CN106707931A - Automatic building control system based on Agent and working method of automatic building control system - Google Patents

Abstract

The invention discloses an automatic building control system based on an Agent and a working method of the automatic building control system. The automatic building control system is composed of a terminal monitoring Agent, an illumination management Agent, an air conditioning management Agent, a ventilation management Agent, a safety management Agent and a garage management Agent, wherein the terminal monitoring Agent is used for monitoring the base station state of each Agent, and is in data connection with the illumination management Agent, the air conditioning management Agent, the ventilation management Agent, the safety management Agent and the garage management Agent through a local area network; a data acquisition system in the terminal monitoring Agent is used for acquiring base station data information of each Agent and establishing an independent database for carrying out data storage. According to the automatic building control system based on the Agent, disclosed by the invention, the system has a high automation degree and can be used for monitoring the working state of each system in a building in real time and carrying out balance adjustment in real time; uniform planning and management of the building is facilitated.

Description

A kind of building automatic control system and its method of work based on Agent

Technical field

The invention belongs to building automatic application field, and in particular to a kind of building automatic control system based on Agent System and its method of work.

Background technology

As the development of China's industrialization and urbanization, the public building in city are more and more, used in building management The new and high technologies such as digitlization, networking, intellectuality, are fashions trend in the world, are also to adapt to advanced information society to building The requirement of the function, environment and efficiency management of thing.Intelligent building be exactly building is carried out building automatic, safe automation system, Automatic fire fighting, managing power consumption automatic management, develop on the basis of traditional architecture property management reason.With China's industry Change the development with urbanization, the public building in city is more and more, digitlization, networking, intellectuality are used in building management It is fashion trend in the world etc. new and high technology, is also to adapt to advanced information society to the function of building, environment and efficiency pipe The requirement of reason.Intelligent building is exactly that building automatic, safe automation system, automatic fire fighting, managing power consumption are carried out to building certainly Dynamicization is managed, and is developed on the basis of traditional architecture property management reason.

The development of electronic technology and the network communications technology, makes social advanced IT application, in interior of building application message skill Art, ancient Building technology and modern high technology are combined, that is, generate intelligent building.Intelligent building is to the electricity in building The facilities such as device, security protection, fire-fighting, office carry out centralized Control, realize comprehensive automation, informationization, are passed through the user in building Ji is comfortable, the environment of highly effective and safe, makes building function that qualitative leap to occur.The development of electronic technology and the network communications technology, makes Social advanced IT application, in interior of building application message technology, ancient Building technology and modern high technology is combined, that is, produce Intelligent building is given birth to.Intelligent building carries out centralized Control to facilities such as the electrical equipment in building, security protection, fire-fighting, offices, realizes comprehensive Automation, informationization are closed, the user in building is obtained the economic comfortable, environment of highly effective and safe, make building function that the winged of matter to occur Jump.

The content of the invention

In order to solve the above-mentioned technical problem, the present invention provides a kind of building automatic control system based on Agent, bag Include：Including：Terminal monitoring Agent100, illumination supervision Agent101, air conditioning managing Agent102, ventilating management Agent103, Safety management Agent104, garage management Agent105；The terminal monitoring Agent100 is used for monitoring each Agent base stations shape State, by LAN respectively with illumination supervision Agent101, air conditioning managing Agent102, ventilating management Agent103, safety Management Agent104, garage management Agent105 set up data cube computation；Data collecting system point in terminal monitoring Agent100 Each Agent base station datas information is not gathered, and setting up self contained data base carries out data storage；

The electric equipments such as electric light, printer in the illumination supervision Agent101 master controls management building；

The equipment such as air conditioner, air compressor machine in the air conditioning managing Agent102 master controls management building；

The electrical equipment of air pipeline and its correlation in the ventilating management Agent103 master controls management building；

Elevator, passageway for fire apparatus and its relevant device in the safety management Agent104 master controls management building；

Relevant device in the garage management Agent105 master control management building garage parking.

Further, the illumination supervision Agent101 includes：Local switch Agent101-1, Power quality management Agent101-2, communication management Agent101-3, electric equipment management Agent101-4；Wherein, the local switch Agent101-1 is provided with touch sensible module；Voltage, electricity in the Power quality management Agent101-2 monitoring, illumination systems Stream transient changing, is provided with electricity statistical module；The communication management Agent101-3 passes through WIFI transmitter modules and locally opens Close Agent101-1, electric equipment management Agent101-4 and set up communication connection respectively.

Further, the garage management Agent105 includes：Inventory limitation Agent105-1, IC-card registration Agent105-2, timing/charging Agent105-3；Wherein, the IC-card registration Agent105-2 is provided with IC-card, IC-card registration The built-in WIFI modules of Agent105-2 and infrared induction module；The timing/charging Agent105-3 onboard clock timing modules, Agent105-2 is registered by infrared induction and IC-card to control to be connected；The built-in computing modules of inventory limitation Agent105-1 and LCD MODULE, inventory limitation Agent105-1 is connected with IC-card registration Agent105-2 controlled in wireless.

