CN217935193U - Intelligent building integrated control box - Google Patents

Abstract

The utility model relates to an intelligent building integrated control case, adopt brand-new structural design, a preset architectural equipment system carries out centralized control to building, including power supply loop system, and control circuit system, through the nimble setting to each function purpose equipment of design, cancel current distributed control and the power supply to architectural equipment system, each data acquisition point to distributed setting in the architectural equipment system, each equipment control point adopts centralized control, hardware setting and maintenance have been optimized, realize in concrete design that 220V external AC power supply is to each controller in the master control module through power supply loop system, and each 220V controlled device in the architectural equipment system, in the power supply of each 24V load, the control of each 220V controlled device in the integrated control loop system to the architectural equipment system, realize linkage and data sharing between two systems, can effectively improve the work efficiency to architectural equipment system control and maintenance in the practical application.

Description

Intelligent building integrated control box

Technical Field

The utility model relates to an intelligent building integrated control case belongs to building distributing type centralized control technical field.

Background

In recent years, with more and more devices in buildings, the requirements for realizing the functions of the devices are more and more complex, the control requirements are higher and higher, the energy consumption is increased, and great pressure is brought to management personnel in the aspects of safety, energy consumption, service, operation management and the like. Meanwhile, with the continuous development of building industrialization and informatization technology, the intelligent building energy data informatization gradually becomes the mainstream trend of improving the building energy utilization rate. Therefore, the integration of monitoring and control is utilized, and the integrated control management of the equipment in the buildings is the necessity of modern building management through a hardware product and a software system, and is an important step for promoting China to realize the double-carbon target early.

At present, the intelligent building control box that has now in the market, internal circuit is comparatively complicated, and with system/equipment block terminal mutual independent setting, distributed setting between the different equipment of same system is difficult for unifying to carry out centralized management maintenance, and can't carry out centralized control to the preset building equipment system in the building.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that an intelligence building integrated control case is provided, adopt brand-new structural design, can realize high-efficient centralized management to the architectural equipment system that the distributing type set up.

The utility model discloses a solve above-mentioned technical problem and adopt following technical scheme: the utility model designs an intelligent building integrated control box, which is used for carrying out centralized control on a preset building equipment system in a building, and comprises a power supply loop system and a control loop system;

the control loop system comprises at least one controller and intermediate relays which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the controllers are communicated and connected through a bus to form a master control module, and input ends and output ends of the controllers form input ends and output ends of the master control module, wherein the number of the input ends of the master control module meets the requirements of each sensing detection device and each system execution device in the building equipment system, and the number of the DO output ends of the master control module meets the requirements of each 220V controlled device in the building equipment system; each sensing detection device and each system execution device in the building device system are respectively connected with each input end on the master control module in a one-to-one correspondence manner, and the master control module is used for receiving data from each sensing detection device and each system execution device; each 220V controlled device in the building equipment system is respectively connected with each DO output end on the master control module through corresponding intermediate relays in a one-to-one correspondence manner, and the master control module respectively carries out start-stop control on the correspondingly connected 220V controlled devices through each intermediate relay;

the power supply loop system comprises a 24V power supply electronic loop and 220V power supply electronic loops which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the structure of each 220V power supply electronic loop is the same, each 220V power supply electronic loop comprises a breaker and a contactor, a 220V external alternating current power supply is connected with the input end of the breaker in each 220V power supply electronic loop, and the output end of each breaker is connected with corresponding 220V controlled equipment in a building equipment system for power supply through the contactor in the same 220V power supply electronic loop; the contactors in each 220V power supply electronic loop are respectively connected with the intermediate relays connected with the corresponding 220V controlled devices in series, and the master control module respectively carries out indirect control on the 220V controlled devices connected with the corresponding contactors through the intermediate relays;

the 24V power supply electronic circuit comprises a fuse and a voltage transformation module, the voltage transformation module is used for realizing the conversion of 220V voltage to 24V voltage, a 220V external alternating current power supply is connected to the input end of the voltage transformation module through the fuse, the output end of the voltage transformation module is connected with each controller in the master control module and each 24V load in the building equipment system, and the 220V external alternating current power supply sequentially supplies power to each controller in the master control module and each 24V load in the building equipment system through the fuse and the voltage transformation module.

