CN110278280A - Building site data integrated system and integration method based on Internet of Things - Google Patents

Abstract

Present invention discloses a kind of building site data integrated system and corresponding building site data integration method based on Internet of Things, system of the invention include for acquiring the Various types of data information in the scene of construction site and realizing the terminal node of data interaction；Carry out data information for receiving and complete response, then received data information is packaged, forms the Networking Platform uploaded after communication packet；For receiving communication packet and completing packet parsing, the Cloud Server of real time status in the scene of construction site is ultimately generated；For realizing the mobile data end of data interaction to Networking Platform progress parameter setting and with Cloud Server.The present invention realizes the data sharing in construction site between various kinds of equipment, and total data is managed collectively, unifies to upload again, the real-time operation for building site project manager is provided convenience to the full extent.

Description

Building site data integrated system and integration method based on Internet of Things

Technical field

The present invention relates to a kind of data integrated system and corresponding data integration methods, in particular to a kind of base In the building site data integrated system and integration method of Internet of Things, belong to internet of things field.

Background technique

With the rapid development of our country's economy, the Quantity of various infrastructure projects is also growing day by day, in each big city Construction site be seen everywhere.Along with nowadays mechanization, the architectural development trend of intelligent operation, the building of all kinds of large sizes Equipment is high by its own utilization of area rate, job area is big, adapts to the features such as wide, versatile, in construction site To widely applying.

Under such industry background, the type numerous and complicated of the Architectural Equipment in current single construction site, including it is mixed Solidifying soil perfusion equipment, positioning device and enviromental monitoring equipment etc..But since these device categories are different and may come from not Same producer, mutually indepedent between equipment, equipment data collected can not be shared, thus for building site project manager and Speech, how to grasp the real-time live information in construction site just becomes abnormal difficult.

In recent years, Internet of Things (Internet of Things, the IoT) development speed of technology in China is very fast, all kinds of objects Networking the relevant technologies and Related product continue to bring out.In simple terms, Internet of Things is that the information of internet and conventional telecommunication network is held Carrier is a kind of network that all common objects realizations that can exercise standalone feature can be allowed to interconnect.Also just because of this The continuous development of one technology updates, so that the integration processing for data in construction site provides a kind of new resolving ideas and solution Certainly scheme.

In conclusion how to be based on technology of Internet of things, a kind of building site data integrated system and corresponding building site number are proposed According to integration method, also just become at present researcher's urgent problem to be solved in the industry.

Summary of the invention

In view of the prior art, there are drawbacks described above, and the purpose of the present invention is to propose to a kind of, and the building site data based on Internet of Things are whole Collaboration system and integration method.

The building site data integrated system based on Internet of Things, comprising:

Terminal node is set in each monitoring region in the scene of construction site, all kinds of in the scene of construction site for acquiring Data information simultaneously realizes data interaction；

Networking Platform is communicated to connect with the terminal node, for receiving the data information from the terminal node and completion Response, then received data information is packaged, form communication packet after upload；

Cloud Server is communicated to connect with the Networking Platform, for receiving the communication packet from the Networking Platform and completion Packet parsing, the real time status ultimately generated in the scene of construction site are consulted for building site project manager；

Mobile data end is communicated to connect with the Networking Platform and the Cloud Server respectively, for the Networking Platform into Row parameter setting, and data interaction is realized with the Cloud Server.

Preferably, the terminal node includes at least:

The longitude and latitude data at construction site scene are sent to institute for recording the position at construction site scene by GPS positioning device State Networking Platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, will perfusion it is high Degree evidence is sent to the Networking Platform；

Noise data is sent to the gateway and put down by noise sensing equipment for monitoring the current noise figure in construction site scene Platform；

Dust data are sent to the gateway and put down by dust sensing equipment for monitoring the current dust values in construction site scene Platform.

Preferably, the terminal node and Networking Platform communication connection mode between the two are to pass through LoRa agreement Connection is connected by RS485 agreement or is connected by Zigbee network；

The Networking Platform is that 4G is connect or passed through by Ethernet with Cloud Server communication connection mode between the two Connection；

The mobile data end and Networking Platform communication connection mode between the two are to pass through bluetooth connection, the movement Data terminal is to be connect by 4G with Cloud Server communication connection mode between the two.

