm, the ageing process of batch light fixture is controlled, can realize the aging of batch light fixture, and can carry out to each light fixture in batch light fixture grasp and the control of aging conditions.
The present invention realizes by following technological means:
A batch light fixture aging algorithm, light fixture D1, the D2 that comprises numbering, D3,,,, Dn; Illuminometer probe is equidistant irradiate simultaneously D1, D2, D3,,,, Dn light fixture; Implement as follows aging:
S1, lights a signal lamp D1, after stabilization time T1 duration, and the illumination of illuminometer probe test one signal lamp D1; Light two signal lamp D2, stablize after T1 duration, extinguish a signal lamp D1, the illumination of test two signal lamp D2; Light light fixture D1, D3, stablize after duration T1, extinguish light fixture D1, D2, test light fixture D3 illumination; Light light fixture D1, D2, D4, stablize after duration T1, extinguish light fixture D1~D3, the illumination of test light fixture D4; Light light fixture D1, D2, D3, D5, stablize after duration T1, extinguish light fixture D1~D4, the illumination of test light fixture D5; By that analogy, until light light fixture D1~Dn-2, Dn, stablizes after duration T1, extinguishes light fixture D1~Dn-1, the illumination of test light fixture Dn;
S2, then starts agingly, and sets the time T 2 of the described light fixture D1~Dn illumination of test next time;
S3, after T2 timing finishes, if need to continue agingly, closes light fixture D2~Dn, and the illumination of test light fixture D1, lights light fixture D2~Dn, stablize after duration T1, extinguishes D1, D3~Dn, tests the illumination of light fixture D2; Light light fixture D1, D3~Dn and maintain after T1 duration, extinguishing light fixture D1, D2, D4~Dn, the illumination of test light fixture D3; By that analogy, extinguish light fixture D1~Dn-1, the illumination of test light fixture Dn, aging if T2 does not need after finishing to continue, finish aging;
S4, if need to continue agingly, returns and carries out S3 step, if do not need to continue aging, finishes.
Wherein, D1~Dn is the natural consecutive numbers since 1.
Wherein, described T1 is 1 hour.
Finally, described T2 is for being more than or equal to 10 minutes.
The aging algorithm of the batch light fixture of more than realizing, control that can be intelligent is the ageing process of light fixture in batches, without manual intervention, and can the aging conditions of each light fixture in batch be grasped and be controlled.
Accompanying drawing explanation
Fig. 1 is the process schematic diagram of aging algorithm of the present invention.
Embodiment
Below with reference to accompanying drawing, specific embodiment of the invention process is described in detail.
Algorithm of the present invention is for the aging algorithm of batch light fixture, in batches light fixture be numbered respectively D1, D2, D3,,,, Dn, described light fixture is placed on special ageing rack in circumference mode, and the luminous site of light fixture is over against the luminosity probe of illuminometer, in the present embodiment, light fixture is that luminous component is placed down, and illuminometer is placed on light fixture and puts in the back up pad of below certain distance of layer, and the probe of illuminometer is put position under the center of circle of circumference in light fixture.
This batch light fixture aging algorithm is by computer run, as shown in Figure 1, supposes to have 20 lamps carrying out agingly, and concrete operational process is as follows:
The first step, lights a signal lamp D1, and after duration T 1 duration, in the present embodiment, preferably T1 is one hour, the illumination of illuminometer probe test one signal lamp D1; Light two signal lamp D2, same stable continuing after one hour, extinguished a signal lamp D1, the illumination of test two signal lamp D2; Then light light fixture D1, D3, stablize duration after one hour, extinguish light fixture D1, D2, test light fixture D3 illumination; Light light fixture D1, D2, D4, stablize duration after one hour, extinguish light fixture D1~D3, the illumination of test light fixture D4; Light light fixture D1, D2, D3, D5, stablize duration after one hour, extinguish light fixture D1~D4, the illumination of test light fixture D5; Light D1 to D4 signal lamp and D6 signal lamp, continue one hour, then extinguish D1 to D5 signal lamp, the illumination of test D6 signal lamp; Light D1 to D5 signal lamp, D7 signal lamp, continual and steady one hour, then extinguish D1 to D6 signal lamp, the illumination of test D7 signal lamp, by that analogy, until light light fixture D1~D18, D20, stablize duration after one hour, extinguish light fixture D1~D19, the illumination of test the 20th signal lamp D20.
Second step, starts agingly, and sets the time T 2 of the described light fixture D1~D20 illumination of test next time, in the present embodiment preferably 2 hours, can arrange as required 10 minutes, 15 minutes, 10 hours are even more.