Further, the air conditioning managing Agent102 is provided with indoor environmental condition control device；The indoor environmental condition control device It is connected with indoor temperature sensor, humidity sensor, the control of gas concentration lwevel sensor wireless respectively.

Further, the safety management Agent104 is provided with security and stability control device；The security and stability control device Infrared inductor controlled in wireless is released with Smoke Sensor, heat respectively to be connected.

Further, the IC-card is molded by macromolecular material pressing mold, and the constituent and manufacturing process of IC-card are as follows：

First, IC-card constituent：

Count by weight, 2- [[1,5- dihydro -3- methyl -5- oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] Asia second Base] 63~123 parts of -3- ethyl -5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- methylbenzenes Base] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] 53~153 parts of benzene sulfonic acid, two [5- chloros -3- [(4,5- Dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrazoles -4- bases) azo] -2- hydroxy benzene sulfonic acids base]-chromic acid ethylethanolamine sodium salt 93~213 parts, 1,1- dimethyl ethyl 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- bases) Epoxide] 13~53 parts of -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] phenylacetic acid 73~ 133 parts, D (-) -4- ethyl -2,33~73 parts of 3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid, concentration be 23ppm~ 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) formamide] 53~113 parts of phenylacetic acid, N- [(4- ethyl -2,3- of 53ppm Dioxo -1- piperazinyls) phosphinylidyne] 33~73 parts of-alpha-amido p-hydroxyphenylaceticacid, (the 2- second of 1H- BTA -1- bases-N, N- bis- Base hexyl) 113~143 parts of -4- methyl methylamine, 63~193 parts of crosslinking agent, N, N- dimethyl -5- (1H-1,2,4- triazole -1- Ylmethyl) 43~113 parts of -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] benzene idols Nitrogen base] -1H-1,2,4- 23~83 parts of triazole father-in-law trichlorine zincic acid base (1-) salt, 2,5- bis- chloro- 4- [4- [[3- [(ethylphenyl ammonia Base) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid 43~133 Part, 4- chloros -3- [4,5- dihydros generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] benzene sulfonic acid sodium salt 83~163 Part；

The crosslinking agent is the bromo- 6- chlorine isoquinolin of 7-, the chloro- 2- nitrobenzoic acids of the bromo- 5- of 4-, the bromo- 5- of 2- (2- bromine oxethyls) pyrrole Any one in pyridine；

2nd, the manufacturing process of IC-card, comprises the steps of：

1st step：1373~1643 parts of ultra-pure water for adding electrical conductivity to be 2.23 μ S/cm~4.23 μ S/cm in a kettle., starts Agitator in reactor, rotating speed is 63rpm~123rpm, starts heat pump, reactor temperature is risen to 43 DEG C~73 DEG C； Sequentially add 2- [[1,5- dihydro -3- methyl -5- oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] ethylidene] -3- ethyls - 5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- first Base -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid, two [5- chloros -3- [(4,5- dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrroles Azoles -4- bases) azo] -2- hydroxy benzene sulfonic acids base]-chromic acid ethylethanolamine sodium salt, stirring to being completely dissolved, regulation pH value is 3.3~ 6.3, agitator speed is adjusted to 133rpm~253rpm, temperature is 93 DEG C~133 DEG C, esterification 13~23 hours；

2nd step：Take 1,1- dimethyl ethyls 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- Base) epoxide] -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] phenylacetic acid crushed, powder Last particle diameter is 523~1353 mesh；Add the mixing of D (-) -4- ethyl -2,3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid equal It is even, be laid in pallet, tiling thickness be 33mm~53mm, use dosage for 3.3kGy~9.3kGy, energy for 5.3MeV~ The alpha ray of 14.3MeV is irradiated 63~143 minutes, and Isodose β x ray irradiation xs 53~133 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) formamide] benzene second In acid, reactor is added, agitator speed is 73rpm~183rpm, and temperature is 83 DEG C~163 DEG C, and starting vavuum pump makes reaction The vacuum of kettle reaches 1.33MPa~1.83MPa, keeps this state response 13~33 hours；Pressure release is simultaneously passed through radon gas, makes reaction Pressure is 1.23MPa~1.63MPa in kettle, and insulation stands 23~33 hours；Agitator speed is promoted to 153rpm~293rpm, The pressure release of simultaneous reactions kettle is to 0MPa；N- [(4- ethyl -2,3- dioxo -1- piperazinyls) phosphinylidyne]-alpha-amido is sequentially added to hydroxyl After base phenylacetic acid, (2- the ethylhexyls) -4- methyl methylamines of 1H- BTA -1- bases-N, N- bis- are completely dissolved, crosslinking agent is added Stirring mixing so that the hydrophilic lipophilic balance of reactor solution is 5.3~8.3, and insulation stands 23~43 hours；

