CN202068431U - Embedded Internet of Things server - Google Patents

Abstract

The utility model provides an embedded Internet of Things server, which comprises a processor, a storage unit, an Ethernet interface circuit and a serial port communication circuit, wherein the storage unit, the Ethernet interface circuit and the serial port communication circuit are connected with the processor, the Ethernet interface circuit is provided with an Ethernet interface, the serial port communication circuit is provided with a 232 interface, a 485 interface and a 422 interface, and the embedded Internet of Things server is also provided with a Canbus unit circuit. The embedded Internet of Things server is provided with rich interfaces and can realize the compatibility with various sensors.

Description

Embedded Internet of Things server

Technical field

The utility model relates to a kind of server field, relates in particular to a kind of embedded Internet of Things server.

Background technology

At home and abroad, the notion of Internet of Things is just risen, and related industry also is in the development last stage.In the sector, there is following problem at present:

1, because the manufacturer of transducer and smart machine is many, and the agreement of use has nothing in common with each other again, so be major issue of each system at present to the compatibility of various device;

2, install, implement and use very complicatedly, need personnel that high specification requirement is arranged: since the interface that equipment provides kind is very many basically: have 422,485,232, a can bus or the like.Simultaneously, lack a unified compatible platform on the market, and all be based on the software of PC server, install, debug very complicated;

3, adopt PC server and software pattern, very complicated except Installation and Debugging, outside the specification requirement height, use also very inconvenience, also have poor stability simultaneously, can not arrange arbitrarily that machine must be arranged in machine room, adaptability is very poor;

4, the application of software is with strong points, and there be limited evidence currently of is seen cross-platform software, uses the client that must adopt main business.

Therefore,, how to realize compatibility, become the technical task that those skilled in the art need to be resolved hurrily in the face of the equipment of complicated and diversified various different vendors.

The utility model content

The purpose of this utility model is to provide a kind of embedded Internet of Things server, to realize to existing each transducer, such as analog quantity, switching value, the compatibility of thermocouple, thermal resistance, smart machine and microsensor, and then form a unified sensor platform.

For reaching above-mentioned purpose and other purposes, the embedded Internet of Things server that the utility model provides, it comprises: processor; The memory cell and the interface circuit that are connected with described processor, wherein, described interface circuit has Ethernet interface and serial communication circuit, and described serial communication circuit has 232 interfaces, 485 interfaces and 422 interfaces again, and it also comprises the Canbus element circuit.

Preferably, above-mentioned Canbus element circuit is used to connect one or more of analog quantity and switching value module, intelligent object, infrared and radio frequency (RFID) module, GPS module and wireless communication module.

Above-mentioned wireless communication module comprises one or more of modules such as 3G module, GPRS module or CDMA module.

Preferably, above-mentioned embedded Internet of Things server also comprises: the 3G radio receiving transmitting module that connects above-mentioned processor.

From the above mentioned, embedded Internet of Things server of the present utility model disposes abundant interface, can compatible various kinds of sensors.

Other aspects of the present utility model will be apparent to those skilled in the art owing to the disclosure of this paper.

Below in conjunction with accompanying drawing the utility model is elaborated.

Description of drawings

Fig. 1 is the structural representation of embedded Internet of Things server of the present utility model;

Fig. 2 is embedded Internet of Things data in server analysis process figure of the present utility model;

Fig. 3 is the self diagnosis flow chart of embedded Internet of Things server of the present utility model.

Embodiment

See also Fig. 1, embedded Internet of Things server of the present utility model comprises: processor, memory cell and interface circuit.

Described processor can adopt 32 embedded type CPUs, is used for data are analyzed etc.

Described memory cell is connected with described processor, and it comprises ROM and DRAM.Preferably, described memory cell comprises: the Flash ROM of 8M and the DRAM of 32M etc.

Described interface circuit is connected with described processor, and it has Ethernet interface and serial communication circuit, and described serial communication circuit has 232 interfaces, 485 interfaces and 422 interfaces again, and it also comprises Canbus element circuit etc.Described interface circuit is used for being connected with corresponding external sensor by each interface, so that the data of each transducer are sent into described processor so that analyze and handle.

Preferably, described Canbus element circuit can connect traditional monitoring modules such as analog quantity and switching value module to realize the compatibility to existing data pick-up; Also can connect intelligent object to realize monitoring to smart machine; Also can connect infrared and RFID module to realize compatibility to microsensor; Also can connect the GPS module to realize global location; Also can connect wireless communication module, as 3G module, GPRS module and CDMA module, realizing, such as the support of 3G network etc. to wireless network.

More detailed speech it, for example, described Ethernet interface connects Industrial Ethernet network (LAN).Again for example, 232 interfaces, 485 interfaces and 422 interfaces connect industrial-controlled general line RS232, RS485 and RS422 respectively.Again for example, the Canbus interface connects universal serial bus, thus, can carry out communication with equipment such as the analog quantity of outside, switching value module, intelligent communication module, infrared communication module, RFID communication modules by each interface.

Preferably, described 3G module can directly be connected with described processor, with the quick transmitting-receiving that realizes the 3G signal etc.

The operation principle of above-mentioned embedded Internet of Things server is as follows:

At first, described interface circuit is by the corresponding interface and front end sensors, connects such as equipment such as the analog quantity of outside, switching value module, intelligent communication module, infrared communication module, RFID communication modules, so that gather various real time datas.

Then, described embedded Internet of Things server is from the real-time initial data of front end sensors collection, and analyzes computing and processing, simultaneously data upload to database server preserved.

Below will be elaborated to analysis of above-mentioned embedded Internet of Things data in server and self-diagnostic function.

