CN215494641U - Intelligent house control system based on BIM technology - Google Patents

Abstract

The utility model discloses a BIM technology-based intelligent house control system, which comprises a central control platform, an energy-saving management subsystem, a security management subsystem and a personnel management subsystem, wherein the central control platform comprises a central control device, a BIM database and an intelligent terminal, the BIM database stores a building model and data information corresponding to the building model, the data information comprises information corresponding to at least one household appliance in the energy-saving management subsystem, information corresponding to at least one security appliance in the security management subsystem and information corresponding to at least one wearable device in the personnel management subsystem, the central control platform can integrate the data information of various appliances and devices into the building model and generate a three-dimensional visual operation interface, and the intelligent terminal is used for real-time monitoring and real-time control, so that the platform control of the devices related to the building model is realized, the method has the advantages of visualization and three-dimensional control.

Description

Intelligent house control system based on BIM technology

Technical Field

The utility model belongs to the technical field of information management, and particularly relates to a smart house control system based on a BIM (building information modeling) technology.

Background

With the continuous development of the internet of things technology, smart homes and smart lives are gradually integrated into building design, for example, the control of electric appliances in a building is realized through smart terminals such as smart phones and tablet computers and by combining smart sensors. However, none of these technologies is applied to the BIM (Building Information Modeling) technology, and no advantage is yet highlighted in the aspects of three-dimensional control and visual control.

The BIM technology is a brand-new building design, construction and management method, is based on a three-dimensional technology, can display engineering data in a 3D model, namely management data information is completely contained in the model, and when accurate and complete data is introduced into the model, the model can be accurately analyzed. The BIM has eight characteristics of information completeness, information relevance, information consistency, visualization, coordination, simulation, optimization and graphing, and is widely applied to the field of building design. Therefore, it is necessary to provide a smart house control system based on the BIM technology.

SUMMERY OF THE UTILITY MODEL

The utility model provides an intelligent house control system based on a BIM technology, which can realize the platform control of equipment associated with a building model and has the advantages of visualization and three-dimensional control.

The utility model provides an intelligent house control system based on a BIM technology, which comprises a central control platform, an energy-saving management subsystem, a security management subsystem and a personnel management subsystem, wherein:

the central control platform comprises central control equipment, a BIM database and an intelligent terminal, wherein the central control equipment is respectively in communication connection with the intelligent terminal and the BIM database, and the BIM database stores a building model and data information corresponding to the building model in advance;

the energy-saving management subsystem comprises a first relay and at least one household appliance, the first relay is respectively in communication connection with the central control equipment and the household appliance, and data information in the BIM database comprises information corresponding to the household appliance;

the security management subsystem comprises a second relay and at least one security appliance, the second relay is respectively in communication connection with the central control device and the security appliance, and data information in the BIM database comprises information corresponding to the security appliance;

the personnel management subsystem comprises a positioning device and at least one piece of wearable equipment, the positioning device is respectively in communication connection with the central control equipment and the wearable equipment, and data information in the BIM database comprises information corresponding to the wearable equipment;

the intelligent terminal is used for displaying the three-dimensional visual operation interface and acquiring the control instruction.

As an optional implementation manner, the intelligent house control system based on the BIM technology further includes a temperature sensor, and the temperature sensor is in communication connection with the central control device;

the household appliances comprise one or more of an air conditioner, a fan, a heating fan and a floor heating;

the central control equipment is further specifically used for receiving the temperature information sent by the temperature sensor and the personnel position information sent by the positioning device, and adjusting and controlling one or more of an air conditioner, a fan, a heating fan and a floor heating system.

As an optional implementation manner, the intelligent house control system based on the BIM technology further includes a brightness sensor, and the brightness sensor is in communication connection with the central control device;

the household appliance comprises a lighting fixture;

the central control equipment is also used for receiving the brightness information sent by the brightness sensor and the personnel position information sent by the positioning device and adjusting and controlling the lighting lamp.

As an optional implementation manner, the intelligent house control system based on the BIM technology further comprises a garden soil temperature and humidity sensor, and the garden soil temperature and humidity sensor is in communication connection with the central control device;

the household appliance comprises a garden sprayer;

the central control equipment is also used for receiving soil temperature and humidity information sent by the garden soil temperature and humidity sensor and adjusting and controlling the garden sprayer.

As an optional implementation manner, the intelligent house control system based on the BIM technology further includes a camera or a vehicle identification device, which is in communication connection with the central control device;

the household appliance comprises a barrier gate;

the central control equipment is also used for receiving road passing information sent by the camera or the vehicle identification device and adjusting and controlling the barrier gate.

