CN109362163A - A kind of intelligent building illumination distribution method - Google Patents

Abstract

The present invention relates to a kind of intelligent buildings to illuminate distribution method, by detecting obtained sunshine-duration, intensity of sunshine, solar temperature and fixed data building spacing, it will test data and fixed data and be transferred to building inside of base station respectively, and distribution can be carried out to the power for illumination of each building according to the preset mathematical model of building inside of base station, to realize that electric energy makes reasonable distribution according to sunshine-duration, intensity of sunshine, solar temperature and building spacing in each building, while guaranteeing illuminating effect, electric energy is rationally utilized, it is energy saving.

Description

A kind of intelligent building illumination distribution method

Technical field

The present invention relates to a kind of building lighting distribution methods, and in particular to a kind of intelligent building illumination distribution method.

Background technique

With economic continuous development, people increase the use of electric energy year by year, operate frequency in air-conditioning devices such as summers Numerous power consumption biggish season, or even once reaching and needing part resident's temporary interruption to guarantee that urban distribution network operates stable need It asks, thus how rationally effectively distribution utilization of power has been urgent problem to be solved in current city；And in some areas, by The reasons such as, building spacing narrow, sunshine be restricted, weather darkness low in height above sea level, so that resident had on daytime between building With regard to using lighting system, and on the basis of the aid of original daylight, if both having increased state's household electrical appliances using identical powering mode It can consume and be unfavorable for energy conservation and sustainable development, while also increase the daily expenditure of resident resident.

Summary of the invention

The technical problem to be solved by the present invention is in order to overcome the deficiencies in the prior art and defect, the present invention is mentioned A kind of intelligent building lighting system is supplied.

The technical solution adopted by the present invention to solve the technical problems is: a kind of intelligent building illumination distribution method, special Sign is: including the following steps:

(1) mathematical model for intelligent building illumination distribution is established in building inside of base station；

(2) each amendment in mathematical model, which is arranged, influences the determination priority of coefficient；

(3) according to the determination priority of setting, the amendment of counterglow intensity influences coefficient respectively, the amendment of sunshine-duration influences system The amendment of number, solar temperature influences coefficient and the amendment influence coefficient of building spacing is confirmed；

(4) fixed data building spacing is obtained；

(5) intensity of sunshine, sunshine-duration and the solar temperature of each building of detection data are obtained；

(6) fixed data and detection data that will acquire are transmitted into building inside of base station；

(7) fixed data and detection data that building inside of base station will acquire, which are brought into mathematical model, is calculated and determined each building Illuminate evaluation coefficient；

(8) by the illumination evaluation coefficient of each building determined according to numerical value from being ranked up to small greatly；

(9) distribution successively can be carried out to the power for illumination of each building according to ranking results.

Further, mathematical model is built in the control system of building inside of base station in the step (1).

Further, each amendment influences the determination priority of coefficient according to building in mathematical model in the step (2) The season in location and determine.

Further, each amendment influences the determination priority of coefficient in mathematical model in the step (2) are as follows: sunshine is strong The amendment of degree, which influences the amendment of coefficient > sunshine-duration, influences the amendment influence coefficient > building spacing amendment of coefficient > solar temperature Influence coefficient.

Further, the standard confirmed in the step (3) includes simultaneously test data and empirical data.

Further, fixed data building spacing is obtained by on-site measurement in the step (4).

Further, intensity of sunshine, sunshine-duration and the sunshine temperature of each building of detection data are obtained in the step (5) Degree is respectively corresponded through multiple intensity of sunshine detection devices for being set in each building, sunshine-duration metering device, solar temperature Detection device detects to obtain.

Further, the fixed data and detection data that will acquire in the step (6) by wireless device are transmitted into building Space inside of base station.

Further, the more forward building of ranking results in the step (9), the illumination electric energy for corresponding to distribution are smaller.

Further, each building correspond to the illumination electric energy of distribution in preset threshold range up and down in the step (9) It adjusts.

The beneficial effects of the present invention are:

(1) sunshine-duration, intensity of sunshine, solar temperature and the fixed data building spacing obtained by detection, will test data It is transferred to building inside of base station respectively with fixed data, and according to the preset mathematical model of building inside of base station to the photograph of each building Bright electric energy is allocated, to realize electric energy in each building according between sunshine-duration, intensity of sunshine, solar temperature and building Away from reasonable distribution is made, while guaranteeing illuminating effect, electric energy is rationally utilized, it is energy saving.

(2) the amendment influence coefficient of each impact factor is successively confirmed according to the determination priority of setting, is determined preferential Grade is determined according to the season in building location, so as to according to sunshine item caused by the difference of building location season environment Part difference makes corresponding variation and adjustment.

Detailed description of the invention

Fig. 1 is the step flow chart that a kind of intelligent building of the present invention illuminates distribution method.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates basic structure of the invention, therefore it only shows the composition relevant to the invention.

As shown in Figure 1, a kind of intelligent building illuminates distribution method, characterized by the following steps:

(1) mathematical model for intelligent building illumination distribution is established in building inside of base station；

(2) each amendment in mathematical model, which is arranged, influences the determination priority of coefficient；

(3) according to the determination priority of setting, the amendment of counterglow intensity influences coefficient respectively, the amendment of sunshine-duration influences system The amendment of number, solar temperature influences coefficient and the amendment influence coefficient of building spacing is confirmed；

(4) fixed data building spacing is obtained；

(5) intensity of sunshine, sunshine-duration and the solar temperature of each building of detection data are obtained；

(6) fixed data and detection data that will acquire are transmitted into building inside of base station；

(7) fixed data and detection data that building inside of base station will acquire, which are brought into mathematical model, is calculated and determined each building Illuminate evaluation coefficient；

(8) by the illumination evaluation coefficient of each building determined according to numerical value from being ranked up to small greatly；

(9) distribution successively can be carried out to the power for illumination of each building according to ranking results.