As an optimal technical solution of the utility model: if 220V frequency conversion controlled equipment exists in the 220V controlled equipment in the building equipment system, the control loop system also comprises frequency converters which are respectively in one-to-one correspondence with the 220V frequency conversion controlled equipment in the building equipment system; the number of AO output ends on the master control module meets each 220V frequency conversion controlled device in the building equipment system; each 220V frequency conversion controlled device is respectively connected with each AO output end on the master control module through a corresponding frequency converter in a one-to-one correspondence manner, and the master control module respectively carries out frequency conversion control on the correspondingly connected 220V frequency conversion controlled device through each frequency converter.

As an optimal technical solution of the utility model: each 220V power supply electronic loop further comprises a thermal relay, a 220V external alternating current power supply is connected with the input end of a circuit breaker in each 220V power supply electronic loop, the output end of each circuit breaker is connected with the input end of the corresponding thermal relay through a contactor in the same 220V power supply electronic loop, and the output end of each thermal relay is connected with the corresponding 220V controlled equipment in the building equipment system for power supply.

As an optimal technical solution of the utility model: the voltage transformation module comprises a transformer and a switching power supply, the transformer is used for achieving conversion of 220V alternating voltage to 24V alternating voltage, the switching power supply is used for achieving conversion of the 220V alternating voltage to 24V direct voltage, the 24V power supply electronic loop comprises two fuses which correspond to the transformer and the switching power supply one to one, the 220V external alternating current power supply is connected to the input end of the corresponding transformer and the input end of the switching power supply through the fuses respectively, the output end of the transformer is connected with 24V alternating current loads in the building equipment system to supply power respectively, and the output end of the switching power supply is connected with controllers in the master control module and the 24V direct current loads in the building equipment system to supply power respectively.

As a preferred technical solution of the utility model: the control loop system also comprises a network communication module connected with the master control module, and the master control module realizes the outgoing and receiving of data through the network communication module.

As a preferred technical solution of the utility model: each breaker is an intelligent air switch, each intelligent air switch is connected with the network communication module, and each intelligent air switch realizes the outgoing of data through the network communication module.

As an optimal technical solution of the utility model: the intelligent control system is characterized by further comprising an information output device connected with the master control module, wherein the information output device comprises any one or two combinations of a display device and an indicator lamp, all the devices are respectively connected with the master control module, and the master control module sends data to the information output device.

As an optimal technical solution of the utility model: the power supply loop system and the control loop system are arranged in the box body.

As an optimal technical solution of the utility model: the temperature measurement and heat dissipation system is characterized by further comprising a temperature measurement and heat dissipation system arranged in the box body, the temperature measurement and heat dissipation system comprises a temperature control switch and a heat dissipation fan which are connected with each other, the temperature control switch is arranged in the box body, a ventilation opening penetrating through the inner space and the outer space of the box body is formed in the surface of the box body, the heat dissipation fan is arranged at the ventilation opening position of the surface of the box body, the temperature in the box body is detected through the temperature control switch, the work of the heat dissipation fan is controlled, and the heat dissipation operation of the heat in the box body is achieved.

As an optimal technical solution of the utility model: and all the controllers are DDC controllers.