As an optional implementation manner, the intelligent house control system based on the BIM technology further comprises one or more of a palm vein access control device, an iris recognition device, a facial recognition device and a fingerprint recognition device, wherein the palm vein access control device, the iris recognition device, the facial recognition device and the fingerprint recognition device are in communication connection with the central control equipment;

the central control equipment is also used for receiving the personnel identification information sent by the palm print vein access control device, the iris identification device, the face identification device or the fingerprint identification device in a preset time period, receiving the personnel position information sent by the positioning device and signing in.

As an optional implementation manner, the security and protection electric appliance comprises one or more of an environment monitoring device, a vibration monitoring device, a gas leakage monitor, an electric leakage monitor, a fire extinguisher in-place monitoring device, an intelligent smoke sensing device and a fire alarm;

the central control equipment is also used for receiving safety accident information sent by the environment monitoring equipment, the vibration monitoring equipment, the gas leakage monitor, the electric leakage monitor, the fire extinguisher in-place monitoring equipment, the intelligent smoke sensing equipment or the fire alarm, and carrying out danger alarm.

As an optional implementation mode, the intelligent house control system based on the BIM technology further comprises a water and electricity gas management device, and the electrical management device is in communication connection with the central control equipment;

the water, electricity and gas management device comprises any one or more of an intelligent water meter, a water flow monitor, a water seal intelligent closer, an intelligent electric meter, an intelligent PDU (Power distribution Unit) and an intelligent gas meter;

the central control equipment is also used for receiving water, electricity and gas information sent by the intelligent water meter, the water flow monitor, the water seal intelligent closer, the intelligent electric meter, the intelligent PDU or the intelligent gas meter and carrying out pushing display.

As an alternative embodiment, the central control device includes any one or more of a desktop computer, a notebook computer, and a server.

As an optional implementation manner, the smart terminal includes a smart phone or a tablet computer;

the wearing equipment comprises a smart watch or a smart card.

From the above, the intelligent house control system based on the BIM technology in the utility model comprises a central control platform, an energy-saving management subsystem, a security protection management subsystem and a personnel management subsystem, wherein the central control platform comprises a central control device, a BIM database and an intelligent terminal, the BIM database stores a building model and data information corresponding to the building model, the data information comprises information corresponding to at least one household appliance in the energy-saving management subsystem, information corresponding to at least one security protection appliance in the security protection management subsystem and information corresponding to at least one wearable device in the personnel management subsystem, the central control platform can integrate the data information of various appliances and devices into the building model and generate a three-dimensional visual operation interface, and the intelligent terminal is used for real-time monitoring and real-time control, so that the platform control of the devices related to the building model is realized, the method has the advantages of visualization and three-dimensional control.

The advantageous effects of the additional features of the present invention will be explained in the detailed description section of the present specification.

Drawings

In order to illustrate the embodiments of the utility model more clearly, the drawings that are needed for describing the embodiments or prior art will be briefly described below, it being apparent that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained by those skilled in the art without inventive effort.

Fig. 1 is a schematic structural diagram of a smart house control system based on BIM technology according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an energy-saving management subsystem and a personnel management subsystem provided in an embodiment of the present invention;

fig. 3 is a schematic structural diagram of another energy-saving management subsystem and a personnel management subsystem provided in the embodiment of the present invention;

fig. 4 is a schematic structural diagram of another energy-saving management subsystem and a personnel management subsystem provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a smart-house control system according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a security management subsystem according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The communication connection mentioned in the embodiment of the present invention includes wired connection and wireless connection, and any connection method may be used as long as data and information communication between two node devices can be achieved.

Referring to fig. 1, fig. 1 is a schematic structural diagram of an intelligent house control system based on a BIM technology according to an embodiment of the present invention, and as shown in the drawing, the intelligent house control system in the embodiment includes a central control platform, an energy saving management subsystem, a security management subsystem, and a personnel management subsystem, where:

the central control platform comprises central control equipment, a BIM database and an intelligent terminal, wherein the central control equipment is respectively connected with the intelligent terminal and the BIM database in a communication manner, and the BIM database is stored with a building model and data information corresponding to the building model in advance.

Optionally, the central control apparatus comprises any one or more of a desktop computer, a laptop computer and a server. The intelligent terminal comprises a smart phone or a tablet computer.

For example: the administrator carries out building model modeling on a desktop computer, and carries out one-to-one matching association on a virtual building model and various electric appliances and equipment of real objects, and the desktop computer can write and read data into and from a BIM database at the same time, namely data information of the real objects can be written in real time to be associated with the building model, and meanwhile, new real objects and data information corresponding to matching can be added.

