CN201681422U - Equipment power-extracting management system based on RFID and CAN bus technology - Google Patents
Equipment power-extracting management system based on RFID and CAN bus technology Download PDFInfo
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- CN201681422U CN201681422U CN2010202030333U CN201020203033U CN201681422U CN 201681422 U CN201681422 U CN 201681422U CN 2010202030333 U CN2010202030333 U CN 2010202030333U CN 201020203033 U CN201020203033 U CN 201020203033U CN 201681422 U CN201681422 U CN 201681422U
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Abstract
The utility model discloses an equipment power-extracting management system base on the RFID and CAN bus technology, which belongs to the electronic equipment power-extracting management field. The system comprises power-extracting controllers, CAN standard interface equipment and an upper computer, a power-extracting controller is mounted on each station and is correspondingly connected with electronic equipment, and all the power-extracting controllers are connected to a CAN bus and connected with the upper computer via the CAN standard interface equipment. The system performs user authentication via RFID tags and transmits user information to a databank of the upper computer for comparison via the CAN bus, only authenticated users can start corresponding instruments and equipment, and using information of the users, the instruments and the equipment are simultaneously recorded in the databank to be summarized. The equipment power-extracting management system is applied to power-extracting management of scattered electronic devices, can timely and accurately collect using information of each device, and then provides a reliable guarantee for high-efficiency and informationization of management.
Description
Technical field
The utility model relates to a kind of electric kind equipment management system, relates in particular to a kind of decentralized electricity kind equipment power taking management system based on RFID and CAN bussing technique, belongs to electric kind equipment power taking management domain.
Background technology
Radio-frequency (RF) identification (Radio Frequency Identification, RFID) technology is the automatic identification technology that rises the nineties, it is a kind of non-contact automatic identification technology that utilizes radio communication to realize, it is to utilize the space lotus root of radiofrequency signal to close the purpose that the information that realizes contactless information transmission and pass through to be transmitted reaches identifying object.Fieldbus (Fieldbus) is to develop formation the beginning of the nineties in the world, the field intelligent device interconnection communication network that is used for fields such as process automation, manufacturing automation, building automatic, it is exactly the communication system that is used for a kind of full dispersion of field instrument between dispatching with control system and Long-distance Control, total digitalization, intelligence, two-way, multivariate, multiple spot in essence.And CAN bus (full name is " Controller Area Network ", i.e. controller local area network) is one of most widely used fieldbus in the world.More than two kinds of technology the former can use and on individual equipment, realize User Recognition, it is interconnected that the latter can realize that a plurality of equipment carry out, and transmits the information of identification.
Well-known laboratory is the important base of teaching, scientific research, but along with the increase of Laboratory Instruments number of devices and the increase of use amount, the method that managerial personnel register Laboratory Instruments equipment operating position by hand is loaded down with trivial details, the flow process complexity, often because the problem of timeliness can not in time be safeguarded equipment, simultaneously also cause the idle of some equipment or repeat to purchase, cause the great wasting of resources because of frequency of utilization that can't the dynamic knowledge various device.Therefore, be necessary to design the electric kind equipment management system of the efficient and information-based characteristics of a kind of combination.
The utility model content
The purpose of this utility model is to propose a kind of decentralized electricity kind equipment power taking management system based on RFID and CAN bussing technique, to realize the information system management of electric kind equipment.
System architecture of the present utility model comprises: power taking controller, CAN standard interface equipment and host computer, a power taking controller is installed on each station, each power taking controller is corresponding to be connected with an electric kind equipment, and all power taking controllers all insert the CAN bus and link to each other with the COM end of host computer by DB9 CAN standard interface equipment.
The structure of described power taking controller comprises: main control unit, CAN bus data Transmit-Receive Unit, RFID read-write cell, power devices control module and power supply, main control unit is respectively with CAN bus data Transmit-Receive Unit, RFID read-write cell with the power devices control module is two-way is connected, CAN bus data Transmit-Receive Unit inserts the CAN bus, the power devices control module is connected with corresponding electric kind equipment, and power supply is given main control unit, CAN bus data Transmit-Receive Unit, RFID read-write cell and the power supply of power devices control module respectively.
The utility model has realized that the networking of discrete station equipment connects control and management, as long as the RFID tag recognition of user by on station, carrying out, just contents such as user profile, facility information, operating position can be handled preservation, simultaneously the electric kind equipment on the corresponding station is carried out intellectuality power supply control, real-time is higher.The utility model has improved the automatic capability of equipment control, has saved human resources, has realized high efficiency, the informationization of equipment control.
Description of drawings
Fig. 1 is the structural representation of power taking controller.
Fig. 2 is the structural topology figure of the utility model equipment power taking management system.
Fig. 3 is a CAN application layer communication protocol form synoptic diagram.
Embodiment
As shown in Figure 2, system architecture of the present utility model comprises: power taking controller, CAN standard interface equipment and host computer, a power taking controller is installed on each station, each power taking controller is corresponding to be connected with an electric kind equipment, and all power taking controllers all insert the CAN bus and are connected with the COM end of host computer by the DB9CAN standard interface equipment.
