CN110191560A - A kind of factory's energy conservation and environmental protection system based on Internet of Things - Google Patents

Abstract

Factory's energy conservation and environmental protection system based on Internet of Things that the invention discloses a kind of, including area division unit, luminance detection module, aggregation of data unit, life detection module, subregion lighting unit, illumination control unit, controller, display unit, storage unit, management module and smart machine；Wherein, the area division unit is used to carry out region division to region to be illuminated to obtain Qyi；The present invention is in the illumination for as C < X1, showing that region to be illuminated needs progress whole at this time；Cover type Lighting control is carried out according to the rule of cover type Lighting control at this time, and is marked after the first round lights and veritifies region Hy, is determined a need for carrying out additional illumination again to region Hy is veritified.

Description

A kind of factory's energy conservation and environmental protection system based on Internet of Things

Technical field

The invention belongs to energy conservation and environmental protections, are related to a kind of technology of Internet of things, specifically a kind of factory based on Internet of Things Energy conservation and environmental protection system.

Background technique

Common factory's energy-saving equipment, typically in terms of carry out related improvement, be seldom related to one Relevant control is carried out in the lighting in a little some regions such as office space or warehouse；

And the patent of Publication No. CN202050576U discloses a kind of factory energy-saving illumination carrier control device, including light Quick Acquisition Circuit, single chip machine controlling circuit, power driving circuit, carrier transmitting circuit, the output letter of the photosensitive Acquisition Circuit Number it is sent to single chip machine controlling circuit, by single chip machine controlling circuit control output to power driving circuit and carrier transmitting circuit, The single chip machine controlling circuit is also connected with a watchdog circuit, which acquires light using photosensitive Acquisition Circuit, when light becomes When dark, the trigger signal of photosensitive circuit output issues driving signal and starts electric consumption on lighting equipment after single-chip microcontroller controls, and passes through Carrier signal sends information to host, shows current state, reaches long-range monitoring, energy-saving and environment-friendly purpose.

In above-mentioned patent, only simply lighting is controlled on hardware, control process is not comprehensive It closes and considers complex environment, and without being directed to some biggish office spaces, the region for having several lighting apparatus is controlled System；In order to solve the above-mentioned technical problem, it is proposed that a solution.

Summary of the invention

Illumination region can be treated the purpose of the present invention is to provide one kind and carries out region division, and according to different zones Intensity of illumination carries out different partial illumination control and cover type Lighting control, under the premise of meeting need of work, as far as possible Energy saving, factory's energy conservation and environmental protection system based on Internet of Things that the present invention provides a kind of.

The technical problems to be solved by the invention are as follows:

(1), how to treat illumination region reasonably to be divided, and carry out distinctiveness for the lighting apparatus in each region Control；

(2), when, treat illumination region carry out partial illumination control, specifically how to implement；

(3), when, carry out cover type Lighting control, specifically how to implement.

The purpose of the present invention can be achieved through the following technical solutions:

A kind of factory's energy conservation and environmental protection system based on Internet of Things, including area division unit, luminance detection module, data are comprehensive Close unit, life detection module, subregion lighting unit, illumination control unit, controller, display unit, storage unit, management mould Block and smart machine；

Wherein, the area division unit is used to carry out region division to region to be illuminated to obtain Qyi, i=1...n；

The luminance detection module includes the optical sensor that several are arranged in illumination region group, and for detect to The real-time lighting intensity of illumination region group Qyi obtains the first illumination apparent value S1i, i=1...n and the second illumination apparent value S2i, i =1...n；

The luminance detection module is used for the first illumination apparent value S1i, the second illumination apparent value S2i and region group to be illuminated Qyi is transferred to aggregation of data unit；

The subregion lighting unit includes the lighting apparatus Zi, i=that several treat illumination region group Qyi offer illumination 1...n, and Zi and Qyi is corresponded, and Zi is expressed as the lighting apparatus of region Qyi；