See also Fig. 2, it is that described embedded Internet of Things data in server is analyzed and process chart.

At first, after described processor is by the initial data of interface circuit acquisition from each transducer of front end, data are analyzed, for example, the character that data is divided into single passage and decision data, all switching values in this way still are analog quantity or the like, and subsequently, described processor judges further whether the computing formula of internal memory has renewal, if renewal is arranged, then upgrade being written into the formula script, otherwise, directly the data that obtain are calculated to obtain corresponding results according to original formula, and judge whether this result surpasses predetermined threshold, if then export information warning, otherwise corresponding data result sent into memory cell.

See also Fig. 3 again, it is the flow chart of the self-diagnostic function of described embedded Internet of Things server.

Concrete, the processor of described embedded Internet of Things server sends acquisition by interface circuit forward end transducer, judge subsequently whether front end sensors passes the answer data back, if not, judge that then this front end sensors is not online or break down that if pass the answer data back, then described processor carries out data analysis, its analytic process is not described in detail in this as shown in Figure 2.

In sum, embedded Internet of Things server of the present utility model mutually combines sensing (thing connection) network technology, embedded server technology, Internet technology and 3G, GPS technology, exploitation becomes the built-in sensing webserver that unification is cross-platform, can compatible most transducers, collecting device, smart machine, control appliance.Simultaneously, become the cross-platform network service that is simple and easy to usefulness, and can further promote and become network application value-added service platform in conjunction with the B/S application platform.Described embedded Internet of Things server has following technical characterstic:

1. embedded development platform adopts (SuSE) Linux OS and the embedded device increase income to combine, and can bring into play the advantage of embedded device high reliability and plug and play, has inherited the open of linux system simultaneously again and to the compatibility of multi-protocols;

2. intelligent and complete data processing capacity: its internal storage data formula, handle so that carry out data analysis, and open script carries out real-time data computation and analysis to carry out related amendments according to the script that is provided, and the generation relevant information;

3. uniform data interface (by the teledata interface, the distributing data at real-time update center);

4. modular expanded function: can realize monitoring by loading the module of various combination, as carry additionally traditional monitoring modules such as analog quantity and switching value module and can realize compatibility to existing data pick-up to various device; Carry additionally intelligent object and can realize monitoring smart machine; Carry additionally infrared and RFID module and can realize compatibility microsensor; Carry additionally the GPS module and can realize global location; Carry additionally the 3G communication module and can realize support, thereby form a hardware platform of plurality of devices, agreement and network communication being integrated unified support 3G network;

5. broken away from the equipment of complicated, various various different vendors, realized comprehensive integration, can on an equipment, realize compatibility, need be configured and to get final product according to the model of equipment to various distinct devices;

6. the equipment automatically operation that realized powering on after having finished relevant configuration, does not need the operation of starting up or the like the specialty of traditional software, and therefore the operation automatically that can power on can be installed in the on-the-spot unmanned environment;

7. data are directly upgraded toward consolidated storage, store in real time and issue by webpage, and service software that need not be special just can realize implementing monitoring, inquiry, retrieval or the like various functions;

8. adopt the Browser-Server structure, can realize adopting various intelligent terminals such as mobile phone, computer, palmtop PC or the like is monitored easily;

9. no matter local area network (LAN) does not still have the wide area network of fixed ip address, or 3G, GPRS, and the no IP address pattern of CDMA can be implemented easily, has very strong network-adaptive ability.

All quote in this application as a reference at all documents that the utility model is mentioned, just quoted as a reference separately as each piece document.Should be understood that in addition those skilled in the art can make various changes or modifications the utility model after having read above-mentioned instruction content of the present utility model, these equivalent form of values fall within the application's appended claims institute restricted portion equally.

Claims (12)

1. embedded Internet of Things server is characterized in that comprising:

Processor;

The memory cell and the interface circuit that are connected with described processor, wherein, described interface circuit has Ethernet interface and serial communication circuit, and described serial communication circuit has 232 interfaces, 485 interfaces and 422 interfaces again, and it also comprises the Canbus element circuit.

2. embedded Internet of Things server as claimed in claim 1, it is characterized in that: described memory cell comprises ROM and DRAM.

3. embedded Internet of Things server as claimed in claim 1 is characterized in that also comprising: the radio-frequency module that is connected described Canbus element circuit.

4. embedded Internet of Things server as claimed in claim 3 is characterized in that also comprising: the infrared module that is connected described Canbus element circuit.

5. embedded Internet of Things server as claimed in claim 1 is characterized in that also comprising: the infrared module that is connected described Canbus element circuit.

6. embedded Internet of Things server as claimed in claim 5 is characterized in that also comprising: the radio-frequency module that is connected described Canbus element circuit.

7. as the described embedded Internet of Things server of the arbitrary claim of claim 1-6, it is characterized in that also comprising: the wireless communication module that is connected described Canbus element circuit.

8. embedded Internet of Things server as claimed in claim 7 is characterized in that: described wireless communication module comprises one or more in 3G module, GPRS module or the CDMA module.

9. as the described embedded Internet of Things server of the arbitrary claim of claim 1-6, it is characterized in that also comprising: the GPS module that is connected described Canbus element circuit.

10. embedded Internet of Things server as claimed in claim 9 is characterized in that also comprising: the 3G radio receiving transmitting module that connects described processor.

11., it is characterized in that also comprising: the 3G radio receiving transmitting module that connects described processor as the described embedded Internet of Things server of the arbitrary claim of claim 1-6.

12. embedded Internet of Things server as claimed in claim 11 is characterized in that also comprising: the GPS module that is connected described Canbus element circuit.

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