The energy-saving management subsystem comprises a first relay and at least one household appliance, the first relay is respectively in communication connection with the central control equipment and the household appliance, and data information in the BIM database comprises information corresponding to the household appliance.

In specific implementation, the first relay can upload real-time data information of the household appliance to the central control device, and can also receive a control instruction issued by the central control device to perform on-off control on the household appliance.

The security management subsystem comprises a second relay and at least one security appliance, the second relay is respectively in communication connection with the central control device and the security appliance, and data information in the BIM database comprises information corresponding to the security appliance;

in specific implementation, the second relay can upload real-time data information of the security electric appliance to the central control device, and can also receive a control instruction issued by the central control device to perform on-off control on the security electric appliance.

The personnel management subsystem comprises a positioning device and at least one piece of wearable equipment, the positioning device is respectively connected with the central control equipment and the wearable equipment in a communication mode, and data information in the BIM database comprises information corresponding to the wearable equipment.

Optionally, the wearable device comprises a smart watch or a smart card.

In concrete realization, positioner can carry out real-time location to wearing equipment belonged to personnel, and the discernment sign that different personnel correspond is different, can regard as the discernment sign of intelligence worker tablet if the worker number, and positioner uploads real-time personnel positional information to central control equipment to acquire personnel's real-time position.

The intelligent terminal is used for displaying the three-dimensional visual operation interface and acquiring the control instruction.

In the specific implementation, a virtual building model is displayed on a three-dimensional visual operation interface generated by the central control equipment, and real-time data information and real-time personnel position information of each real object are recorded in the building model. The user can carry out real-time monitoring and real-time control on the central control equipment or the intelligent terminal.

It should be noted that, the above-mentioned relay action, the electrical apparatus in the building model can follow the action, for example show as the bright and off of lamp in the model, the start-stop display of air conditioner in the model etc. simultaneously can add different logic starting modes to the electrical apparatus of different grade type according to the demand, like power regulation etc..

From the above, the intelligent house control system based on the BIM technology in the utility model comprises a central control platform, an energy-saving management subsystem, a security protection management subsystem and a personnel management subsystem, wherein the central control platform comprises a central control device, a BIM database and an intelligent terminal, the BIM database stores a building model and data information corresponding to the building model, the data information comprises information corresponding to at least one household appliance in the energy-saving management subsystem, information corresponding to at least one security protection appliance in the security protection management subsystem and information corresponding to at least one wearable device in the personnel management subsystem, the central control platform can integrate the data information of various appliances and devices into the building model and generate a three-dimensional visual operation interface, and the intelligent terminal is used for real-time monitoring and real-time control, so that the platform control of the devices related to the building model is realized, the method has the advantages of visualization and three-dimensional control.

Referring to fig. 2, fig. 2 is a schematic structural diagram of an energy-saving management subsystem and a personnel management subsystem according to an embodiment of the present invention, and as shown in the figure, the intelligent house control system based on the BIM technology in the embodiment further includes a temperature sensor, and the temperature sensor is in communication connection with the central control device.

The household appliances comprise one or more of an air conditioner, a fan, a heating fan and a floor heating system.

The central control equipment is further specifically used for receiving the temperature information sent by the temperature sensor and the personnel position information sent by the positioning device, and adjusting and controlling one or more of an air conditioner, a fan, a heating fan and a floor heating system.

For example: when detecting that a person walks into a space where the air conditioner is located and simultaneously detects that the current temperature is higher than a preset temperature threshold, the central control equipment starts the air conditioner; then, adjusting the power of the air conditioner according to the current real-time temperature; and after detecting that the person leaves the space where the air conditioner is used for cooling, closing the air conditioner. Of course, the user can also adjust on the intelligent terminal or adjust through a manual switch.

Therefore, the embodiment of the utility model is not only an energy-saving control mode, but also an intelligent home and a direction of smart life.

Referring to fig. 3, fig. 3 is a schematic structural diagram of another energy-saving management subsystem and a personnel management subsystem according to an embodiment of the present invention, and as shown in the drawing, the intelligent house control system based on the BIM technology in the embodiment further includes a brightness sensor, and the brightness sensor is in communication connection with a central control device;

the household appliance comprises a lighting fixture;

the central control equipment is also used for receiving the brightness information sent by the brightness sensor and the personnel position information sent by the positioning device and adjusting and controlling the lighting lamp.

For example: when detecting that a person walks into the operation radius of the lighting lamp and simultaneously detects that the current brightness is lower than a preset brightness threshold, the central control equipment starts the lighting lamp; then, adjusting the power of the lighting lamp according to the current real-time brightness; and after detecting that the person leaves the working radius of the lighting lamp, turning off the lighting lamp. Of course, the user can also adjust on the intelligent terminal or adjust through a manual switch.