The building site data integration method based on Internet of Things, includes the following steps:

S1, terminal node, all kinds of numbers in the scene of acquisition construction site are set in each monitoring region in the scene of construction site It is believed that ceasing and realizing data interaction；

S2, Networking Platform is set, communicates to connect the Networking Platform and the terminal node, receiving and come from the terminal node Data information and complete response, then received data information is packaged, form communication packet after upload；

S3, Cloud Server is set, communicates to connect the Cloud Server and the Networking Platform, receiving and come from the Networking Platform Communication packet and complete packet parsing, ultimately generate construction site scene in real time status looked into for building site project manager It reads；

S4, setting mobile data end, make the mobile data end respectively with the Networking Platform and the Cloud Server communication link It connects, parameter setting is carried out to the Networking Platform, and realize data interaction with the Cloud Server.

Preferably, the terminal node includes at least:

The longitude and latitude at construction site scene is sent to the net for recording the position at construction site scene by GPS positioning device Close platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, will perfusion it is high Degree evidence is sent to the Networking Platform；

Noise data is sent to the gateway and put down by noise sensing equipment for monitoring the current noise figure in construction site scene Platform；

Dust data are sent to the gateway and put down by dust sensing equipment for monitoring the current dust values in construction site scene Platform.

Preferably, terminal node described in S2 and Networking Platform communication connection mode between the two are to pass through LoRa Agreement connects or is connected by RS485 agreement or connected by Zigbee network；

Networking Platform described in S3 is to connect or lead to by Ethernet with Cloud Server communication connection mode between the two Cross 4G connection；

Mobile data end described in S4 and Networking Platform communication connection mode between the two are by bluetooth connection, in S4 The mobile data end is to be connect by 4G with Cloud Server communication connection mode between the two.

Preferably, the Various types of data information in the scene of construction site is acquired described in S1 and realizes data interaction, it is specific to wrap Include: data information is packaged, forms data transmission by the Various types of data information in the scene of terminal node acquisition construction site Frame then uploads the data and sends frame to the Networking Platform；

The format that the data send frame is initiated with the frame head of two bytes, is then sequentially followed successively by address, the byte of two bytes Function code, two bytes data length and specific order or data content, be finally the CRC check position of two bytes.

Preferably, the data information from the terminal node is received described in S2 and completes response, is specifically included: described Networking Platform receives and parses through the data from the terminal node and sends frame, subsequently generates data answering frame and by the data Acknowledgement frame feeds back to the terminal node；

The format of the data answering frame is initiated with the frame head of two bytes, is then sequentially followed successively by address, the byte of two bytes Function code, two bytes data length and specific data content, be finally the CRC check position of two bytes.

Preferably, the communication packet is made of packet header, text and packet tail three parts；

The format of the header part is initiated with the frame head of two bytes, is then sequentially followed successively by frame number, the byte of two bytes Command type, the message length of two bytes, the time of transmission of six bytes and nybble network management address；

The format of the body part is sequentially followed successively by terminal node address and the textual data information of nybble, the text Data information include at least the longitude of nybble, the latitude of nybble, the influx height of nybble, nybble noise figure and The dust values of nybble；

The format of the packet portion is sequentially followed successively by the postamble of two bytes and the CRC check position of two bytes.

Compared with prior art, advantages of the present invention is mainly reflected in the following aspects:

The present invention it is a kind of it is integrated, interconnection in construction site between various kinds of equipment is completed by way of networking, it is real The data sharing between various kinds of equipment is showed, total data is managed collectively, unifies to upload again, is to the full extent work The real-time operation of ground project manager is provided convenience.

Meanwhile the equipment compatibility of system and method for the invention is very high, for all kinds of equipment for meeting communications protocol, It can be linked into system platform and be managed collectively, to further enrich the function of building site data integrated system, mention The use value of building site data integrated system is risen.

In addition, the present invention also provides reference for other relevant issues in same domain, can be opened up on this basis Extension is stretched, and is applied in other technical solutions relevant to Data Integration processing system, has very wide application prospect.

Just attached drawing in conjunction with the embodiments below, the embodiment of the present invention is described in further detail, so that of the invention Technical solution is more readily understood, grasps.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of present system.

Specific embodiment

The invention proposes a kind of building site data integrated system and integration method based on Internet of Things, system of the invention exist It is served only for superfilled system in technical solution before, be acquired for the superfilled data of monitored concrete and is uploaded by network Server is in case positioning analysis.In view of the processing complexity of various data in the scene of construction site, in the solution of the present invention Specially the functionality for extending system can receive the data of other equipment, be managed collectively, is uniformly uploaded to server, So that staff is easily operated.

Specifically, as shown in Figure 1, present invention discloses a kind of building site data integrated system based on Internet of Things, comprising:

Terminal node is set in each monitoring region in the scene of construction site, all kinds of in the scene of construction site for acquiring Data information simultaneously realizes data interaction.