The aggregation of data unit is for obtaining lighting apparatus Zi, the aggregation of data unit from subregion lighting unit automatically For the first illumination apparent value S1i, the second illumination apparent value S2i, lighting apparatus Zi and region group Qyi to be illuminated to be transferred to control Device；

The life detection module is used to detect the personnel amount information in each region to be illuminated, can visit herein by life The equipment that human body can be detected by surveying instrument etc. is realized；And by personnel amount information flag be Ri, i=1...n, Ri and Qyi one by one Corresponding, Ri indicates that the personnel amount at region group Qyi to be illuminated is Ri；The life detection module is used for personnel amount information Ri is transferred to controller；

The controller is used to combine illumination control unit and subregion lighting unit, to the first illumination apparent value S1i, the second light Illumination sub-control is carried out according to apparent value S2i, lighting apparatus Zi, region group Qyi to be illuminated and personnel amount information Ri, specifically illuminates sub-control Steps are as follows:

S100: getting the first illumination apparent value S1i, gets the plant area illumination mean value C of S1i automatically；

S200: plant area illumination mean value C is compared with preset value X1；

S300: as C >=X1, partial illumination control is carried out；

S400: as C < X1, show that region to be illuminated needs to carry out whole illuminations at this time；Carry out cover type illumination control System, specific rate-determining steps are as follows:

S401: getting personnel amount information Ri, when Ri is when lasting preset time T 2 is all zero, shows that the region does not have The region group Qyi to be illuminated of the corresponding Ri is filtered out, obtains remaining illumination region Sk, k ∈ i, i=1...n by people；

S402: getting Sk, is ranked up according to sequence from small to large to Sk, and the smallest Sk is labeled as Sk1；

S403: next region Sk2 of Sk1 is got, as k2-k1 > 1, while it is corresponding to light the region Sk1 and Sk2 Lighting apparatus Zi；Otherwise bright area Sk3 is put, Sk3 is next region of corresponding Sk2；

S404: sequentially obtaining next region of Sk3, control according to the principle of step S403 lighting apparatus Zi, Sk3 is specifically considered as to new Sk1, repeats step S403；

S405: getting the region of non-lit up lighting apparatus Zi in remaining illumination region Sk, and is core by the zone marker Test region Hy, Hy ∈ Qyi, and y ∈ i, i=1...n；

S406: appoint and take a veritification region Hy, and get its corresponding first illumination apparent value S1i and the second illumination apparent value S2i；

S407: as S1i-S2i≤0, if the value of S2i is lower than preset value at this time, the bright Hy of unit spot is managed using illumination The corresponding lighting apparatus Zi in region；Otherwise any operation is not executed；

S408: as S1i-S2i > 0, any operation is not executed；

S409: at interval of preset time T 2, refresh the primary operation, and repeat step S401-S409；

S500: in real time by the lighting apparatus Zi lighted corresponding region group Qyi to be illuminated and personnel amount information Ri, It is organized into illumination region and regional work number information.

Further, the specific partiting step of the region division are as follows:

Step 1: by region division to be illuminated it is several rectangular areas side by side according to default size, ignores rectangle and cover Cover less than irregular place, guarantee that rectangular area is fully located at region to be illuminated；

Step 2: several rectangular areas are labeled as region group to be illuminated, and region group to be illuminated is labeled as Qyi, i =1...n；When i value is adjacent, corresponding region group to be illuminated is adjacent.

Further, the specific detection method of illuminance detection module detection real-time lighting intensity are as follows:

Step 1: four edges and center position in each region to be illuminated are respectively provided with optical sensor, center Position is the intersection point of two center lines of rectangle；

Step 2: the real-time lighting intensity of four corners and center position is got, the illumination of four edges is sought The mean value of intensity, and the mean value is labeled as the first illumination apparent value, which is labeled as S1i, i=1...n, and Qyi and S1i is corresponded；

Step 3: calculating the mean value according to intensity of four corners and center position automatically, and by the intensity of illumination mark It is denoted as the second illumination apparent value, which is corresponded labeled as S2i, i=1...n, and Qyi and S1i.