The 3rd step, after timing in 2 hours finishes, if need to continue agingly, closes light fixture D2~D20, and the illumination of test light fixture D1, lights light fixture D2~D20, stablize duration after one hour, extinguishes D1, D3~D20, tests the illumination of light fixture D2; Light light fixture D1, D3~D20 and maintain after one hour duration, extinguishing light fixture D1, D2, D4~D20, the illumination of test light fixture D3; By that analogy, extinguish light fixture D1~D19, the illumination of test light fixture D20, if do not need to continue aging after within two hours, finishing, finishes aging;
Finally, if need to continue agingly, return and carry out the 3rd step, if do not need to continue aging, finish.
It is aging that above algorithm can make the light fixture of batch aging carry out according to the parameter of setting, and the illumination of testing one by one aging light fixture is accurately to grasp the aging conditions of each light fixture.
Claims (4)
1. a light fixture aging algorithm in batches, light fixture D1, the D2 that comprises numbering, D3,,,, Dn; Illuminometer probe is equidistant irradiate simultaneously D1, D2, D3,,,, Dn light fixture; Implement as follows aging:
S1, lights a signal lamp D1, after stabilization time T1 duration, and the illumination of illuminometer probe test one signal lamp D1; Light two signal lamp D2, stablize after T1 duration, extinguish a signal lamp D1, the illumination of test two signal lamp D2; Light light fixture D1, D3, stablize after duration T1, extinguish light fixture D1, D2, test light fixture D3 illumination; Light light fixture D1, D2, D4, stablize after duration T1, extinguish light fixture D1~D3, the illumination of test light fixture D4; Light light fixture D1, D2, D3, D5, stablize after duration T1, extinguish light fixture D1~D4, the illumination of test light fixture D5; By that analogy, until light light fixture D1~Dn-2, Dn, stablizes after duration T1, extinguishes light fixture D1~Dn-1, the illumination of test light fixture Dn;
S2, then starts agingly, and sets the time T 2 of the described light fixture D1~Dn illumination of test next time;
S3, after T2 timing finishes, if need to continue agingly, closes light fixture D2~Dn, and the illumination of test light fixture D1, lights light fixture D2~Dn, stablize after duration T1, extinguishes D1, D3~Dn, tests the illumination of light fixture D2; Light light fixture D1, D3~Dn and maintain after T1 duration, extinguishing light fixture D1, D2, D4~Dn, the illumination of test light fixture D3; By that analogy, extinguish light fixture D1~Dn-1, the illumination of test light fixture Dn, aging if T2 does not need after finishing to continue, finish aging;
S4, if need to continue agingly, returns and carries out S3 step, if do not need to continue aging, finishes.
2. batch light fixture aging algorithm according to claim 1, is characterized in that: D1~Dn is the natural consecutive numbers since 1.
3. batch light fixture aging algorithm according to claim 1, is characterized in that: described T1 is 1 hour.
4. batch light fixture aging algorithm according to claim 1, is characterized in that: described T2 is for being more than or equal to 10 minutes.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201410309054.6A CN104062606B (en) | 2014-06-30 | 2014-06-30 | A kind of batch lamps and lanterns aging algorithm |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201410309054.6A CN104062606B (en) | 2014-06-30 | 2014-06-30 | A kind of batch lamps and lanterns aging algorithm |
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| CN104062606A true CN104062606A (en) | 2014-09-24 |
| CN104062606B CN104062606B (en) | 2018-05-15 |
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Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN102419424A (en) * | 2011-12-16 | 2012-04-18 | 广东朗视光电技术有限公司 | Aging test equipment of illuminating lamp and aging test system using equipment |
| US20130082606A1 (en) * | 2011-10-04 | 2013-04-04 | Yehiel Viner | Device and method for automatic calibration of illumination system and energy saving |
| CN103398738A (en) * | 2013-07-23 | 2013-11-20 | 佛山市香港科技大学Led-Fpd工程技术研究开发中心 | System and method of real-time monitoring of accelerated aging of electric light source |
| CN103424718A (en) * | 2013-08-08 | 2013-12-04 | 广州市光机电技术研究院 | Multi-lamp on-line automatic integrated test system and method |
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- 2014-06-30 CN CN201410309054.6A patent/CN104062606B/en active Active
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20130082606A1 (en) * | 2011-10-04 | 2013-04-04 | Yehiel Viner | Device and method for automatic calibration of illumination system and energy saving |
| CN102419424A (en) * | 2011-12-16 | 2012-04-18 | 广东朗视光电技术有限公司 | Aging test equipment of illuminating lamp and aging test system using equipment |
| CN103398738A (en) * | 2013-07-23 | 2013-11-20 | 佛山市香港科技大学Led-Fpd工程技术研究开发中心 | System and method of real-time monitoring of accelerated aging of electric light source |
| CN103424718A (en) * | 2013-08-08 | 2013-12-04 | 广州市光机电技术研究院 | Multi-lamp on-line automatic integrated test system and method |
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| CN104062606B (en) | 2018-05-15 |
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