CN109348591A - A kind of intelligent building lighting system - Google Patents

Abstract

The present invention relates to a kind of intelligent building lighting systems, including external power supply, the building main control unit being connect with the external power supply, and several building sub-control units connecting respectively with the building main control unit, each building sub-control unit have been correspondingly connected with the sub- detection unit of building；The external power supply is set to power supply place, the building main control unit is set in building base station, several described building sub-control units and the sub- detection unit of building are respectively arranged inside corresponding building, it is characterised in that: are delivered to the electric energy of each building sub-control unit inside the building main control unit according to the distribution of preset mathematical model.

Description

A kind of intelligent building lighting system

Technical field

The present invention relates to a kind of building lighting systems, and in particular to a kind of intelligent building lighting system.

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, if both having increased national power consumption using identical powering mode and being unfavorable for energy conservation and can Sustainable development, while also increasing 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 lighting system, including outside Power supply, the building main control unit being connect with the external power supply, and if respectively being connect with the building main control unit Dry building sub-control unit, each building sub-control unit have been correspondingly connected with the sub- detection unit of building；The external electrical Source is set to power supply place, and the building main control unit is set in building base station, several described building sub-control units And the sub- detection unit of building is respectively arranged inside corresponding building, it is characterised in that: root inside the building main control unit The electric energy of each building sub-control unit is delivered to according to the distribution of preset mathematical model.

Further, the impact factor of the mathematical model of the building main control unit internal preset include the sunshine-duration, Intensity of sunshine, solar temperature and building spacing.

Further, sunshine-duration, day in the impact factor of the mathematical model of the building main control unit internal preset It is respectively corresponded according to intensity, solar temperature and building spacing and is provided with amendment influence coefficient.

Further, the amendment influence coefficient of each impact factor changes according to the seasonal variations in building location.

Further, the variation that the amendment of each impact factor influences coefficient is successively changed according to priority level.

Further, the priority level determines are as follows: the amendment of sunshine-duration, which influences the amendment of coefficient > intensity of sunshine, to be influenced The amendment of coefficient > solar temperature, which influences the amendment of coefficient > building spacing, influences coefficient.

Further, the priority level determines are as follows: the amendment of sunshine-duration, which influences the amendment of coefficient > solar temperature, to be influenced The amendment of coefficient > intensity of sunshine, which influences the amendment of coefficient > building spacing, influences coefficient.

Further, the priority level determines are as follows: the amendment of intensity of sunshine, which influences the amendment of coefficient > sunshine-duration, to be influenced The amendment of coefficient > solar temperature, which influences the amendment of coefficient > building spacing, influences coefficient.

Further, the priority level determines are as follows: the amendment of intensity of sunshine, which influences the amendment of coefficient > solar temperature, to be influenced The amendment of coefficient > sunshine-duration, which influences the amendment of coefficient > building spacing, influences coefficient.

Further, the sub- detection unit of the building include sunshine-duration metering device, intensity of sunshine detection device and Solar temperature detection device.

The beneficial effects of the present invention are:

(1) it detects to obtain the building spacing of sunshine-duration, intensity of sunshine, solar temperature and fixation by the sub- detection unit of building, It will test data and fixed data and pass through building sub-control unit respectively and be transferred to building main control unit, building main control unit The electric energy of each building sub-control unit is delivered to according to the distribution of the mathematical model of internal preset, to realize electric energy each Reasonable distribution is made according to sunshine-duration, intensity of sunshine, solar temperature and building spacing in a building, guarantees the same of illuminating effect When, electric energy is rationally utilized, it is energy saving.

(2) the amendment influence coefficient of each impact factor changes according to the seasonal variations in building location；And respectively influence because The variation that the amendment of son influences coefficient is successively changed according to priority level, is made it possible to according to different use requirements to electricity Reasonable distribution can be carried out between each building and is used.

Detailed description of the invention

Fig. 1 is a kind of structural schematic diagram of intelligent building lighting system of the present invention.

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 lighting system, including external power supply, the building being connect with the external power supply Main control unit, and several building sub-control units being connect respectively with the building main control unit, each building Space sub-control unit has been correspondingly connected with the sub- detection unit of building；The external power supply is set to power supply place, the building master control Unit processed is set in building base station, several described building sub-control units and the sub- detection unit of building are respectively arranged at correspondence Building inside, inside building main control unit according to the distribution of preset mathematical model be delivered to each building control it is single The electric energy of member.

Specifically, the impact factor of the mathematical model of building main control unit internal preset includes that sunshine-duration, sunshine are strong Degree, solar temperature and building spacing.

It detects to obtain the building spacing of sunshine-duration, intensity of sunshine, solar temperature and fixation by the sub- detection unit of building, It will test data and fixed data and pass through building sub-control unit respectively and be transferred to building main control unit, building main control unit The electric energy of each building sub-control unit is delivered to according to the distribution of the mathematical model of internal preset, to realize electric energy each Reasonable distribution is made according to sunshine-duration, intensity of sunshine, solar temperature and building spacing in a building, guarantees the same of illuminating effect When, electric energy is rationally utilized, it is energy saving.

Specifically, sunshine-duration in the impact factor of the mathematical model of building main control unit internal preset, intensity of sunshine, Solar temperature and building spacing, which respectively correspond, is provided with amendment influence coefficient, is modified with the data result to mathematical model； It is determined preferably, each amendment influences coefficient according to preparatory investigation and a large amount of test result are comprehensive.

Specifically, the amendment influence coefficient of each impact factor changes according to the seasonal variations in building location, to be directed to The seasonal variations in building location and corresponding adaptability is made to the reasonable distribution of its electric energy and is adjusted.

