CN104062606B - A kind of batch lamps and lanterns aging algorithm - Google Patents

Abstract

The invention discloses a batch lamp aging algorithm, which includes numbered lamps D1, D2, D3,,,, Dn; illuminometer probes irradiate lamps D1, D2, D3,,,, Dn at equal distances at the same time; light the first lamp D1 , after the stabilization time T1, test the illuminance of the first lamp D1 with the probe of the illuminance meter; turn on the second lamp D2, after the stabilization time T1, turn off the first lamp D1, and test the illuminance of the second lamp D2; and so on for all lamps Automatically conduct illuminance testing, intelligently control the aging process of batch lamps, without manual intervention, and can grasp and control the aging situation of each lamp in the batch.

Description

A Batch Aging Algorithm for Lamps

technical field

The invention relates to a batch lamp aging algorithm.

Background technique

The test object of the present invention is a plurality of lamps in an aging state (the types of lamps are not limited). When using the traditional method to test the illuminance of any one of the multiple luminaires, two situations usually occur: 1. Human intervention is required to move the position of the luminaire to perform the illuminance test; 2. The accuracy of the test results is sacrificed. At the cost, it is impossible to obtain accurate test data for all lamps.

The test of light parameters of lamps, usually the main test parameters are illuminance, light intensity, and luminous flux. For different measurement types, only the light parameters of one lamp can be tested at a time. Testing the illuminance of lamps is the fastest way to obtain the light parameters of lamps. To obtain the overall light parameters of the luminaire, the easiest way is to obtain the illuminance of the luminaire. Reflect the current state of the luminaire in terms of illuminance by aging over time.

After the ordinary lamps are produced, the overall light output of the lamps is in an unstable state. In order to keep the overall performance of the lamps stable, the lamps are aged. The aging process is actually a process of gradually stabilizing the overall light output of the lamps. The realization of lamp aging is to simulate the normal working conditions of the lamp for a long time, so that the performance of each component of the lamp gradually stabilizes, so that the overall light output of the lamp reaches a stable state. The evaluation of the output status of the lamps is measured by the value of the luminous flux of the test lamps. Since the aging of the lamps is usually performed on batch lamps, in the aging process, if the luminous flux of the lamps needs to be tested, then it is necessary to test the batch of lamps Sampling, photometric measurement alone, only one lamp can be tested at a time, and the overall performance of this type of lamp can be evaluated by sampling the test data of the lamp.

Contents of the invention

The invention provides an aging algorithm for batch lamps. By controlling the aging process of batch lamps through the algorithm, the aging of batch lamps can be realized, and the aging situation of each lamp in the batch lamps can be grasped and controlled.

The present invention realizes by following technical means:

A batch lamp aging algorithm, including numbered lamps D1, D2, D3,,,, Dn; illuminometer probes irradiate D1, D2, D3,,,, Dn lamps at equal distances at the same time; implement aging according to the following steps:

S1, turn on the first light D1, after the stabilization time T1, test the illuminance of the first light D1 with the probe of the illuminometer; turn on the second light D2, after the stabilization time T1, turn off the first light D1, and test the second light D2 Illuminance: Turn on lamps D1 and D3, and after a stable time T1, turn off lamps D1 and D2, and test the illuminance of lamp D3; turn on lamps D1, D2, D4, and after a stable time T1, turn off lamps D1~D3, and test the illuminance of lamp D4 ; Turn on the lamps D1, D2, D3, D5, and after a stable time T1, turn off the lamps D1~D4, and test the illuminance of the lamp D5; and so on, until the lamps D1~Dn-2, Dn are turned on, and after a stable time T1, Turn off lamps D1～Dn-1, and test the illuminance of lamp Dn;

S2, then start aging, and set the time T2 for the next test of the illuminance of the lamps D1-Dn;

S3, after the timing of T2, if you need to continue aging, turn off lamps D2~Dn, test the illuminance of lamp D1, light up lamps D2~Dn, after a stable time T1, turn off D1, D3~Dn, test the illuminance of lamp D2; After turning on lamps D1, D3~Dn and keeping them for T1, turn off lamps D1, D2, D4~Dn, and test the illuminance of lamp D3; and so on, turn off lamps D1~Dn-1, and test the illuminance of lamp Dn, if T2 If there is no need to continue aging after the end, then end the aging;

S4, if it is necessary to continue aging, return to step S3, and if it is not necessary to continue aging, then end.

Among them, D1 to Dn are natural continuous numbers starting from 1.

Wherein, said T1 is 1 hour.

Finally, the T2 is greater than or equal to 10 minutes.

The aging algorithm of batch lamps implemented above can intelligently control the aging process of batch lamps without manual intervention, and can grasp and control the aging situation of each lamp in the batch.

Description of drawings

FIG. 1 is a schematic diagram of the process of the aging algorithm of the present invention.

Detailed ways

The specific implementation process of the present invention will be described in detail below in conjunction with the accompanying drawings.