Networking Platform communicates to connect with the terminal node, and the terminal node and the Networking Platform are between the two Communication connection mode is to be connected by LoRa agreement or connected by RS485 agreement or connected by Zigbee network；

The Networking Platform is for receiving the data information from the terminal node and complete response, then by received data Information is packaged, form communication packet after upload.

Cloud Server communicates to connect with the Networking Platform, and the Networking Platform and the Cloud Server are between the two Communication connection mode is that 4G connection is connected or passed through by Ethernet；

The Cloud Server ultimately generates construction for receiving the communication packet from the Networking Platform and completing packet parsing Real time status in building-site is consulted for building site project manager.

Mobile data end is communicated to connect with the Networking Platform and the Cloud Server respectively, the mobile data end with Networking Platform communication connection mode between the two is by bluetooth connection, the mobile data end and the Cloud Server Communication connection mode between the two is to be connected by 4G；

The mobile data end is used to carry out the Networking Platform parameter setting, and realizes that data are handed over the Cloud Server Mutually.

It needs to illustrate herein, causes equipment to be not suitable for carrying movement in view of cable restriction in wire communication technology The drawbacks of, system of the invention has integrally used the mode of wireless telecommunications.In view of the practicability of communication modes and relatively remote Communication need, system of the invention used LoRa agreement be main wireless communication mode (LoRa protocol can guarantee Stablize communication within 3km, can substantially cover entire construction site).And for it is some infrequently move, can be placed on it is attached Close equipment can also be communicated by RS485 agreement.

In addition, due to the communications protocol of the equipment of every producer be all it is skimble-scamble, in order to can unify upload data just It in management, needs to carry out certain protocol conversion, is converted into above mentioned communications protocol.Some equipment might have LoRa module can give mating one simple LoRa module, carry out channel radio for some equipment without LoRa module News.Each terminal node is communicated by wireless LoRa, passes the data to Networking Platform, to realize the access of equipment.

Networking Platform is currently that data are uploaded by way of 4G or Ethernet to server, and server receives over there After related data, the corresponding data of display, if necessary and carry out some announcements in mobile data end (computer or mobile phone or PAD) The information alerts such as alert.In terms of Networking Platform, relevant parameter can be arranged by Cloud Server side and be configured, can also passed through Software on mobile data end is operated, and may be otherwise is that data friendship is completed by way of network configuration or using bluetooth Mutually.

In the present embodiment, the terminal node includes at least:

GPS positioning device sends out the accurate longitude and latitude data in construction site scene for recording the position at construction site scene It send to the Networking Platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, checking whether It is superfilled and whether reach scheduled perfusion position, influx height data are sent to the Networking Platform；

Noise sensing equipment, since the noise at construction site scene is larger, the noise sensing equipment is for monitoring construction The current noise figure of building-site checks whether that reach noise online, and noise data is sent to the Networking Platform；

Dust sensing equipment very may be used in such adverse circumstances since the dust at construction site scene is very big if being in for a long time The health of construction personnel can be impacted, therefore the dust sensing equipment is current for monitoring construction site scene Dust values, check dust it is whether exceeded, dust data are sent to the Networking Platform.

In addition, the terminal node can also include equipment that is some other, meeting communications protocol, these equipment all may be used To be linked into Networking Platform, unified management is then carried out.

Present invention further teaches a kind of building site data integration method based on Internet of Things, includes the following steps:

S1, terminal node, all kinds of numbers in the scene of acquisition construction site are set in each monitoring region in the scene of construction site It is believed that ceasing and realizing data interaction.

The Various types of data information acquired in the scene of construction site simultaneously realizes data interaction, specifically includes: the terminal Node acquires the Various types of data information in the scene of construction site, and data information is packaged, forms data transmission frame, then uploads institute It states data and sends frame to the Networking Platform.

The format that the data send frame is as follows,

Frame head	Address	Function code	Data length	Command/data	Crc verification
						2	2	1	2		2

That is, be initiated with the frame head of two bytes, it is then sequentially followed successively by the address of two bytes, the function code of a byte, two bytes Data length and specific order or data content are finally the CRC check position of two bytes.

S2, Networking Platform is set, communicates to connect the Networking Platform and the terminal node, receiving and come from the terminal The data information of node simultaneously completes response, then received data information is packaged, form communication packet after upload.

The terminal node and Networking Platform communication connection mode between the two be connect by LoRa agreement or It is connected by RS485 agreement or is connected by Zigbee network.

The data information of the reception from the terminal node simultaneously completes response, and specifically include: the Networking Platform connects It receives and parses the data from the terminal node and send frame, subsequently generate data answering frame and feed back the data answering frame To the terminal node.