Further, specific step is as follows for the partial illumination control in step S300:

S301: getting the first illumination apparent value S1i lower than X1, gets the first illumination apparent value S1i lower than X1 automatically Corresponding region Qyi to be illuminated, is marked as part control area；

S302: getting personnel amount information Ri, by Ri=0 and continues preset time T 1, corresponding part control area To filtering out；The corresponding part control area remaining Ri is labeled as to bright area Bj, j ∈ an i, i=1...n；

S303: it gets to a bright area Bj；

S304: being ranked up Bj according to sequence from small to large, and the smallest Bj is labeled as Bj1；

S305: getting next region Bj2 of Bj1, as j2-j1 > 2, lights Bj1 simultaneously by illumination control unit Lighting apparatus Zi corresponding with the region Bj2；Otherwise bright area Bj3 is put, Bj3 is next region of corresponding Bj2；

S306: sequentially obtaining next region of Bj3, control according to the principle of step S305 lighting apparatus Zi, Bj3 is specifically considered as to new Bj1, repeats step S305；

S307: step S306 is repeated until the control to needing to be lighted region Bj；

S308: refresh the once judgement to each region every preset time T 1, repeat step S301-S308.

Further, the controller is used to illumination region and regional work number information being transferred to display unit, institute It states display unit and shows the corresponding regional work number information of each illumination region in table form.

Further, the controller is used to the first illumination apparent value S1i and the second illumination apparent value S2i being transferred to controller Carry out real-time display.

Further, the smart machine is the portable intelligent device of administrative staff, specially mobile phone, the controller For illumination region and regional work number information to be transferred to portable intelligent device.

Further, the management module is used for staff's typing preset value X1, T1 and T2, and the management module is used for Preset value X1, T1 and T2 are transferred to controller, the controller is used to X1, T1 and T2 being transferred to storage unit, described to deposit Storage unit receives X1, T1 and T2 of controller transmission and substitutes original value storage.

Beneficial effects of the present invention:

(1) present invention is by the setting of area division unit, by corresponding rule, treat illumination region be divided into it is several A rectangular area side by side forms region group Qyi to be illuminated, and corresponding each region group Qyi to be illuminated specifies corresponding illumination Equipment, and equipment is controlled accordingly；

(2) simultaneously the present invention by luminance detection module detect the first illumination apparent value of each region group Qyi to be illuminated with Second illumination apparent value gets the plant area illumination mean value C of S1i automatically later；Plant area illumination mean value C and preset value X1 is compared Compared with；As C >=X1, partial illumination control is carried out；Illumination region progress is treated in conjunction with corresponding partial illumination control rule at this time Corresponding control, guarantees the normal use of each region.

(3) present invention is in the illumination for as C < X1, showing that region to be illuminated needs progress whole at this time；At this time according to covering The rule of formula Lighting control carries out cover type Lighting control, and marks after the first round lights and veritify region Hy, to veritification Region Hy is determined a need for carrying out additional illumination again.

Detailed description of the invention

In order to facilitate the understanding of those skilled in the art, the present invention will be further described below with reference to the drawings.

Fig. 1 is system block diagram of the invention；

Fig. 2 is present invention region to be illuminated and its optical sensor position view.