Therefore, the embodiment of the utility model is not only an energy-saving control mode, but also an intelligent home and a direction of smart life.

Referring to fig. 4, fig. 4 is a schematic structural diagram of another energy-saving management subsystem and a personnel management subsystem according to an embodiment of the present invention, and as shown in the figure, the intelligent house control system based on the BIM technology in the embodiment further includes a garden soil temperature and humidity sensor, and the garden soil temperature and humidity sensor is in communication connection with a central control device;

the household appliance comprises a garden sprayer;

the central control equipment is also used for receiving soil temperature and humidity information sent by the garden soil temperature and humidity sensor and adjusting and controlling the garden sprayer.

For example: when detecting that the current garden soil temperature is higher than a preset temperature threshold or lower than a preset humidity threshold, the central control equipment starts a garden sprayer; and then adjusting the water yield of the garden sprayer according to the current real-time temperature and humidity.

Optionally, the central control device may also control the garden sprayer in a timed manner. For example: and starting the garden sprayer at a preset time period in the morning and at a preset time period in the evening.

Of course, the user can also adjust on the intelligent terminal or adjust through a manual switch.

Therefore, the embodiment of the utility model is not only an energy-saving control mode, but also an intelligent home and a direction of smart life.

Referring to fig. 5, fig. 5 is a schematic structural diagram of an intelligent house control system according to an embodiment of the present invention, where the intelligent house control system based on the BIM technology in the embodiment further includes a camera or a vehicle identification device that establishes a communication connection with the central control device;

the household appliance comprises a barrier gate;

the central control equipment is also used for receiving road passing information sent by the camera or the vehicle identification device and adjusting and controlling the barrier gate.

In the concrete implementation, when the vehicle or the person reaches the barrier gate, the vehicle or the person is identified, and when the central control device identifies the vehicle or the person with the authority, the barrier gate is opened. Of course, the user can also adjust on the intelligent terminal or adjust through a manual switch.

Optionally, as shown in the figure, the intelligent house control system based on the BIM technology in this embodiment further includes one or more of a palm vein access control device, an iris recognition device, a face recognition device, and a fingerprint recognition device, which are in communication connection with the central control device;

the central control equipment is also used for receiving the personnel identification information sent by the palm print vein access control device, the iris identification device, the face identification device or the fingerprint identification device in a preset time period, receiving the personnel position information sent by the positioning device and signing in.

Therefore, the embodiment of the utility model can manage personnel, not only can manually check in, but also can check in through a specific time period and personnel positioning function.

Optionally, as shown in the figure, the intelligent house control system based on the BIM technology in the embodiment further includes a water and electricity management device, and the electrical management device establishes a communication connection with the central control device;

the water, electricity and gas management device comprises one or more of an intelligent water meter, a water flow monitor, a water seal intelligent closer, an intelligent electric meter, an intelligent PDU (Power distribution Unit) and an intelligent gas meter;

the central control equipment is also used for receiving water, electricity and gas information sent by the intelligent water meter, the water flow monitor, the water seal intelligent closer, the intelligent electric meter, the intelligent PDU or the intelligent gas meter and carrying out pushing display.

In the concrete implementation, the central control equipment adds water, electricity and gas data in the building model, displays the data in a three-dimensional visual mode and facilitates real-time monitoring of a user.

Referring to fig. 6, fig. 6 is a schematic structural diagram of a security management subsystem according to an embodiment of the present invention, and as shown in the drawing, the security electrical appliance in the embodiment includes one or more of an environment monitoring device, a vibration monitoring device, a gas leakage monitor, an electric leakage monitor, an in-place fire extinguisher monitoring device, an intelligent smoke sensing device, and a fire alarm;

the central control equipment is also used for receiving safety accident information sent by the environment monitoring equipment, the vibration monitoring equipment, the gas leakage monitor, the electric leakage monitor, the fire extinguisher in-place monitoring equipment, the intelligent smoke sensing equipment or the fire alarm, and carrying out danger alarm.

In the concrete implementation, when the central control equipment receives safety accident information sent by the security electrical appliance, the central control equipment controls the alarm to sound an alarm, and simultaneously sends out a danger alarm in the building model, and the danger alarm is displayed in a three-dimensional visual mode, so that a user can know the specific position and reason of the safety accident as soon as possible.

Therefore, the embodiment of the utility model is not only a security control mode, but also an intelligent home and intelligent life direction.