The format of the data answering frame is as follows,

Frame head	Address	Function code	Data length	Data	Crc verification
						2	2	1	2		2

That is, be initiated with the frame head of two bytes, it is then sequentially followed successively by the address of two bytes, the function code of a byte, two bytes Data length and specific data content are finally the CRC check position of two bytes.

S3, Cloud Server is set, communicates to connect the Cloud Server and the Networking Platform, receiving and come from the gateway The communication packet of platform simultaneously completes packet parsing, ultimately generates the real time status in the scene of construction site for building site project manager Member consults.

The Networking Platform is to connect or lead to by Ethernet with Cloud Server communication connection mode between the two Cross 4G connection.

S4, setting mobile data end keep the mobile data end logical with the Networking Platform and the Cloud Server respectively Letter connection carries out parameter setting to the Networking Platform, and realizes data interaction with the Cloud Server；The mobile data end The communication connection mode between the two with the Networking Platform is to pass through bluetooth connection；The mobile data end and the cloud service Device communication connection mode between the two is to be connected by 4G.

The communication packet is made of packet header, text and packet tail three parts, and format is as follows,

Specifically, the format of the header part is initiated with the frame head of two bytes, be then sequentially followed successively by two bytes frame number, The network management address of the command type of one byte, the message length of two bytes, the time of transmission of six bytes and nybble；

The format of the body part is sequentially followed successively by terminal node address and the textual data information of nybble, the text Data information include at least the longitude of nybble, the latitude of nybble, the influx height of nybble, nybble noise figure and The dust values of nybble；

The format of the packet portion is sequentially followed successively by the postamble of two bytes and the CRC check position of two bytes.

Corresponding with above system structure, the terminal node includes at least:

The longitude and latitude at construction site scene is sent to the net for recording the position at construction site scene by GPS positioning device Close platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, will perfusion it is high Degree evidence is sent to the Networking Platform；

Noise data is sent to the gateway and put down by noise sensing equipment for monitoring the current noise figure in construction site scene Platform；

Dust data are sent to the gateway and put down by dust sensing equipment for monitoring the current dust values in construction site scene Platform.

Likewise, the terminal node can also include equipment that is some other, meeting communications protocol, these equipment are all It can be linked into Networking Platform, then carry out unified management.

The intercommunication that the present invention is integrated one kind, completes in construction site between various kinds of equipment by way of networking is mutual Connection, realizes the data sharing between various kinds of equipment, and total data is managed collectively, unifies to upload again, utmostly It is upper to provide convenience for the real-time operation of building site project manager.

Meanwhile the equipment compatibility of system and method for the invention is very high, for all kinds of equipment for meeting communications protocol, It can be linked into system platform and be managed collectively, to further enrich the function of building site data integrated system, mention The use value of building site data integrated system is risen.

In addition, the present invention also provides reference for other relevant issues in same domain, can be opened up on this basis Extension is stretched, and is applied in other technical solutions relevant to Data Integration processing system, has very wide application prospect.

It is obvious to a person skilled in the art that invention is not limited to the details of the above exemplary embodiments, Er Qie In the case where without departing substantially from spirit and essential characteristics of the invention, the present invention can be realized in other specific forms.Therefore, no matter From the point of view of which point, the present embodiments are to be considered as illustrative and not restrictive, and the scope of the present invention is by appended power Benefit requires rather than above description limits, it is intended that all by what is fallen within the meaning and scope of the equivalent elements of the claims Variation is included within the present invention, and any reference signs in the claims should not be construed as limiting the involved claims.

In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art The other embodiments being understood that.

Claims (9)

1. a kind of building site data integrated system based on Internet of Things characterized by comprising

Terminal node is set in each monitoring region in the scene of construction site, all kinds of in the scene of construction site for acquiring Data information simultaneously realizes data interaction；

Networking Platform is communicated to connect with the terminal node, for receiving the data information from the terminal node and completion Response, then received data information is packaged, form communication packet after upload；

Cloud Server is communicated to connect with the Networking Platform, for receiving the communication packet from the Networking Platform and completion Packet parsing, the real time status ultimately generated in the scene of construction site are consulted for building site project manager；

Mobile data end is communicated to connect with the Networking Platform and the Cloud Server respectively, for the Networking Platform into Row parameter setting, and data interaction is realized with the Cloud Server.