4th step：When agitator speed is 143rpm~223rpm, N, N- dimethyl -5- (1H-1,2,4- tri- nitrogen are sequentially added Azoles -1- ylmethyls) -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] benzeneazos Base] -1H-1,2,4- triazole father-in-law trichlorine zincic acid base (1-) salt, the chloro- 4- of 2,5- bis- [4- [[3- [(ethylphenyl amino) sulfonyl] - 4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid and 4- chloros -3- [4,5- dihydros Generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] benzene sulfonic acid sodium salt, reactor pressure is lifted, reach 1.93MPa~2.73MPa, temperature is 143 DEG C~263 DEG C, polymerisation 13~23 hours；By reactor internal pressure after the completion of reaction Power is down to 0MPa, is cooled to 23 DEG C~43 DEG C, and discharging enters molding press and can be prepared by IC-card.

Further, the invention also discloses a kind of method of work of the building automatic control system based on Agent, should Method includes following steps：

1st step：Terminal monitoring Agent100 real-time monitoring illumination supervisions Agent101, air conditioning managing Agent102, ventilating management The Agent substations such as Agent103, safety management Agent104, garage management Agent105, and above-mentioned substation is managed collectively；

2nd step：Staff is by touching the touch sensible mould in illumination supervision Agent101 on local switch Agent101-1 Block is opened, closes the electric equipments such as electric light, and local switch Agent101-1 will be sent to communication management Agent101- with electric signal 3 and Power quality management Agent101-2, Power quality management Agent101-2 are counted to power consumption and are generated tables of data；

3rd step：Staff is registered by the IC-card held when garage is entered in garage port, IC-card registration Agent105-2 will login feedback of the information to timing/charging Agent105-3 and inventory limitation Agent105-1, timing/charging Agent105-3 starts timing, and calculates corresponding expense；Inventory limitation Agent105-1 shows the existing parking stall remainder in garage, and shows Show the most regions of remainder；Staff carries out IC-card registration, timing/charging Agent105- when garage is outputed in garage exit The 3 display amount of money, and the corresponding amount of money is taken off from IC-card；Inventory limitation Agent105-1 is by calculating, real-time update display data.

A kind of building automatic control system based on Agent disclosed by the invention, the advantage is that：

(1) system is provided with multiple Agent substations, and each portion passes through wireless connection in system, it is to avoid cumbersome wiring；

(2) the system automation degree is high, can each working state of system in real-time monitoring building, regulation is balanced in real time, Be conducive to the unified planning management of building.

A kind of building automatic control system based on Agent of the present invention, the system automation degree is high, can Each working state of system in real-time monitoring building, is balanced regulation in real time, is conducive to the unified planning management of building.

Brief description of the drawings

Fig. 1 is a kind of heretofore described building automatic control system schematic diagram based on Agent.

Fig. 2 is heretofore described illumination supervision Agent structural representations.

Fig. 3 is heretofore described garage management Agent structural representations.

Fig. 4 is heretofore described IC-card material against oxidative rate with use time variation diagram.

In figure 1 above~Fig. 3, terminal monitoring Agent100, illumination supervision Agent101 locally switch Agent101-1, Power quality management Agent101-2, communication management Agent101-3, electric equipment management Agent101-4, air conditioning managing Agent102, ventilating management Agent103, safety management Agent104, garage management Agent105, inventory limitation Agent105- 1, IC-card registration Agent105-2, timing/charging Agent105-3.

Specific embodiment

A kind of building automatic control system based on Agent that the present invention is provided is entered with reference to the accompanying drawings and examples Row is further illustrated.

As shown in figure 1, being a kind of heretofore described building automatic control system schematic diagram based on Agent.From Find out in Fig. 1, including：Including：Terminal monitoring Agent100, illumination supervision Agent101, air conditioning managing Agent102, ventilation duct Reason Agent103, safety management Agent104, garage management Agent105；The terminal monitoring Agent100 is used for monitoring each Agent base station states, by LAN respectively with illumination supervision Agent101, air conditioning managing Agent102, ventilating management Agent103, safety management Agent104, garage management Agent105 set up data cube computation；Number in terminal monitoring Agent100 Gather each Agent base station datas information respectively according to acquisition system, setting up self contained data base carries out data storage；

The electric equipments such as electric light, printer in the illumination supervision Agent101 master controls management building；

The equipment such as air conditioner, air compressor machine in the air conditioning managing Agent102 master controls management building；

The electrical equipment of air pipeline and its correlation in the ventilating management Agent103 master controls management building；

Elevator, passageway for fire apparatus and its relevant device in the safety management Agent104 master controls management building；

Relevant device in the garage management Agent105 master control management building garage parking.

Air conditioning managing Agent102 is provided with indoor environmental condition control device；The indoor environmental condition control device respectively with indoor temperature Degree sensor, humidity sensor, the control connection of gas concentration lwevel sensor wireless.