Specific embodiment

As shown in Figure 1, a kind of factory's energy conservation and environmental protection system based on Internet of Things, including area division unit, luminance detection Module, aggregation of data unit, life detection module, subregion lighting unit, illumination control unit, controller, display unit, storage Unit, management module and smart machine；

Wherein, the area division unit is used to carry out region division, specific partiting step to region to be illuminated are as follows:

Step 1: by region division to be illuminated it is several rectangular areas side by side according to default size, ignores rectangle and cover Cover less than irregular place, guarantee that rectangular area is fully located at region to be illuminated；

Step 2: several rectangular areas are labeled as region group to be illuminated, and region group to be illuminated is labeled as Qyi, i =1...n；When i value is adjacent, corresponding region group to be illuminated is adjacent；

The luminance detection module includes the optical sensor that several are arranged in illumination region group, and for detect to The real-time lighting intensity of illumination region group Qyi, specific detection method are as follows:

Step 1: as shown in Fig. 2, four edges and center position in each region to be illuminated, are respectively provided with illumination Sensor, center are the intersection point of two center lines of rectangle；

Step 2: the real-time lighting intensity of four corners and center position is got, the illumination of four edges is sought The mean value of intensity, and the mean value is labeled as the first illumination apparent value, which is labeled as S1i, i=1...n, and Qyi and S1i is corresponded；

Step 3: calculating the mean value according to intensity of four corners and center position automatically, and by the intensity of illumination mark It is denoted as the second illumination apparent value, which is corresponded labeled as S2i, i=1...n, and Qyi and S1i；

The luminance detection module is used for the first illumination apparent value S1i, the second illumination apparent value S2i and region group to be illuminated Qyi is transferred to aggregation of data unit；

The subregion lighting unit includes the lighting apparatus Zi, i=that several treat illumination region group Qyi offer illumination 1...n, and Zi and Qyi is corresponded, and Zi is expressed as the lighting apparatus of region Qyi；

The aggregation of data unit is for obtaining lighting apparatus Zi, the aggregation of data unit from subregion lighting unit automatically For the first illumination apparent value S1i, the second illumination apparent value S2i, lighting apparatus Zi and region group Qyi to be illuminated to be transferred to control Device；

The life detection module is used to detect the personnel amount information in each region to be illuminated, can visit herein by life The equipment that human body can be detected by surveying instrument etc. is realized；And by personnel amount information flag be Ri, i=1...n, Ri and Qyi one by one Corresponding, Ri indicates that the personnel amount at region group Qyi to be illuminated is Ri；The life detection module is used for personnel amount information Ri is transferred to controller；

The controller is used to combine illumination control unit and subregion lighting unit, to the first illumination apparent value S1i, the second light Illumination sub-control is carried out according to apparent value S2i, lighting apparatus Zi, region group Qyi to be illuminated and personnel amount information Ri, specifically illuminates sub-control Steps are as follows:

S100: getting the first illumination apparent value S1i, gets the plant area illumination mean value C of S1i automatically；

S200: plant area illumination mean value C is compared with preset value X1；Preset value X1 is expressed as region to be illuminated herein Illuminance is begun to decline, but can be it is clear that only illuminance is inadequate；

S300: as C >=X1, partial illumination control is carried out；Specific step is as follows:

S301: getting the first illumination apparent value S1i lower than X1, gets the first illumination apparent value S1i lower than X1 automatically Corresponding region Qyi to be illuminated, is marked as part control area；

S302: getting personnel amount information Ri, by Ri=0 and continues preset time T 1, corresponding part control area To filtering out；The corresponding part control area remaining Ri is labeled as to bright area Bj, j ∈ an i, i=1...n；

S303: it gets to a bright area Bj；

S304: being ranked up Bj according to sequence from small to large, and the smallest Bj is labeled as Bj1；

S305: getting next region Bj2 of Bj1, as j2-j1 > 2, lights Bj1 simultaneously by illumination control unit Lighting apparatus Zi corresponding with the region Bj2；Otherwise bright area Bj3 is put, Bj3 is next region of corresponding Bj2；

S306: sequentially obtaining next region of Bj3, control according to the principle of step S305 lighting apparatus Zi, Bj3 is specifically considered as to new Bj1, repeats step S305；

S307: step S306 is repeated until the control to needing to be lighted region Bj；