Specifically, the variation that the amendment of each impact factor influences coefficient is successively changed according to priority level, thus root Corresponding adaptability is made according to reasonable distribution of the different use demands to the electric energy in building location to adjust.

Specifically, priority level determines are as follows: amendment influence coefficient > intensity of sunshine amendment influence coefficient of sunshine-duration > The amendment of solar temperature, which influences the amendment of coefficient > building spacing, influences coefficient, to guarantee the amendment shadow of preferential counterglow time Sound coefficient is changed, the amendment influence coefficient of counterglow intensity is changed again, the amendment of counterglow temperature influences coefficient again It is changed, coefficient finally is influenced on the amendment of building spacing again and is changed (fixed numbers, to the calculating data of mathematical model As a result influence relatively less), the building having higher requirements suitable for counterglow time and intensity.

Specifically, priority level determines are as follows: amendment influence coefficient > solar temperature amendment influence coefficient of sunshine-duration > The amendment of intensity of sunshine, which influences the amendment of coefficient > building spacing, influences coefficient, to guarantee the amendment shadow of preferential counterglow time Sound coefficient is changed, the amendment influence coefficient of counterglow temperature is changed again, the amendment of counterglow intensity influences coefficient again It is changed, coefficient finally is influenced on the amendment of building spacing again and is changed (fixed numbers, to the calculating data of mathematical model As a result influence relatively less), the building having higher requirements suitable for counterglow time and temperature.

Specifically, priority level determines are as follows: amendment influence coefficient > sunshine-duration amendment influence coefficient of intensity of sunshine > The amendment of solar temperature, which influences the amendment of coefficient > building spacing, influences coefficient, to guarantee the amendment shadow of preferential counterglow intensity Sound coefficient is changed, the amendment influence coefficient of counterglow time is changed again, the amendment of counterglow temperature influences coefficient again It is changed, coefficient finally is influenced on the amendment of building spacing again and is changed (fixed numbers, to the calculating data of mathematical model As a result influence relatively less), the building having higher requirements suitable for counterglow intensity and time.

Specifically, priority level determines are as follows: amendment influence coefficient > solar temperature amendment influence coefficient of intensity of sunshine > The amendment of sunshine-duration, which influences the amendment of coefficient > building spacing, influences coefficient, to guarantee the amendment shadow of preferential counterglow intensity Sound coefficient is changed, the amendment influence coefficient of counterglow temperature is changed again, the amendment of counterglow time influences coefficient again It is changed, coefficient finally is influenced on the amendment of building spacing again and is changed (fixed numbers, to the calculating data of mathematical model As a result influence relatively less), the building having higher requirements suitable for counterglow intensity and temperature.

Specifically, the sub- detection unit of building includes sunshine-duration metering device, intensity of sunshine detection device and sunshine temperature Detection device is spent, building main control unit, building main control unit are sent to by the sub- detection unit of building to will test value The electric energy of each building sub-control unit is delivered to further according to the mathematical model distribution of internal preset.

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 lighting system, including external power supply, the building main control unit being connect with the external power supply, with And several building sub-control units being connect respectively with the building main control unit, each building sub-control unit pair The sub- detection unit of building should be connected with；The external power supply is set to power supply place, and the building main control unit is set to building In space base station, several described building sub-control units and the sub- detection unit of building are respectively arranged inside corresponding building, It is characterized in that: each building being delivered to according to the distribution of preset mathematical model inside the building main control unit and is controlled The electric energy of unit.

2. a kind of intelligent building lighting system according to claim 1, it is characterised in that: in the building main control unit The impact factor of the preset mathematical model in portion includes sunshine-duration, intensity of sunshine, solar temperature and building spacing.

3. a kind of intelligent building lighting system according to claim 2, it is characterised in that: in the building main control unit Sunshine-duration, intensity of sunshine, solar temperature and building spacing respectively correspond setting in the impact factor of the preset mathematical model in portion There is amendment to influence coefficient.

4. a kind of intelligent building lighting system according to claim 3, it is characterised in that: the amendment of each impact factor influences Coefficient changes according to the seasonal variations in building location.

5. a kind of intelligent building lighting system according to claim 4, it is characterised in that: the amendment of each impact factor influences The variation of coefficient is successively changed according to priority level.

6. a kind of intelligent building lighting system according to claim 5, it is characterised in that: the priority level determines are as follows: The amendment of sunshine-duration, which influences the amendment of coefficient > intensity of sunshine, influences coefficient > solar temperature amendment influence coefficient > building spacing Amendment influence coefficient.

7. a kind of intelligent building lighting system according to claim 5, it is characterised in that: the priority level determines are as follows: The amendment of sunshine-duration, which influences the amendment of coefficient > solar temperature, influences coefficient > intensity of sunshine amendment influence coefficient > building spacing Amendment influence coefficient.

8. a kind of intelligent building lighting system according to claim 5, it is characterised in that: the priority level determines are as follows: The amendment of intensity of sunshine, which influences the amendment of coefficient > sunshine-duration, influences coefficient > solar temperature amendment influence coefficient > building spacing Amendment influence coefficient.

9. a kind of intelligent building lighting system according to claim 5, it is characterised in that: the priority level determines are as follows: The amendment of intensity of sunshine, which influences the amendment of coefficient > solar temperature, influences coefficient > sunshine-duration amendment influence coefficient > building spacing Amendment influence coefficient.

10. a kind of intelligent building lighting system according to claim 1, it is characterised in that: the sub- detection unit of building Including sunshine-duration metering device, intensity of sunshine detection device and solar temperature detection device.