While the utility model has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the utility model is not to be limited to the disclosed embodiment, but on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention.

Claims (10)

1. The utility model provides an intelligent house control system based on BIM technique which characterized in that, includes central control platform, energy-conserving management subsystem, security protection management subsystem and personnel management subsystem, wherein:

the central control platform comprises central control equipment, a BIM database and an intelligent terminal, wherein the central control equipment is respectively in communication connection with the intelligent terminal and the BIM database, and the BIM database stores a building model and data information corresponding to the building model in advance;

the energy-saving management subsystem comprises a first relay and at least one household appliance, the first relay is respectively in communication connection with the central control equipment and the household appliance, and data information in the BIM database comprises information corresponding to the household appliance;

the security management subsystem comprises a second relay and at least one security appliance, the second relay is respectively in communication connection with the central control device and the security appliance, and data information in the BIM database comprises information corresponding to the security appliance;

the personnel management subsystem comprises a positioning device and at least one piece of wearable equipment, the positioning device is respectively in communication connection with the central control equipment and the wearable equipment, and data information in the BIM database comprises information corresponding to the wearable equipment;

the intelligent terminal is used for displaying the three-dimensional visual operation interface and acquiring the control instruction.

2. The BIM technology based intelligent house control system as claimed in claim 1, further comprising a temperature sensor, wherein the temperature sensor is connected with the central control device in a communication way;

the household appliances comprise one or more of an air conditioner, a fan, a heating fan and a floor heating;

the central control equipment is further specifically used for receiving the temperature information sent by the temperature sensor and the personnel position information sent by the positioning device, and adjusting and controlling one or more of an air conditioner, a fan, a heating fan and a floor heating system.

3. The BIM technology based smart house control system of claim 1, further comprising a brightness sensor, wherein the brightness sensor is connected to the central control device;

the household appliance comprises a lighting fixture;

the central control equipment is also used for receiving the brightness information sent by the brightness sensor and the personnel position information sent by the positioning device and adjusting and controlling the lighting lamp.

4. The intelligent house control system based on the BIM technology of claim 1, further comprising a garden soil temperature and humidity sensor, wherein the garden soil temperature and humidity sensor is in communication connection with a central control device;

the household appliance comprises a garden sprayer;

the central control equipment is also used for receiving soil temperature and humidity information sent by the garden soil temperature and humidity sensor and adjusting and controlling the garden sprayer.

5. The BIM technology based intelligent house control system of claim 1, further comprising a camera or a vehicle recognition device establishing a communication connection with the central control apparatus;

the household appliance comprises a barrier gate;

the central control equipment is also used for receiving road passing information sent by the camera or the vehicle identification device and adjusting and controlling the barrier gate.

6. The BIM technology based smart house control system of claim 1, further comprising one or more of a palm vein access control, an iris recognition device, a face recognition device and a fingerprint recognition device which establish communication connection with the central control device;

the central control equipment is also used for receiving the personnel identification information sent by the palm print vein access control device, the iris identification device, the face identification device or the fingerprint identification device in a preset time period, receiving the personnel position information sent by the positioning device and signing in.

7. The BIM technology based smart home control system of claim 1, wherein the security appliances comprise one or more of an environmental monitoring device, a shock monitoring device, a gas leakage monitor, an electric leakage monitor, a fire extinguisher in-place monitoring device, an intelligent smoke sensing device, a fire alarm;

the central control equipment is also used for receiving safety accident information sent by the environment monitoring equipment, the vibration monitoring equipment, the gas leakage monitor, the electric leakage monitor, the fire extinguisher in-place monitoring equipment, the intelligent smoke sensing equipment or the fire alarm, and carrying out danger alarm.

8. The BIM technology based intelligent house control system as claimed in claim 1, further comprising a water and electricity gas management device, wherein the electrical management device is in communication connection with the central control equipment;

the water, electricity and gas management device comprises one or more of an intelligent water meter, a water flow monitor, a water seal intelligent closer, an intelligent electric meter, an intelligent PDU (Power distribution Unit) and an intelligent gas meter;

the central control equipment is also used for receiving water, electricity and gas information sent by the intelligent water meter, the water flow monitor, the water seal intelligent closer, the intelligent electric meter, the intelligent PDU or the intelligent gas meter and carrying out pushing display.

9. The BIM technology-based intelligent house control system according to any one of claims 1 to 8, wherein the central control device comprises any one or more of a desktop computer, a notebook computer and a server.

10. The BIM technology based intelligent house control system according to any one of claims 1 to 8, wherein the intelligent terminal comprises a smart phone or a tablet computer;

the wearing equipment comprises a smart watch or a smart card.

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