An intelligent building integrated control case, technical scheme compares with prior art more than adopting has following technological effect:

(1) The utility model relates to an intelligent building integrated control case, adopt brand-new structural design, a carry out centralized control to the preset architectural equipment system in the building, including power supply loop system, and control loop system, through the nimble setting to each function purpose equipment of design, cancel current distributed control and the power supply to architectural equipment system, each data acquisition point to distributed setting in the architectural equipment system, each equipment control point adopts centralized control, hardware setting and maintenance have been optimized, when concrete design realizes that 220V external AC power supply is through power supply loop system to each controller in the master control module, and each 220V controlled device in the architectural equipment system, each 24V load power supply, the control loop system of integration is to each 220V controlled device in the architectural equipment system, realize linkage and data sharing between two systems, can effectively improve the work efficiency to architectural equipment system control and maintenance in the practical application;

(2) The utility model relates to an intelligent building integrated control case, on the basis of basic scheme, still to the 220V frequency conversion controlled equipment in the architectural equipment system, when realizing specifically opening and stopping control to the 220V frequency conversion controlled equipment through each auxiliary relay, introduce the converter with each 220V frequency conversion controlled equipment one-to-one, carry out frequency conversion control by total control module, improve the suitability of design scheme to various architectural equipment systems, also further improve actual implementation efficiency; aiming at each 220V power supply electronic circuit, a thermal relay is designed and introduced on the basis of a circuit breaker and an interrupter, so that the power supply safety is further improved;

(3) The utility model relates to an intelligent building integrated control case when realizing centralized control to architectural equipment system, further introduce network communication function, can realize receiving and dispatching with outside data, and further to each circuit breaker, intelligent air switch is adopted in the design, can realize real-time supervision to each way power supply, and go out of data, can realize high-efficient data sharing and remote control to the intelligent building integrated control case that designs in practical application, improve building architectural equipment system's control efficiency.

Drawings

FIG. 1 is a schematic block diagram of an intelligent building integrated control box according to the present invention;

fig. 2 is the utility model relates to an intelligent building integrated control case's schematic diagram in kind.

Detailed Description

The following description will be provided to further explain embodiments of the present invention in detail with reference to the accompanying drawings.

The utility model discloses an intelligent building integrated control case for predetermine the architectural equipment system to in the building and carry out centralized control, among the practical application, as shown in FIG. 1, concrete design includes power supply loop system and control circuit system.

The control loop system comprises at least one controller and intermediate relays which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the controllers are communicated and connected through a bus to form a master control module, and input ends and output ends of the controllers form input ends and output ends of the master control module, wherein the number of the input ends of the master control module meets the requirements of each sensing detection device and each system execution device in the building equipment system, and the number of the DO output ends of the master control module meets the requirements of each 220V controlled device in the building equipment system; each sensing detection device and each system execution device in the building device system are respectively connected with each input end on the master control module in a one-to-one correspondence manner, and the master control module is used for receiving data from each sensing detection device and each system execution device; each 220V controlled device in the building device system is respectively connected with each DO output end on the master control module through corresponding intermediate relays in a one-to-one correspondence manner, and the master control module respectively controls the start and stop of the correspondingly connected 220V controlled device through each intermediate relay.

In application, the building equipment system is a water supply and drainage system, a heating and ventilation system, an electrical system and the like in a building, such as a water supply and drainage system, and a master control module controls 220V controlled equipment, such as a valve, on a corresponding pipeline in the water supply and drainage system to work according to whether a pipeline water pressure result at a corresponding position in the water supply and drainage system exceeds a preset pressure threshold value; regarding the heating and ventilation system, the master control module controls the corresponding temperature control equipment in the heating and ventilation system to work according to whether the detection result of the temperature sensor at the corresponding position in the heating and ventilation system exceeds a preset temperature threshold value.

The power supply loop system comprises a 24V power supply electronic loop and 220V power supply electronic loops which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the structure of each 220V power supply electronic loop is the same, each 220V power supply electronic loop comprises a breaker and a contactor, a 220V external alternating current power supply is connected with the input end of the breaker in each 220V power supply electronic loop, and the output end of each breaker is connected with corresponding 220V controlled equipment in a building equipment system for power supply through the contactor in the same 220V power supply electronic loop; and the contactors in each 220V power supply electronic loop are respectively connected with the intermediate relays connected with the corresponding 220V controlled devices in series, and the master control module respectively carries out indirect control on the 220V controlled devices connected with the corresponding contactors through the intermediate relays.