S308: refresh the once judgement to each region every preset time T 1, repeat step S301-S308；

S400: as C < X1, show that region to be illuminated needs to carry out whole illuminations at this time；Carry out cover type illumination control System, specific rate-determining steps are as follows:

S401: getting personnel amount information Ri, when Ri is when lasting preset time T 2 is all zero, shows that the region does not have The region group Qyi to be illuminated of the corresponding Ri is filtered out, obtains remaining illumination region Sk, k ∈ i, i=1...n by people；

S402: getting Sk, is ranked up according to sequence from small to large to Sk, and the smallest Sk is labeled as Sk1；

S403: next region Sk2 of Sk1 is got, as k2-k1 > 1, while it is corresponding to light the region Sk1 and Sk2 Lighting apparatus Zi；Otherwise bright area Sk3 is put, Sk3 is next region of corresponding Sk2；

S404: sequentially obtaining next region of Sk3, control according to the principle of step S403 lighting apparatus Zi, Sk3 is specifically considered as to new Sk1, repeats step S403；

S405: getting the region of non-lit up lighting apparatus Zi in remaining illumination region Sk, and is core by the zone marker Test region Hy, Hy ∈ Qyi, and y ∈ i, i=1...n；

S406: appoint and take a veritification region Hy, and get its corresponding first illumination apparent value S1i and the second illumination apparent value S2i；

S407: as S1i-S2i≤0, if the value of S2i is lower than preset value at this time, the bright Hy of unit spot is managed using illumination The corresponding lighting apparatus Zi in region；Otherwise any operation is not executed；

Indicate that lighting apparatus has been lighted in only one region of the veritification region both sides Hy herein, as shown in Fig. 2, working as Qy1 point Bright, Qy2 and Qy3 are when lighting, and Qy2 is naturally larger than the not side close to Qy1 close to the side illuminance of Qy1 at this time, therefore At this time after plus central point illuminance, the illumination apparent value in the region Qy2 is inevitably enlarged；

S408: as S1i-S2i > 0, any operation is not executed；

S409: at interval of preset time T 2, refresh the primary operation, and repeat step S401-S409；

S500: in real time by the lighting apparatus Zi lighted corresponding region group Qyi to be illuminated and personnel amount information Ri, It is organized into illumination region and regional work number information.

The controller is used to illumination region and regional work number information being transferred to display unit, the display unit The corresponding regional work number information of each illumination region is shown in table form.

The controller is used to for the first illumination apparent value S1i and the second illumination apparent value S2i to be transferred to controller and carry out in real time Display.

The smart machine is the portable intelligent device of administrative staff, can be mobile phone, the controller will be for that will illuminate Region and regional work number information are transferred to portable intelligent device.

The management module is used for staff's typing preset value X1, T1 and T2, and the management module is used for preset value X1, T1 and T2 are transferred to controller, and the controller is used to X1, T1 and T2 being transferred to storage unit, and the storage unit connects It receives X1, T1 and T2 of controller transmission and substitutes original value storage.

As another embodiment of the present invention, illumination region of the present invention also to be set as several rows and several columns form, Each illumination region realizes the control of multirow according to being controlled according to the principle of above example line by line；

The present invention treats illumination region division by corresponding rule at work, by the setting of area division unit For several rectangular areas side by side, region group Qyi to be illuminated, and the specified correspondence of corresponding each region group Qyi to be illuminated are formed Lighting apparatus, and control equipment accordingly；

The present invention detects the first illumination apparent value and second of each region group Qyi to be illuminated by luminance detection module simultaneously Illumination apparent value gets the plant area illumination mean value C of S1i automatically later；Plant area illumination mean value C is compared with preset value X1； As C >=X1, partial illumination control is carried out；Illumination region is treated in conjunction with corresponding partial illumination control rule at this time to be corresponded to Control, guarantees the normal use of each region.