Safety management Agent104 is provided with security and stability control device；The security and stability control device is sensed with smog respectively Device, heat release the connection of infrared inductor controlled in wireless.

As shown in Fig. 2 being heretofore described illumination supervision Agent structural representations.As seen from Figure 2, lighting tube Reason Agent101 includes：Local switch Agent101-1, Power quality management Agent101-2, communication management Agent101-3, Electric equipment manages Agent101-4；Wherein, the local switch Agent101-1 is provided with touch sensible module；The electric energy Voltage, current transient change, are provided with electricity statistical module in quality management Agent101-2 monitoring, illumination systems；The communication Management Agent101-3 is managed Agent101-4 and distinguished by WIFI transmitter modules with local switch Agent101-1, electric equipment Set up communication connection.

As shown in figure 3, being heretofore described garage management Agent structural representations.As seen from Figure 3, garage pipe Reason Agent105 includes：Inventory limitation Agent105-1, IC-card registration Agent105-2, timing/charging Agent105-3；Its In, the IC-card registration Agent105-2 is provided with IC-card, IC-card the registration built-in WIFI modules of Agent105-2 and infrared induction Module；The timing/charging Agent105-3 onboard clock timing modules, Agent105-2 is registered by infrared induction and IC-card Control connection；The built-in computing modules of inventory limitation Agent105-1 and LCD MODULE, inventory limitation Agent105-1 It is connected with IC-card registration Agent105-2 controlled in wireless.

A kind of course of work of building automatic control system based on Agent of the present invention is：

1st step：Terminal monitoring Agent100 real-time monitoring illumination supervisions Agent101, air conditioning managing Agent102, ventilating management The Agent substations such as Agent103, safety management Agent104, garage management Agent105, and above-mentioned substation is managed collectively；

2nd step：Staff is by touching the touch sensible mould in illumination supervision Agent101 on local switch Agent101-1 Block is opened, closes the electric equipments such as electric light, and local switch Agent101-1 will be sent to communication management Agent101- with electric signal 3 and Power quality management Agent101-2, Power quality management Agent101-2 are counted to power consumption and are generated tables of data；

3rd step：Staff is registered by the IC-card held when garage is entered in garage port, IC-card registration Agent105-2 will login feedback of the information to timing/charging Agent105-3 and inventory limitation Agent105-1, timing/charging Agent105-3 starts timing, and calculates corresponding expense；Inventory limitation Agent105-1 shows the existing parking stall remainder in garage, and shows Show the most regions of remainder；Staff carries out IC-card registration, timing/charging Agent105- when garage is outputed in garage exit The 3 display amount of money, and the corresponding amount of money is taken off from IC-card；Inventory limitation Agent105-1 is by calculating, real-time update display data.

A kind of building automatic control system based on Agent of the present invention, the system automation degree is high, can Each working state of system in real-time monitoring building, is balanced regulation in real time, is conducive to the unified planning management of building.

The following is the embodiment of the manufacturing process of IC-card of the present invention, embodiment is of the invention in order to further illustrate Content, but should not be construed as limiting the invention.Without departing from the spirit and substance of the case in the present invention, to present invention side Modification and replacement that method, step or condition are made, belong to the scope of the present invention.

If not specializing, the conventional meanses that technological means used is well known to those skilled in the art in embodiment.

Embodiment 1

IC-card of the present invention is manufactured according to following steps, and is counted by weight：

1st step：1373 parts of the ultra-pure water that electrical conductivity is 2.23 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 63rpm, starts heat pump, reactor temperature is risen to 43 DEG C；Sequentially add 2- [[1,5- dihydro -3- methyl -5- Oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] ethylidene] 63 parts of -3- ethyl -5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene 53 parts of sulfonic acid, two [5- chloros -3- [(4,5- dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrazoles -4- bases) azo] -2- hydroxyls Base benzene sulfonic acid base] -93 parts of chromic acid ethylethanolamine sodium salt, to being completely dissolved, regulation pH value is 3.3, and agitator speed is adjusted for stirring To 133rpm, temperature is 93 DEG C, esterification 13 hours；

2nd step：Take 1,1- dimethyl ethyls 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- Base) epoxide] 13 parts of -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] 73 parts of phenylacetic acid enter Row is crushed, and powder diameter is 523 mesh；Add 33 parts of D (-) -4- ethyl -2,3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid It is well mixed, it is laid in pallet, tiling thickness is 33mm, uses dosage for 3.3kGy, energy for the alpha ray of 5.3MeV is irradiated 63 minutes, and Isodose β x ray irradiation xs 53 minutes；