The 24V power supply electronic circuit comprises a fuse and a transformation module, the transformation module is used for realizing the conversion of 220V voltage to 24V voltage, a 220V external alternating current power supply is connected to the input end of the transformation module through the fuse, and the output end of the transformation module is connected with each controller in the master control module and each 24V load in the building equipment system for supplying power respectively.

In the practical application, regarding the application of 24V power supply, the direct current power supply and the alternating current power supply are also considered, the voltage transformation module is specifically designed to comprise a transformer for realizing the conversion of 220V alternating current voltage to 24V alternating current voltage and a switch power supply for realizing the conversion of 220V alternating current voltage to 24V direct current voltage, the 24V power supply electronic loop comprises two fuses which are respectively in one-to-one correspondence with the transformer and the switch power supply, the 220V external alternating current power supply is respectively connected to the input end of the corresponding transformer and the input end of the switch power supply through each fuse, the output end of the transformer is connected with each 24V alternating current load in the building equipment system for respectively supplying power, and the output end of the switch power supply is connected with each controller in the master control module and each 24V direct current load in the building equipment system for respectively supplying power.

In practical application, as for communication connection of a power supply loop system, a control loop system and a building equipment system, wiring terminals can be introduced for application, namely, each line of the building equipment system, which is accessed to a corresponding system in an intelligent building integrated control box, and each line of the building equipment system, which is externally connected to each system in the intelligent building integrated control box, are all designed to be connected through wiring terminal devices, the number of interfaces on the wiring terminals can also be designed to be suitable for the number of the accessed lines and the number of the connected lines, so that flexible adjustment of the interfaces is realized, and the marks of corresponding information can be carried out on each line in the form of label pasting at the position where each line is connected with the wiring terminals, so that later maintenance of the lines is facilitated.

Based on the basic scheme embodiment of the intelligent building integrated control box, the control loop system further comprises frequency converters corresponding to 220V frequency-conversion controlled equipment in the building equipment system one by one if the 220V frequency-conversion controlled equipment exists in the 220V controlled equipment in the building equipment system; the number of AO output ends on the master control module meets the requirement of each 220V frequency conversion controlled device in the building equipment system; each 220V frequency conversion controlled device is respectively connected with each AO output end on the master control module through a corresponding frequency converter in a one-to-one correspondence manner, and the master control module respectively carries out frequency conversion control on the correspondingly connected 220V frequency conversion controlled device through each frequency converter; the design is that the master control module respectively controls the start and stop of the 220V controlled equipment correspondingly connected through each intermediate relay by each DO output end, and the master control module respectively controls the frequency conversion of the 220V frequency conversion controlled equipment correspondingly connected through each frequency converter by each AO output end, so that the applicability of the design scheme to various building equipment systems is improved, and the actual implementation efficiency is further improved.

In the design, each 220V power supply electronic loop is respectively provided with a thermal relay, a 220V external alternating current power supply is connected with the input end of a breaker in each 220V power supply electronic loop, the output end of each breaker is connected with the input end of the corresponding thermal relay through a contactor in the same 220V power supply electronic loop, and the output end of each thermal relay is respectively connected with the corresponding 220V controlled equipment in a building equipment system for supplying power; namely, in practical application, on the basis of a circuit breaker and an interrupter, a thermal relay is designed and introduced, and the power supply safety is further improved.