The present invention is also in the illumination for as C < X1, showing that region to be illuminated needs progress whole at this time；At this time according to covering The rule of formula Lighting control carries out cover type Lighting control, and marks after the first round lights and veritify region Hy, to veritification Region Hy is determined a need for carrying out additional illumination again.

Above content is only to structure of the invention example and explanation, affiliated those skilled in the art couple Described specific embodiment does various modifications or additions or is substituted in a similar manner, without departing from invention Structure or beyond the scope defined by this claim, is within the scope of protection of the invention.

Claims (8)

1. a kind of factory's energy conservation and environmental protection system based on Internet of Things, which is characterized in that including area division unit, luminance detection mould Block, aggregation of data unit, life detection module, subregion lighting unit, illumination control unit, controller, display unit, storage are single Member, management module and smart machine；

Wherein, the area division unit is used to carry out region division to region to be illuminated to obtain Qyi, i=1...n；

The luminance detection module includes the optical sensor that several are arranged in illumination region group, and to be illuminated for detecting The real-time lighting intensity of region group Qyi obtains the first illumination apparent value S1i, i=1...n and the second illumination apparent value S2i, i= 1...n；

The luminance detection module is used to pass the first illumination apparent value S1i, the second illumination apparent value S2i and region group Qyi to be illuminated It is defeated to arrive aggregation of data unit；

The subregion lighting unit includes lighting apparatus Zi, the i=1...n that several treat illumination region group Qyi offer illumination, And Zi and Qyi is corresponded, Zi is expressed as the lighting apparatus of region Qyi；

For obtaining lighting apparatus Zi from subregion lighting unit automatically, the aggregation of data unit is used for the aggregation of data unit First illumination apparent value S1i, the second illumination apparent value S2i, lighting apparatus Zi and region group Qyi to be illuminated are transferred to controller；

The life detection module is used to detect the personnel amount information in each region to be illuminated, herein can be by life-detection instrument It is realized etc. the equipment that can detect human body；And by personnel amount information flag be Ri, i=1...n, Ri and Qyi correspond, Ri indicates that the personnel amount at region group Qyi to be illuminated is Ri；The life detection module is used to pass personnel amount information Ri It is defeated to arrive controller；

The controller is used to combine illumination control unit and subregion lighting unit, regards to the first illumination apparent value S1i, the second illumination Value S2i, lighting apparatus Zi, region group Qyi to be illuminated and personnel amount information Ri carry out illumination sub-control, specific to illuminate sub-control step It is as follows:

S100: getting the first illumination apparent value S1i, gets the plant area illumination mean value C of S1i automatically；

S200: plant area illumination mean value C is compared with preset value X1；

S300: as C >=X1, partial illumination control is carried out；

S400: as C < X1, show that region to be illuminated needs to carry out whole illuminations at this time；Carry out cover type Lighting control, tool Body rate-determining steps are as follows:

S401: getting personnel amount information Ri, when Ri is when lasting preset time T 2 is all zero, shows region no one, will The region group Qyi to be illuminated of the corresponding Ri is filtered out, and obtains remaining illumination region Sk, k ∈ i, i=1...n；

S402: getting Sk, is ranked up according to sequence from small to large to Sk, and the smallest Sk is labeled as Sk1；

S403: getting next region Sk2 of Sk1, as k2-k1 > 1, while lighting the corresponding illumination in the region Sk1 and Sk2 Equipment Zi；Otherwise bright area Sk3 is put, Sk3 is next region of corresponding Sk2；

S404: next region of Sk3 is sequentially obtained, lighting apparatus Zi is controlled according to the principle of step S403, specifically Sk3 is considered as to new Sk1, repeats step S403；

S405: getting the region of non-lit up lighting apparatus Zi in remaining illumination region Sk, and is to veritify area by the zone marker Domain Hy, Hy ∈ Qyi, and y ∈ i, i=1...n；