3rd step：Through the 2nd step concentration for the treatment of for the mixed-powder of 23ppm is dissolved in 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) Formamide] in 53 parts of phenylacetic acid, reactor is added, agitator speed is 73rpm, and temperature is 83 DEG C, and starting vavuum pump makes reaction The vacuum of kettle reaches 1.33MPa, keeps this state response 13 hours；Pressure release is simultaneously passed through radon gas, makes the reacting kettle inner pressure be 1.23MPa, insulation stands 23 hours；Agitator speed is promoted to 153rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add N- [(4- ethyl -2,3- dioxo -1- piperazinyls) phosphinylidyne] 33 parts of-alpha-amido p-hydroxyphenylaceticacid, 1H- BTA -1- base-N, After 113 parts of (2- the ethylhexyls) -4- methyl of N- bis- methylamine is completely dissolved, 63 parts of stirring mixing of crosslinking agent are added so that reactor The hydrophilic lipophilic balance of solution is 5.3, and insulation stands 23 hours；

4th step：When agitator speed is 143rpm, N, N- dimethyl -5- (1H-1,2,4- triazole -1- Ji Jia are sequentially added Base) 43 parts of -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] phenylazo] -1H- 23 parts of 1,2,4- triazole father-in-law trichlorine zincic acid base (1-) salt, the chloro- 4- of 2,5- bis- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- Aminomethyl phenyl] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] 43 parts and 4- chloros -3- [4,5- bis- of benzene sulfonic acid Hydrogen generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] 83 parts of benzene sulfonic acid sodium salt, reactor pressure is lifted, reach it To 1.93MPa, temperature is 143 DEG C, polymerisation 13 hours；Reacting kettle inner pressure is down to 0MPa after the completion of reaction, is cooled to 23 DEG C, discharging enters molding press and can be prepared by IC-card；

The crosslinking agent is the bromo- 6- chlorine isoquinolin of 7-.

Embodiment 2

IC-card of the present invention is manufactured according to following steps, and is counted by weight：

1st step：1643 parts of the ultra-pure water that electrical conductivity is 4.23 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 123rpm, starts heat pump, reactor temperature is risen to 73 DEG C；Sequentially add 2- [[1,5- dihydro -3- methyl -5- Oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] ethylidene] 123 parts of -3- ethyl -5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene 153 parts of sulfonic acid, two [5- chloros -3- [(4,5- dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrazoles -4- bases) azo] -2- hydroxyls Base benzene sulfonic acid base] -213 parts of chromic acid ethylethanolamine sodium salt, to being completely dissolved, regulation pH value is 6.3, and agitator speed is adjusted for stirring To 253rpm, temperature is 133 DEG C, esterification 23 hours；

2nd step：Take 1,1- dimethyl ethyls 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- Base) epoxide] 53 parts of -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] 133 parts of phenylacetic acid enter Row is crushed, and powder diameter is 1353 mesh；Add 73 parts of D (-) -4- ethyl -2,3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid It is well mixed, it is laid in pallet, tiling thickness is 53mm, and it is the alpha ray spoke of 14.3MeV for 9.3kGy, energy to use dosage According to 143 minutes, and Isodose β x ray irradiation xs 133 minutes；

3rd step：Through the 2nd step concentration for the treatment of for the mixed-powder of 53ppm is dissolved in 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) Formamide] in 113 parts of phenylacetic acid, reactor is added, agitator speed is 183rpm, and temperature is 163 DEG C, and starting vavuum pump makes instead Answer the vacuum of kettle to reach 1.83MPa, keep this state response 33 hours；Pressure release is simultaneously passed through radon gas, makes the reacting kettle inner pressure be 1.63MPa, insulation stands 33 hours；Agitator speed is promoted to 293rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add N- [(4- ethyl -2,3- dioxo -1- piperazinyls) phosphinylidyne] 73 parts of-alpha-amido p-hydroxyphenylaceticacid, 1H- BTA -1- base-N, After 143 parts of (2- the ethylhexyls) -4- methyl of N- bis- methylamine is completely dissolved, 193 parts of stirring mixing of crosslinking agent are added so that reactor The hydrophilic lipophilic balance of solution is 8.3, and insulation stands 43 hours；

4th step：When agitator speed is 223rpm, N, N- dimethyl -5- (1H-1,2,4- triazole -1- Ji Jia are sequentially added Base) 113 parts of -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] phenylazo] -1H- 83 parts of 1,2,4- triazole father-in-law trichlorine zincic acid base (1-) salt, the chloro- 4- of 2,5- bis- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- Aminomethyl phenyl] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] 133 parts and 4- chloro -3- [4,5- of benzene sulfonic acid Dihydro generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] 163 parts of benzene sulfonic acid sodium salt, reactor pressure is lifted, make It reaches 2.73MPa, and temperature is 263 DEG C, polymerisation 23 hours；Reacting kettle inner pressure is down to 0MPa after the completion of reaction, is dropped To 43 DEG C, discharging enters molding press and can be prepared by IC-card temperature；

The crosslinking agent is the chloro- 2- nitrobenzoic acids of the bromo- 5- of 4-.