The intelligent building integrated control box designed by the utility model is applied to the practice, the control loop system is further designed to further comprise a network communication module connected with the master control module, and the master control module realizes the data sending and receiving through the network communication module; each breaker is designed to be an intelligent air switch, each intelligent air switch is connected with the network communication module, and each intelligent air switch realizes data transmission through the network communication module; by the design, efficient data sharing and remote control can be realized for the designed intelligent building integrated control box in practical application, and the control efficiency of a building equipment system is improved; furthermore, the utility model discloses still design add with the information output device that total control module is connected, information output device include arbitrary one or two kinds of combinations in display device and the pilot lamp, and each equipment links to each other with total control module respectively, carries out data transmission to information output device by total control module. In actual product design, a power supply loop system and a control loop system are arranged in a box body, a temperature measurement and heat dissipation system arranged in the box body is designed and added in consideration of heat generated by working of equipment in the box body, the temperature measurement and heat dissipation system comprises a temperature control switch and a heat dissipation fan which are mutually connected, the temperature control switch is arranged in the box body, a ventilation opening penetrating through the inner space and the outer space of the box body is arranged on the surface of the box body, the heat dissipation fan is arranged at the ventilation opening position on the surface of the box body, the temperature in the box body is detected by the temperature control switch, the working of the heat dissipation fan is controlled, and the heat dissipation operation of the heat in the box body is realized.

In a further specific product implementation, an intelligent building integrated control box shown in fig. 2 is constructed, each controller is designed to be applied by adopting a DDC controller, FBC-8448 of Taijisai is adopted, a fuse is designed to be RT28 (N) -32X/1P of a positive Taiji appliance, a transformer is designed to be NDK-100VA 220/24 of the positive Taiji appliance, a contactor is designed to be LC1D09 of Schneider electricity, a thermal relay is designed to be LRD08C of Schneider electricity, a frequency converter is designed to be ACS510-01-12A4-4+ ACS-CP-D high-grade Chinese control panel of ABB, an intermediate relay is designed to be open-Schneider electricity of M4AB2B7+ RXZE1M4C, a switch power supply is designed to be open-75-24, a circuit breaker is designed to be open-warp of SiC 65N-C2A/1P, a heat dissipation fan is designed to be open-Tyr electricity of the positive Taiji appliance, a heat dissipation fan is designed to be open-Tyr electricity of NTF 2-25/AC 220S, a ventilation window is designed to be made of box body, a water washing filter material is made of nylon, a ventilation window, a nylon fabric is adopted, and an anti-static air ventilation opening is adopted to be used for washing and an ABS; the temperature sensor is designed by NTK1-111 of a Zhengtai electrical appliance; each intelligent air switch is designed by adopting Manton S3-TD32 and Manton S3-ZNC32; the network communication module is designed to adopt TL-SG1005 of TP _ LINK; the display equipment is designed into a CTHMI100M touch screen of Taijie; the terminal is designed by adopting Schneider electric JCUK-5JD.

The utility model discloses an intelligent building integrated control case is in the middle of practical application, adopt brand-new structural design, a preset architectural equipment system for in to building carries out centralized control, including power supply loop system, and control loop system, through the nimble setting to each function purpose equipment of design, cancel current distributed control and the power supply to architectural equipment system, each data acquisition point to distributed setting in the architectural equipment system, each equipment control point adopts centralized control, hardware setting and maintenance have been optimized, realize in concrete design that 220V external alternating current power supply is to each controller in the master control module through power supply loop system, and each 220V controlled device in the architectural equipment system, in the power supply of each 24V load, integrated control loop system is to each 220V controlled device's in the architectural equipment system control, realize linkage and data sharing between the two systems, can effectively improve the work efficiency to architectural equipment system control and maintenance in the practical application.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides an intelligent building integrated control case for preset building equipment system carries out centralized control to in the building, its characterized in that: comprises a power supply loop system and a control loop system;

the control loop system comprises at least one controller and intermediate relays which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the controllers are communicated and connected through a bus to form a master control module, and each input end and each output end on each controller form each input end and each output end on the master control module, wherein the number of the input ends on the master control module meets each sensing detection device and each system execution device in the building equipment system, and the number of the DO output ends on the master control module meets each 220V controlled device in the building equipment system; each sensing detection device and each system execution device in the building device system are respectively connected with each input end on the master control module in a one-to-one correspondence manner; each 220V controlled device in the building device system is respectively connected with each DO output end on the master control module in a one-to-one correspondence manner through a corresponding intermediate relay;