The algorithm of the present invention is an algorithm for the aging of batch lamps. The batch lamps are respectively numbered D1, D2, D3,,,, Dn. Contrasted with the photometric probe of the illuminance meter, in this embodiment, the luminaire is placed with the light-emitting part facing downwards, the illuminance meter is placed on a support plate at a certain distance below the luminaire placement layer, and the probe of the illuminance meter is at the center of the circle where the luminaire is placed directly below.

This batch lamp aging algorithm is run by computer, as shown in Figure 1, assuming that 20 lamps are aging, the specific operation process is as follows:

The first step is to light the No. 1 light D1, and after the duration T1 is long, T1 is preferably one hour in this embodiment, and the illuminance meter probe tests the illuminance of the No. 1 light D1; light the No. 2 light D2, which also lasts for one hour stably Finally, turn off the No. 1 lamp D1, and test the illuminance of the No. 2 lamp D2; then light up the lamps D1 and D3, and after one hour of stability, turn off the lamps D1 and D2, and test the illuminance of the lamp D3; light up the lamps D1, D2, D4, After one hour of stabilization, turn off lamps D1~D3, and test the illuminance of lamp D4; turn on lamps D1, D2, D3, D5, and after one hour of stabilization, turn off lamps D1~D4, and test the illuminance of lamp D5; turn on D1 Turn on lights D4 and D6 for one hour, then turn off lights D1 to D5 to test the illuminance of lights D6; turn on lights D1 to D5 and lights D7 for one hour, then turn off lights D1 to D7 For lamp D6, test the illuminance of lamp D7, and so on, until lamps D1~D18, D20 are turned on, and after one hour of stability, turn off lamps D1~D19, and test the illuminance of lamp D20, the 20th lamp.

The second step is to start aging, and set the time T2 for the next test of the illuminance of the lamps D1-D20, preferably 2 hours in this embodiment, and can be set to 10 minutes, 15 minutes, 10 hours or even more as required.

Step 3: After 2 hours of timing, if you need to continue aging, turn off lamps D2~D20, test the illuminance of lamp D1, light up lamps D2~D20, after one hour of stability, turn off D1, D3~D20, and test the lamps The illuminance of D2; after turning on lamps D1, D3~D20 and maintaining it for one hour, turn off lamps D1, D2, D4~D20, and test the illuminance of lamp D3; and so on, turn off lamps D1~D19, and test the illuminance of lamp D20 , if there is no need to continue aging after two hours, end the aging;

Finally, if it is necessary to continue aging, return to the third step, and if it is not necessary to continue aging, then end.

The above algorithm can make batch aging lamps age according to the set parameters, and test the illuminance of the aged lamps one by one to accurately grasp the aging situation of each lamp.

Claims (3)

1. A batch lamp aging algorithm, including numbered lamps D1, D2, D3...Dn; illuminometer probes irradiate D1, D2, D3...Dn lamps at equal distances at the same time; among them, D1~Dn are consecutive numbers starting from 1 A natural number, the lamps are placed on a special aging frame in a circular manner, and the light-emitting part of the lamp is facing the illuminance probe of the illuminance meter, and the probe of the illuminance meter is located directly below the center of the circle where the lamp is placed. Implement aging: S1, turn on the first light D1, after the stabilization time T1, test the illuminance of the first light D1 with the probe of the illuminometer; turn on the second light D2, after the stabilization time T1, turn off the first light D1, and test the second light D2 Illuminance: Turn on lamps D1 and D3, and after a stable time T1, turn off lamps D1 and D2, and test the illuminance of lamp D3; turn on lamps D1, D2, D4, and after a stable time T1, turn off lamps D1~D3, and test the illuminance of lamp D4 ; Turn on the lamps D1, D2, D3, D5, and after a stable time T1, turn off the lamps D1~D4, and test the illuminance of the lamp D5; and so on, until the lamps D1~Dn-2, Dn are turned on, and after a stable time T1, Turn off lamps D1～Dn-1, and test the illuminance of lamp Dn; S2, then start aging, and set the time T2 for the next test of the illuminance of the lamps D1-Dn; S3, after the timing of T2, if you need to continue aging, turn off lamps D2~Dn, test the illuminance of lamp D1, light up lamps D2~Dn, after a stable time T1, turn off D1, D3~Dn, test the illuminance of lamp D2; After turning on lamps D1, D3~Dn and keeping them for T1, turn off lamps D1, D2, D4~Dn, and test the illuminance of lamp D3; and so on, turn off lamps D1~Dn-1, and test the illuminance of lamp Dn, if T2 If there is no need to continue aging after the end, then end the aging; S4, if it is necessary to continue aging, return to step S3, and if it is not necessary to continue aging, then end. 2. The batch lamp aging algorithm according to claim 1, characterized in that: said T1 is 1 hour. 3. The batch lamp aging algorithm according to claim 1, characterized in that: said T2 is greater than or equal to 10 minutes.