Embodiment 3

IC-card of the present invention is manufactured according to following steps, and is counted by weight：

1st step：1443 parts of the ultra-pure water that electrical conductivity is 3.23 μ S/cm is added in a kettle., starts agitator in reactor, turn Speed is 93rpm, starts heat pump, reactor temperature is risen to 63 DEG C；Sequentially add 2- [[1,5- dihydro -3- methyl -5- Oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] ethylidene] 83 parts of -3- ethyl -5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene 133 parts of sulfonic acid, two [5- chloros -3- [(4,5- dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrazoles -4- bases) azo] -2- hydroxyls Base benzene sulfonic acid base] -183 parts of chromic acid ethylethanolamine sodium salt, to being completely dissolved, regulation pH value is 4.3, and agitator speed is adjusted for stirring To 193rpm, temperature is 113 DEG C, esterification 18 hours；

2nd step：Take 1,1- dimethyl ethyls 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- Base) epoxide] 33 parts of -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] 83 parts of phenylacetic acid enter Row is crushed, and powder diameter is 953 mesh；Add 53 parts of D (-) -4- ethyl -2,3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid It is well mixed, it is laid in pallet, tiling thickness is 43mm, uses dosage for 6.3kGy, energy for the alpha ray of 9.3MeV is irradiated 113 minutes, and Isodose β x ray irradiation xs 83 minutes；

3rd step：Through the 2nd step concentration for the treatment of for the mixed-powder of 43ppm is dissolved in 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) Formamide] in 73 parts of phenylacetic acid, reactor is added, agitator speed is 123rpm, and temperature is 133 DEG C, and starting vavuum pump makes instead Answer the vacuum of kettle to reach 1.13MPa, keep this state response 23 hours；Pressure release is simultaneously passed through radon gas, makes the reacting kettle inner pressure be 1.43MPa, insulation stands 28 hours；Agitator speed is promoted to 193rpm, simultaneous reactions kettle pressure release to 0MPa；Sequentially add N- [(4- ethyl -2,3- dioxo -1- piperazinyls) phosphinylidyne] 53 parts of-alpha-amido p-hydroxyphenylaceticacid, 1H- BTA -1- base-N, After 123 parts of (2- the ethylhexyls) -4- methyl of N- bis- methylamine is completely dissolved, 133 parts of stirring mixing of crosslinking agent are added so that reactor The hydrophilic lipophilic balance of solution is 6.3, and insulation stands 33 hours；

4th step：When agitator speed is 173rpm, N, N- dimethyl -5- (1H-1,2,4- triazole -1- Ji Jia are sequentially added Base) 83 parts of -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] phenylazo] -1H- 63 parts of 1,2,4- triazole father-in-law trichlorine zincic acid base (1-) salt, the chloro- 4- of 2,5- bis- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- Aminomethyl phenyl] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] 113 parts and 4- chloro -3- [4,5- of benzene sulfonic acid Dihydro generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] 143 parts of benzene sulfonic acid sodium salt, reactor pressure is lifted, make It reaches 2.23MPa, and temperature is 223 DEG C, polymerisation 19 hours；Reacting kettle inner pressure is down to 0MPa after the completion of reaction, is dropped To 33 DEG C, discharging enters molding press and can be prepared by IC-card temperature；

The crosslinking agent is the bromo- 5- of 2- (2- bromine oxethyls) pyridine.

Reference examples

Reference examples are the IC-card of commercially available certain brand.

Embodiment 4

The IC-card described in IC-card and reference examples that embodiment 1~3 is prepared carries out using effect contrast.It is close to the two quality Degree, reaction time, wear-resistant rate, anti-extrusion degree are counted, as a result as shown in table 1.

As seen from Table 1, IC-card of the present invention, its mass density, reaction time, wear-resistant rate, anti-extrusion degree etc. refer to Mark is superior to the product of prior art production.

Additionally, as shown in figure 4, being the statistics that IC-card material against oxidative rate of the present invention changes with use time.Figure In find out, IC-card used by embodiment 1~3, its material against oxidative rate with use time intensity of variation significantly be better than existing product.

Claims (7)

1. a kind of building automatic control system based on Agent, including：Terminal monitoring Agent (100), illumination supervision Agent (101), air conditioning managing Agent (102), ventilating management Agent (103), safety management Agent (104), garage management Agent (105)；Characterized in that, the terminal monitoring Agent (100) is for monitoring each Agent base station states, by LAN point Not with illumination supervision Agent (101), air conditioning managing Agent (102), ventilating management Agent (103), safety management Agent (104), garage manages Agent (105) and sets up data cube computation；Data collecting system in terminal monitoring Agent (100) is adopted respectively Collect each Agent base station datas information, setting up self contained data base carries out data storage；

The electric equipments such as electric light, printer in illumination supervision Agent (101) the master control management building；

The equipment such as air conditioner, air compressor machine in air conditioning managing Agent (102) the master control management building；

The electrical equipment of air pipeline and its correlation in ventilating management Agent (103) the master control management building；

Elevator, passageway for fire apparatus and its relevant device in safety management Agent (104) the master control management building；

Relevant device in garage management Agent (105) master control management building garage parking.