the power supply loop system comprises a 24V power supply electronic loop and 220V power supply electronic loops which are respectively in one-to-one correspondence with 220V controlled equipment in the building equipment system; the structure of each 220V power supply electronic loop is the same, each 220V power supply electronic loop comprises a breaker and a contactor, a 220V external alternating current power supply is connected with the input end of the breaker in each 220V power supply electronic loop, and the output end of each breaker is connected with corresponding 220V controlled equipment in a building equipment system for power supply through the contactor in the same 220V power supply electronic loop; the contactors in each 220V power supply electronic loop are respectively connected in series with the intermediate relays connected with the corresponding 220V controlled devices;

the 24V power supply electronic circuit comprises a fuse and a voltage transformation module, the voltage transformation module is used for realizing the conversion of 220V voltage to 24V voltage, a 220V external alternating current power supply is connected to the input end of the voltage transformation module through the fuse, the output end of the voltage transformation module is connected with each controller in the master control module and each 24V load in the building equipment system, and the 220V external alternating current power supply sequentially supplies power to each controller in the master control module and each 24V load in the building equipment system through the fuse and the voltage transformation module.

2. The intelligent building integrated control box of claim 1, wherein: based on the fact that 220V frequency conversion controlled equipment is included in 220V controlled equipment in the building equipment system, the control loop system further comprises frequency converters which are respectively in one-to-one correspondence with the 220V frequency conversion controlled equipment in the building equipment system; the number of AO output ends on the master control module meets the requirement of each 220V frequency conversion controlled device in the building equipment system; and each 220V frequency conversion controlled device is respectively connected with each AO output end on the master control module in a one-to-one correspondence manner through a corresponding frequency converter.

3. The intelligent building integrated control box of claim 1, wherein: each 220V power supply electronic loop further comprises a thermal relay, a 220V external alternating current power supply is connected with the input end of a circuit breaker in each 220V power supply electronic loop, the output end of each circuit breaker is connected with the input end of the corresponding thermal relay through a contactor in the same 220V power supply electronic loop, and the output end of each thermal relay is connected with the corresponding 220V controlled equipment in the building equipment system for power supply.

4. The intelligent building integrated control box of claim 1, wherein: the voltage transformation module comprises a transformer and a switch power supply, the transformer is used for achieving conversion of 220V alternating voltage to 24V alternating voltage, the switch power supply is used for achieving conversion of 220V alternating voltage to 24V direct voltage, the 24V power supply electronic loop comprises two fuses which are in one-to-one correspondence with the transformer and the switch power supply respectively, the 220V external alternating current power supply is connected to the input end of the corresponding transformer and the input end of the switch power supply through the fuses respectively, the output end of the transformer is connected with each 24V alternating current load in the building equipment system to supply power respectively, and the output end of the switch power supply is connected with each controller in the master control module and each 24V direct current load in the building equipment system to supply power respectively.

5. The intelligent building integrated control box of claim 1, wherein: the control loop system also comprises a network communication module connected with the master control module.

6. The integrated control box for intelligent buildings according to claim 5, wherein: each breaker is an intelligent air switch, and each intelligent air switch is connected with the network communication module.

7. The intelligent building integrated control box of claim 1, wherein: the intelligent control system is characterized by further comprising an information output device connected with the master control module, wherein the information output device comprises any one or two combinations of a display device and an indicator lamp, and all the devices are connected with the master control module respectively.

8. The intelligent building integrated control box of any one of claims 1 to 7, wherein: the power supply loop system and the control loop system are arranged in the box body.

9. The intelligent building integrated control box of claim 8, wherein: the temperature measurement and heat dissipation system is arranged in the box body and comprises a temperature control switch and a heat dissipation fan which are mutually connected, the temperature control switch is arranged in the box body, the surface of the box body is provided with a ventilation opening penetrating through the inner space and the outer space of the box body, and the heat dissipation fan is arranged at the position of the ventilation opening on the surface of the box body.

10. The intelligent building integrated control box of any one of claims 1 to 7, wherein: and all the controllers are DDC controllers.

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