As shown in Figure 1, the structure of power taking controller comprises in the utility model: main control unit 1, CAN bus data Transmit-Receive Unit 2, RFID read-write cell 3, power devices control module 4 and power supply 5, main control unit 1 respectively with CAN bus data Transmit-Receive Unit 2, RFID read-write cell 3 and 4 two-way connections of power devices control module, CAN bus data Transmit-Receive Unit 2 inserts the CAN bus, power devices control module 4 is connected with the power module of corresponding electric kind equipment, and power supply 5 is given main control unit 1 respectively, CAN bus data Transmit-Receive Unit 2, RFID read-write cell 3 and 4 power supplies of power devices control module.Main control unit 1 adopts singlechip technology, is responsible for other each unit are carried out initialization and control in real time, and our the STC12C5A60S2 single-chip microcomputer of selecting macrocrystalline scientific ﹠ technical corporation for use is a core here; Adopting MCP2515 and TJA1050 in the CAN bus data Transmit-Receive Unit 2 respectively is controller and transceiver, realizes the transmission control to data; It is core that RFID read-write cell 3 adopts FM1702SL, realizes the read-write to the RFID label, is used to set user's rights of using and service time; Power devices control module 4 is to the equipment control of powering in the mode of pilot relay; Power supply 5 offers each unit after adopting three end power module LM7805 general+12V DC voltage to convert 5V voltage to, considers factors such as voltage fluctuation and power consumption, and level can be carried out dividing potential drop to 5V voltage in the back, provides 3.5V voltage to get final product for RFID read-write cell 3.
Before system's operation, power taking controller on each station carries out initialization to all internal elements, mode of operation, message transmission rate, duty of each unit etc. are set, simultaneously send a special character to host computer by each power taking controller, the numbering and the state of self relevant device of announcement, registration is from as at net state, for follow-up operation provides safeguard.
When system moves, RFID read-write cell 3 is finished the RFID tag recognition that the user holds, and the information in the label is read the back send into main control unit 1 by the mode of IIC, main control unit 1 is sent to CAN bus data Transmit-Receive Unit 2 after with the data processing that obtains, and sends to host computer by the CAN bus and handles.The customer data base that host computer is set up during with the user RFID label information that obtains and local hair fastener by software is compared, and judges this user's identity, simultaneously judged result is sent to station power taking controller end by the CAN bus.When obtaining the return information of host computer, the CAN bus data Transmit-Receive Unit 2 of power taking controller receives and is forwarded to main control unit 1 with confirmation, main control unit 1 is separated the data content of reading the inside, and the relay in the opertaing device supply control unit 4 is controlled the power taking of equipment on the station, simultaneously in the storer of main control unit 1 with the model of equipment, service time and user mode field perform mark, and these data (response message) are sent to host computer by CAN bus data Transmit-Receive Unit 2 again, host computer is after receiving these data, bind together with the preceding information of once receiving user on this station and to deposit in the background devices database, realize the record of equipment operating position on this station.
The CAN bus protocol form that uses on the CAN bus, its data link layer is followed the CAN2.0 protocol specification, because the CAN bus protocol is short frame structure, every frame data length is 1~8 byte, as shown in Figure 3, the CAN application layer communication protocol adopts the Frame of maximum 8 byte lengths, and to improve the real-time of system, its frame structure comprises the data item of a byte destination address item, a byte source address item, a byte command item, a byte data length item, one to four byte.According to foregoing, as the application layer data content frame that sends to host computer by station for being 00 02 01 04 3A, 56 F4 0A, wherein first byte 00 expression purpose is a host computer, the station address of second byte 02 expression transmission signal is 02, the 3rd byte 01 is that command entry is expressed as transmission RFID label information, the length of 04 expression data is 4 bytes, and 3A 56 F4 0A thereafter are the data of 4 byte lengths.
Claims (3)
1. equipment power taking management system based on RFID and CAN bussing technique, it is characterized in that: comprise power taking controller, CAN standard interface equipment and host computer, a power taking controller is installed on each station, each power taking controller is corresponding to be connected with an electric kind equipment, and all power taking controllers all insert the CAN bus and link to each other with host computer by the CAN standard interface equipment.
2. the equipment power taking management system based on RFID and CAN bussing technique according to claim 1, it is characterized in that: described power taking controller comprises main control unit (1), CAN bus data Transmit-Receive Unit (2), RFID read-write cell (3), power devices control module (4) and power supply (5), main control unit (1) respectively with CAN bus data Transmit-Receive Unit (2), RFID read-write cell (3) and two-way connection of power devices control module (4), CAN bus data Transmit-Receive Unit (2) inserts the CAN bus, power devices control module (4) is connected with corresponding electric kind equipment, and power supply (5) is given main control unit (1) respectively, CAN bus data Transmit-Receive Unit (2), RFID read-write cell (3) and power devices control module (4) power supply.
3. the equipment power taking management system based on RFID and CAN bussing technique according to claim 1 is characterized in that: described CAN bus is connected with the COM end of host computer by DB9 CAN standard interface equipment.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010202030333U CN201681422U (en) | 2010-05-25 | 2010-05-25 | Equipment power-extracting management system based on RFID and CAN bus technology |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010202030333U CN201681422U (en) | 2010-05-25 | 2010-05-25 | Equipment power-extracting management system based on RFID and CAN bus technology |
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| Publication Number | Publication Date |
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| CN201681422U true CN201681422U (en) | 2010-12-22 |
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| CN2010202030333U Expired - Fee Related CN201681422U (en) | 2010-05-25 | 2010-05-25 | Equipment power-extracting management system based on RFID and CAN bus technology |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112291219A (en) * | 2020-10-22 | 2021-01-29 | 格力博(江苏)股份有限公司 | Communication interaction method and system |
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2010
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Cited By (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112291219A (en) * | 2020-10-22 | 2021-01-29 | 格力博(江苏)股份有限公司 | Communication interaction method and system |
| CN112291219B (en) * | 2020-10-22 | 2023-06-13 | 格力博(江苏)股份有限公司 | Communication interaction method and system |
| US11996905B2 (en) | 2020-10-22 | 2024-05-28 | Globe (jiangsu) Co., Ltd. | Communication and interaction method and system |
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| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C17 | Cessation of patent right | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20101222 Termination date: 20110525 |