2. a kind of building automatic control system based on Agent according to claim 1, it is characterised in that the photograph Bright management Agent (101) includes：Local switch Agent (101-1), Power quality management Agent (101-2), communication management Agent (101-3), electric equipment manages Agent (101-4)；Wherein, local switch Agent (101-1) is provided with touch Induction module；Voltage, current transient change, are provided with electricity in Power quality management Agent (101-2) the monitoring, illumination system Amount statistical module；The communication management Agent (101-3) is by WIFI transmitter modules and local switch Agent (101-1), electricity Communication connection is set up in device equipment control Agent (101-4) respectively.

3. a kind of building automatic control system based on Agent according to claim 1, it is characterised in that the car Library management Agent (105) includes：Inventory limitation Agent (105-1), IC-card registers Agent (105-2), timing/charging Agent (105-3)；Wherein, the IC-card is registered Agent (105-2) and is provided with IC-card, IC-card registration Agent (105-2) built-in WIFI Module and infrared induction module；The timing/charging Agent (105-3) onboard clock timing module, by infrared induction and IC Card registration Agent (105-2) control connection；The built-in computing module of the inventory limitation Agent (105-1) and liquid crystal display mode Block, inventory limitation Agent (105-1) is connected with IC-card registration Agent (105-2) controlled in wireless.

4. a kind of building automatic control system based on Agent according to claim 1, it is characterised in that the sky Management Agent (102) is adjusted to be provided with indoor environmental condition control device；The indoor environmental condition control device respectively with indoor TEMP Device, humidity sensor, the control connection of gas concentration lwevel sensor wireless.

5. a kind of building automatic control system based on Agent according to claim 1, it is characterised in that the peace Full management Agent (104) is provided with security and stability control device；The security and stability control device is released with Smoke Sensor, heat respectively Infrared inductor controlled in wireless is connected.

6. a kind of building automatic control system based on Agent according to claim 3, it is characterised in that the IC Card is molded by macromolecular material pressing mold, and the constituent and manufacturing process of IC-card are as follows：

First, IC-card constituent：

Count by weight, 2- [[1,5- dihydro -3- methyl -5- oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] Asia second Base] 63~123 parts of -3- ethyl -5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- methylbenzenes Base] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] 53~153 parts of benzene sulfonic acid, two [5- chloros -3- [(4,5- Dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrazoles -4- bases) azo] -2- hydroxy benzene sulfonic acids base]-chromic acid ethylethanolamine sodium salt 93~213 parts, 1,1- dimethyl ethyl 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- bases) Epoxide] 13~53 parts of -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] phenylacetic acid 73~ 133 parts, D (-) -4- ethyl -2,33~73 parts of 3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid, concentration be 23ppm~ 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) formamide] 53~113 parts of phenylacetic acid, N- [(4- ethyl -2,3- of 53ppm Dioxo -1- piperazinyls) phosphinylidyne] 33~73 parts of-alpha-amido p-hydroxyphenylaceticacid, (the 2- second of 1H- BTA -1- bases-N, N- bis- Base hexyl) 113~143 parts of -4- methyl methylamine, 63~193 parts of crosslinking agent, N, N- dimethyl -5- (1H-1,2,4- triazole -1- Ylmethyl) 43~113 parts of -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] benzene idols Nitrogen base] -1H-1,2,4- 23~83 parts of triazole father-in-law trichlorine zincic acid base (1-) salt, 2,5- bis- chloro- 4- [4- [[3- [(ethylphenyl ammonia Base) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid 43~133 Part, 4- chloros -3- [4,5- dihydros generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] benzene sulfonic acid sodium salt 83~163 Part；

The crosslinking agent is the bromo- 6- chlorine isoquinolin of 7-, the chloro- 2- nitrobenzoic acids of the bromo- 5- of 4-, the bromo- 5- of 2- (2- bromine oxethyls) pyrrole Any one in pyridine；

2nd, the manufacturing process of IC-card, comprises the steps of：

1st step：1373~1643 parts of ultra-pure water for adding electrical conductivity to be 2.23 μ S/cm~4.23 μ S/cm in a kettle., starts Agitator in reactor, rotating speed is 63rpm~123rpm, starts heat pump, reactor temperature is risen to 43 DEG C~73 DEG C； Sequentially add 2- [[1,5- dihydro -3- methyl -5- oxygen -1- (4- sulfophenyls) -4H- pyrazolidine -4- bases] ethylidene] -3- ethyls - 5- benzoxazoles sulfonic acid, 4- [4- [[3- [(ethylphenyl amino) sulfonyl] -4- aminomethyl phenyls] azo] -4,5- dihydro -3- first Base -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid, two [5- chloros -3- [(4,5- dihydro -3- methyl -5- oxo -1- phenyl -1H- pyrroles Azoles -4- bases) azo] -2- hydroxy benzene sulfonic acids base]-chromic acid ethylethanolamine sodium salt, stirring to being completely dissolved, regulation pH value is 3.3~ 6.3, agitator speed is adjusted to 133rpm~253rpm, temperature is 93 DEG C~133 DEG C, esterification 13~23 hours；