S406: appoint and take a veritification region Hy, and get its corresponding first illumination apparent value S1i and the second illumination apparent value S2i；

S407: as S1i-S2i≤0, if the value of S2i is lower than preset value at this time, the bright region Hy of unit spot is managed using illumination Corresponding lighting apparatus Zi；Otherwise any operation is not executed；

S408: as S1i-S2i > 0, any operation is not executed；

S409: at interval of preset time T 2, refresh the primary operation, and repeat step S401-S409；

S500: it in real time by the lighting apparatus Zi lighted corresponding region group Qyi to be illuminated and personnel amount information Ri, arranges At illumination region and regional work number information.

2. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that the region The specific partiting step divided are as follows:

Step 1: by region division to be illuminated it is several rectangular areas side by side according to default size, ignores rectangle covering not The irregular place arrived guarantees that rectangular area is fully located at region to be illuminated；

Step 2: several rectangular areas are labeled as region group to be illuminated, and region group to be illuminated is labeled as Qyi, i= 1...n；When i value is adjacent, corresponding region group to be illuminated is adjacent.

3. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that illuminance inspection Survey the specific detection method of module detection real-time lighting intensity are as follows:

Step 1: four edges and center position in each region to be illuminated are respectively provided with optical sensor, center For the intersection point of two center lines of rectangle；

Step 2: the real-time lighting intensity of four corners and center position is got, the intensity of illumination of four edges is sought Mean value, and by the mean value be labeled as the first illumination apparent value, by the first illumination apparent value be labeled as S1i, i=1...n, and Qyi It is corresponded with S1i；

Step 3: the mean value according to intensity of four corners and center position is calculated automatically, and the intensity of illumination is labeled as Second illumination apparent value corresponds the second illumination apparent value labeled as S2i, i=1...n, and Qyi and S1i.

4. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that step S300 In the partial illumination control specific step is as follows:

S301: getting the first illumination apparent value S1i lower than X1, and the first illumination apparent value S1i got automatically lower than X1 is corresponding Region Qyi to be illuminated, be marked as part control area；

S302: getting personnel amount information Ri, by Ri=0 and continues preset time T 1, corresponding part control area is to filter It removes；The corresponding part control area remaining Ri is labeled as to bright area Bj, j ∈ an i, i=1...n；

S303: it gets to a bright area Bj；

S304: being ranked up Bj according to sequence from small to large, and the smallest Bj is labeled as Bj1；

S305: getting next region Bj2 of Bj1, as j2-j1 > 2, pass through illumination control unit simultaneously light Bj1 and The corresponding lighting apparatus Zi in the region Bj2；Otherwise bright area Bj3 is put, Bj3 is next region of corresponding Bj2；

S306: next region of Bj3 is sequentially obtained, lighting apparatus Zi is controlled according to the principle of step S305, specifically Bj3 is considered as to new Bj1, repeats step S305；

S307: step S306 is repeated until the control to needing to be lighted region Bj；

S308: refresh the once judgement to each region every preset time T 1, repeat step S301-S308.

5. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that the control Device is used to illumination region and regional work number information being transferred to display unit, and the display unit is shown in table form The corresponding regional work number information of each illumination region.

6. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that the control Device, which is used to for the first illumination apparent value S1i and the second illumination apparent value S2i to be transferred to controller, carries out real-time display.

7. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that the intelligence Equipment is the portable intelligent device of administrative staff, specially mobile phone, and the controller is used for illumination region and regional work Number information is transferred to portable intelligent device.

8. a kind of factory's energy conservation and environmental protection system based on Internet of Things according to claim 1, which is characterized in that the management Module is used for staff's typing preset value X1, T1 and T2, and the management module is used to preset value X1, T1 and T2 being transferred to control Device processed, the controller are used to for X1, T1 and T2 being transferred to storage unit, and the storage unit receives controller transmission X1, T1 and T2 simultaneously substitute original value storage.