2. the building site data integrated system according to claim 1 based on Internet of Things, which is characterized in that the terminal node It includes at least:

The longitude and latitude data at construction site scene are sent to institute for recording the position at construction site scene by GPS positioning device State Networking Platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, will perfusion it is high Degree evidence is sent to the Networking Platform；

Noise data is sent to the gateway and put down by noise sensing equipment for monitoring the current noise figure in construction site scene Platform；

Dust data are sent to the gateway and put down by dust sensing equipment for monitoring the current dust values in construction site scene Platform.

3. the building site data integrated system according to claim 1 based on Internet of Things, it is characterised in that: the terminal node It is to be connect by LoRa agreement or connect or lead to by RS485 agreement with Networking Platform communication connection mode between the two Cross Zigbee network connection；

The Networking Platform is that 4G is connect or passed through by Ethernet with Cloud Server communication connection mode between the two Connection；

The mobile data end and Networking Platform communication connection mode between the two are to pass through bluetooth connection, the movement Data terminal is to be connect by 4G with Cloud Server communication connection mode between the two.

4. a kind of building site data integration method based on Internet of Things, which comprises the steps of:

S1, terminal node, all kinds of numbers in the scene of acquisition construction site are set in each monitoring region in the scene of construction site It is believed that ceasing and realizing data interaction；

S2, Networking Platform is set, communicates to connect the Networking Platform and the terminal node, receiving and come from the terminal node Data information and complete response, then received data information is packaged, form communication packet after upload；

S3, Cloud Server is set, communicates to connect the Cloud Server and the Networking Platform, receiving and come from the Networking Platform Communication packet and complete packet parsing, ultimately generate construction site scene in real time status looked into for building site project manager It reads；

S4, setting mobile data end, make the mobile data end respectively with the Networking Platform and the Cloud Server communication link It connects, parameter setting is carried out to the Networking Platform, and realize data interaction with the Cloud Server.

5. the building site data integration method according to claim 4 based on Internet of Things, which is characterized in that the terminal node It includes at least:

The longitude and latitude at construction site scene is sent to the net for recording the position at construction site scene by GPS positioning device Close platform；

Filling concrete height monitoring device, for monitoring the real-time height of concrete during filling concrete, will perfusion it is high Degree evidence is sent to the Networking Platform；

Noise data is sent to the gateway and put down by noise sensing equipment for monitoring the current noise figure in construction site scene Platform；

Dust data are sent to the gateway and put down by dust sensing equipment for monitoring the current dust values in construction site scene Platform.

6. the building site data integration method according to claim 4 based on Internet of Things, it is characterised in that: terminal described in S2 Node is to be connect by LoRa agreement or connected by RS485 agreement with Networking Platform communication connection mode between the two Or it is connected by Zigbee network；

Networking Platform described in S3 is to connect or lead to by Ethernet with Cloud Server communication connection mode between the two Cross 4G connection；

Mobile data end described in S4 and Networking Platform communication connection mode between the two are by bluetooth connection, in S4 The mobile data end is to be connect by 4G with Cloud Server communication connection mode between the two.

7. the building site data integration method according to claim 4 based on Internet of Things, which is characterized in that acquired described in S1 Various types of data information in the scene of construction site simultaneously realizes data interaction, and specifically include: the terminal node acquires construction site Data information is packaged, forms data transmission frame, then uploads the data and send frame to institute by the Various types of data information in scene State Networking Platform；

The format that the data send frame is initiated with the frame head of two bytes, is then sequentially followed successively by address, the byte of two bytes Function code, two bytes data length and specific order or data content, be finally the CRC check position of two bytes.

8. the building site data integration method according to claim 7 based on Internet of Things, which is characterized in that received described in S2 Data information from the terminal node simultaneously completes response, specifically includes: the Networking Platform is received and parsed through from described The data of terminal node send frame, subsequently generate data answering frame and the data answering frame is fed back to the terminal node；

The format of the data answering frame is initiated with the frame head of two bytes, is then sequentially followed successively by address, the byte of two bytes Function code, two bytes data length and specific data content, be finally the CRC check position of two bytes.

9. the building site data integration method according to claim 4 based on Internet of Things, it is characterised in that: the communication packet It is made of packet header, text and packet tail three parts；

The format of the header part is initiated with the frame head of two bytes, is then sequentially followed successively by frame number, the byte of two bytes Command type, the message length of two bytes, the time of transmission of six bytes and nybble network management address；

The format of the body part is sequentially followed successively by terminal node address and the textual data information of nybble, the text Data information include at least the longitude of nybble, the latitude of nybble, the influx height of nybble, nybble noise figure and The dust values of nybble；

The format of the packet portion is sequentially followed successively by the postamble of two bytes and the CRC check position of two bytes.