2nd step：Take 1,1- dimethyl ethyls 4- [(1- { 4- [(methylamino) carbonyl] phenyl } -2,3- dihydro -1H- indoles -4- Base) epoxide] -1- piperidine carboxylic acids, α-[(4- ethyl -2,3- dioxo -1- piperazinyls) formamido group] phenylacetic acid crushed, powder Last particle diameter is 523~1353 mesh；Add the mixing of D (-) -4- ethyl -2,3- dioxy -1- piperazine amide bases p-hydroxyphenylaceticacid equal It is even, be laid in pallet, tiling thickness be 33mm~53mm, use dosage for 3.3kGy~9.3kGy, energy for 5.3MeV~ The alpha ray of 14.3MeV is irradiated 63~143 minutes, and Isodose β x ray irradiation xs 53~133 minutes；

3rd step：The mixed-powder processed through the 2nd step is dissolved in 2R-2- [(4- ethyl -2,3- dioxypiperazine piperazines base) formamide] benzene second In acid, reactor is added, agitator speed is 73rpm~183rpm, and temperature is 83 DEG C~163 DEG C, and starting vavuum pump makes reaction The vacuum of kettle reaches 1.33MPa~1.83MPa, keeps this state response 13~33 hours；Pressure release is simultaneously passed through radon gas, makes reaction Pressure is 1.23MPa~1.63MPa in kettle, and insulation stands 23~33 hours；Agitator speed is promoted to 153rpm~293rpm, The pressure release of simultaneous reactions kettle is to 0MPa；N- [(4- ethyl -2,3- dioxo -1- piperazinyls) phosphinylidyne]-alpha-amido is sequentially added to hydroxyl After base phenylacetic acid, (2- the ethylhexyls) -4- methyl methylamines of 1H- BTA -1- bases-N, N- bis- are completely dissolved, crosslinking agent is added Stirring mixing so that the hydrophilic lipophilic balance of reactor solution is 5.3~8.3, and insulation stands 23~43 hours；

4th step：When agitator speed is 143rpm~223rpm, N, N- dimethyl -5- (1H-1,2,4- tri- nitrogen are sequentially added Azoles -1- ylmethyls) -1H- indol-3-yl ethamine benzoate, dimethyl -3- [4- [methyl (benzyl) amino] benzeneazos Base] -1H-1,2,4- triazole father-in-law trichlorine zincic acid base (1-) salt, the chloro- 4- of 2,5- bis- [4- [[3- [(ethylphenyl amino) sulfonyl] - 4- aminomethyl phenyls] azo] -4,5- dihydro -3- methyl -5- oxygen -1H- pyrazol-1-yls] benzene sulfonic acid and 4- chloros -3- [4,5- dihydros Generation -3- methyl -5- oxo -4- phenylazo -1H- pyrazol-1-yls] benzene sulfonic acid sodium salt, reactor pressure is lifted, reach 1.93MPa~2.73MPa, temperature is 143 DEG C~263 DEG C, polymerisation 13~23 hours；By reactor internal pressure after the completion of reaction Power is down to 0MPa, is cooled to 23 DEG C~43 DEG C, and discharging enters molding press and can be prepared by IC-card.

7. a kind of method of work of the building automatic control system based on Agent, it is characterised in that the method includes following several Individual step：

1st step：It is terminal monitoring Agent (100) real-time monitoring illumination supervision Agent (101), air conditioning managing Agent (102), logical Airduct manages Agent (103), safety management Agent (104), garage and manages the Agent substations such as Agent (105), and to above-mentioned Substation is managed collectively；

2nd step：Staff is by touching the touch sense in illumination supervision Agent (101) on local switch Agent (101-1) Answer module to open, close the electric equipments such as electric light, locally switching Agent (101-1) will be sent to communication management with electric signal Agent (101-3) and Power quality management Agent (101-2), Power quality management Agent (101-2) unite to power consumption Count and generate tables of data；

3rd step：Staff is registered by the IC-card held when garage is entered in garage port, IC-card registration Agent (105-2) will login feedback of the information to timing/charging Agent (105-3) and inventory limitation Agent (105-1), timing/charging Agent (105-3) starts timing, and calculates corresponding expense；Inventory limitation Agent (105-1) shows the existing parking stall remainder in garage, And show the most regions of remainder；Staff carries out IC-card registration, timing/charging Agent when garage is outputed in garage exit (105-3) shows the amount of money, and the corresponding amount of money is taken off from IC-card；Inventory limitation Agent (105-1) is by calculating, real-time update Display data.