By detecting obtained sunshine-duration, intensity of sunshine, solar temperature and fixed data building spacing, it will test data It is transferred to building inside of base station respectively with fixed data, and according to the preset mathematical model of building inside of base station to the photograph of each building Bright electric energy is allocated, to realize electric energy in each building according between sunshine-duration, intensity of sunshine, solar temperature and building Away from reasonable distribution is made, while guaranteeing illuminating effect, electric energy is rationally utilized, it is energy saving.

Specifically, mathematical model is built in the control system of building inside of base station in step (1), consequently facilitating passing through control Reasonable distribution of the system control electric energy processed in each building.

Specifically, each amendment influences the determination priority of coefficient according to building location in mathematical model in step (2) Season and determine, so as to according to building location season environment difference caused by sunshine condition difference make accordingly Variation and adjustment.

Specifically, each amendment influences the determination priority of coefficient in mathematical model in step (2) are as follows: intensity of sunshine is repaired The amendment of active influence coefficient > sunshine-duration, which influences the amendment of coefficient > solar temperature, influences coefficient > building spacing amendment influence system Number.

Specifically, the standard confirmed in step (3) includes test data and empirical data simultaneously, thus what guarantee was confirmed Amendment influences the accuracy of coefficient.

Specifically, fixed data building spacing is obtained by on-site measurement in step (4), easy to operate.

Specifically, intensity of sunshine, sunshine-duration and the solar temperature difference of each building of detection data are obtained in step (5) Corresponding multiple intensity of sunshine detection devices, sunshine-duration metering device, solar temperature by being set in each building detects dress Detection to be set to obtain, precision is accurate, and it is easy to operate, preferably, multiple intensity of sunshine detection devices and solar temperature detection Device is respectively arranged on top and the exterior wall of each building.

Specifically, the fixed data and detection data that will acquire in step (6) by wireless device are transmitted into building base station Inside impacts resident resident life to avoid non-wireless means arrangement.

Specifically, the more forward building of ranking results in step (9), the illumination electric energy for corresponding to distribution is smaller, sequence knot Fruit is more forward, and its intensity of illumination is stronger, thus the illumination electric energy of corresponding distribution is smaller, while guaranteeing illuminating effect, rationally It is energy saving using electric energy.

Specifically, the illumination electric energy of the corresponding distribution of each building is adjusted in preset threshold range up and down in step (9), with Guarantee that distribution is adjusted in a suitable range in illumination electric energy.

Taking the above-mentioned ideal embodiment according to the present invention as inspiration, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to which the technical scope thereof is determined according to the scope of the claim.

Claims (10)

1. a kind of intelligent building illuminates distribution method, characterized by the following steps:

(1) mathematical model for intelligent building illumination distribution is established in building inside of base station；

(2) each amendment in mathematical model, which is arranged, influences the determination priority of coefficient；

(3) according to the determination priority of setting, the amendment of counterglow intensity influences coefficient respectively, the amendment of sunshine-duration influences system The amendment of number, solar temperature influences coefficient and the amendment influence coefficient of building spacing is confirmed；

(4) fixed data building spacing is obtained；

(5) intensity of sunshine, sunshine-duration and the solar temperature of each building of detection data are obtained；

(6) fixed data and detection data that will acquire are transmitted into building inside of base station；

(7) fixed data and detection data that building inside of base station will acquire, which are brought into mathematical model, is calculated and determined each building Illuminate evaluation coefficient；

(8) by the illumination evaluation coefficient of each building determined according to numerical value from being ranked up to small greatly；

(9) distribution successively can be carried out to the power for illumination of each building according to ranking results.

2. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: number in the step (1) Model foundation is learned in the control system of building inside of base station.

3. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: number in the step (2) The determination priority that each amendment influences coefficient in model is learned to be determined according to the season in building location.

4. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: number in the step (2) Learning each amendment in model influences the determination priority of coefficient are as follows: the amendment of intensity of sunshine influences the amendment of coefficient > sunshine-duration Influencing the amendment of coefficient > solar temperature influences coefficient > building spacing amendment influence coefficient.

5. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: in the step (3) really The standard recognized while including test data and empirical data.

6. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: solid in the step (4) Fixed number is obtained according to building spacing by on-site measurement.

7. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: obtained in the step (5) Intensity of sunshine, sunshine-duration and the solar temperature of each building of detection data is taken to respectively correspond more in each building by being set to A intensity of sunshine detection device, sunshine-duration metering device, solar temperature detection device detect to obtain.

8. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: lead in the step (6) It crosses fixed data that wireless device will acquire and detection data is transmitted into building inside of base station.

9. a kind of intelligent building according to claim 1 illuminates distribution method, it is characterised in that: row in the step (9) The more forward building of sequence result, the illumination electric energy for corresponding to distribution are smaller.

10. a kind of intelligent building according to claim 9 illuminates distribution method, it is characterised in that: each in the step (9) The illumination electric energy of the corresponding distribution of building is adjusted in preset threshold range up and down.