CN207007223U - A kind of grain depot supervisory systems based on big data analysis - Google Patents

Abstract

A kind of grain depot supervisory systems based on big data analysis, including host computer, big data processing center, grain quality monitoring system and grain circulation monitoring system；The host computer and big data processing center pass through wired or wireless way transceiving data.Grain storage information in silo is acquired by the utility model using multiple sensors, is monitored in real time by the first RFID device and progressively accumulation forms big data；Big data processing center is passed to by the first RFID device again to be stored and handled.Facilitate management of the grain depot management personnel to grain depot.By comprehensive fine end message management, storage of the grain in storehouse transports to obtain complete monitoring.Administrative staff can grasp stock and stock's quality information at any time, and the whole record for the information that circulates provides accurate foundation for the personnel assignment of stock control and business plan.

Description

A kind of grain depot supervisory systems based on big data analysis

Technical field

A kind of grain depot supervisory systems based on big data analysis is the utility model is related to, belongs to grain depot management technical field.

Background technology

Bread is the staff of life, and reliability, the security of grain storage concern national economy.Science, which protects grain, has important economy And social effect.Rational grain storage, transport, distribution, must can ensure that the quality of grain, quantity and timeliness.And many institutes It is known, because the goods attribute that grain is special, determine that grain has that quantity is big, disperses, is not easy statistical management, to environmental requirement The characteristics such as harshness.Currently, grain enterprise in various regions is all accelerating informatization energetically, makes " wisdom grain depot " and " wisdom grain ".Grain Cereal enterprises of the storehouse as Grain Trade most basic unit, more fully to use " internet+" intelligent platform, and " big data " Storage and analysis advantage for mass data, become the new kinetic energy of grain economy upgrading synergy.

RFID radio frequency identifications are a kind of contactless automatic identification technologies, and he passes through radio frequency identification signal automatic identification mesh Mark object simultaneously obtains data, and identification work is operable with various adverse circumstances without manual intervention.RFID identification is recognizable at a high speed Moving object simultaneously can identify multiple labels simultaneously, and the information content of storage is very big, swift and convenient to operate.

Utility model content

A kind of plurality of advantages that the utility model is analyzed using RFID and big data, there is provided grain depot based on big data analysis Supervisory systems.

The technical scheme that the utility model solves above-mentioned technical problem is as follows：A kind of grain depot supervision based on big data analysis System, including host computer, big data processing center, grain quality monitoring system and grain circulation monitoring system；

The grain quality monitoring system includes the first RFID device, sensor；First RFID device includes first RFID, the first transmit/receive antenna, the first card reader, grain depot is provided with first RFID Positional information, in sensor insertion silo, the sensor is connected to the first RFID, and first transmitting/ Reception antenna transmits radiofrequency signal, first card reader and host computer between the first card reader and the first RFID Between by wired or wireless way transceiving data, the host computer internal record there is the positional information of each grain depot and grain to deposit Amount；

The grain circulation monitoring system includes the second RFID device；Second RFID device includes the 2nd RFID electronics Label, the second transmit/receive antenna, the second card reader, second RFID are arranged on break bulk point or loading point, institute State and break bulk point or loading dot position information are provided with the second RFID, break bulk point waits to unload or freight a little to be loaded Types of food and weight information pass to the second RFID, second transmitting/reception by wired or wireless way Antenna transmits radiofrequency signal between the second card reader and the second RFID, between second card reader and host computer Pass through wired or wireless way transceiving data；

The host computer and big data processing center pass through wired or wireless way transceiving data.

First, second in the said equipment title simply names, and is not numbering, and quantity can be one or more.It is each Individual card reader can read the data of multiple RFIDs.

The action of above-mentioned grain depot supervisory systems：In grain quality monitoring system, set in the first RFID The positional information of grain depot is equipped with, host computer internal record has the positional information matched with each grain depot and grain storage, utilizes biography Sensor feeds back to the first RFID device after measuring the grain information in each silo, and the first transmit/receive antenna is in the first Card Reader Radiofrequency signal is transmitted between device and the first RFID.Then, the first card reader passes data to host computer.

In grain circulation monitoring system, break bulk point or loading dot position information are provided with the second RFID, Host computer internal record has matching information, and the grain weight obtained by general weighing-appliance is selected in break bulk point or loading Amount feedback of the information gives the second RFID, and the second transmit/receive antenna is in the second card reader and the second RFID Between transmit radiofrequency signal.Then, the second card reader passes data to host computer.Host computer is passed data at big data Reason center, big data processing center carry out processing integration to grain quality data and grain circulation data.

On the basis of above-mentioned technical proposal, the utility model can also do following improvement.

Further, the sensor is at least online moisture transducer, temperature sensor, humidity sensor, insect pest sensing One kind in device, oxygen sensor, carbon dioxide sensor, it is possible to achieve many factors of grain storage are monitored.

Further, in the top of the sensor insertion silo, bottom, inside or side wall, to realize that comprehensive monitoring is defined.

Further, first card reader and the first RFID and second card reader and the 2nd RFID electricity The distance of subtab is 5-50 rice.

Further, big data server, the power supply of the big data server are provided with the big data processing center End is connected to power module.

Further, the big data processing center also includes data cache server, display, the data buffer service Device is connected to the input of big data server, and the display is connected to the output end of big data server.

Further, the data cache server includes communicator and memory, the output end of the communicator and Input is connected with big data server respectively, and the input of the memory connects the communicator.Communicator is received and dispatched Data message, storage in memory, and send the data to big data server, finally shown by display.

The beneficial effect of grain depot supervisory systems of the present utility model based on big data analysis is：Will using multiple sensors Grain storage information (moisture, temperature, humidity, insect pest, oxygen, carbon dioxide etc.) is acquired in silo, passes through the first RFID Equipment monitors in real time and progressively accumulation forms big data；Big data processing center is passed to by the first RFID device again to be stored And processing.By comprehensive end message management, storage of the grain in storehouse transports to obtain complete monitoring.Administrative staff Stock and stock's quality information can be grasped at any time, and the whole record for the information that circulates is personnel assignment and the industry of stock control Business plan provides accurate foundation.

Brief description of the drawings

Fig. 1 is the structural representation of grain quality monitoring system；

Fig. 2 is the structural representation of grain circulation monitoring system；

Fig. 3 is the structural representation of big data processing center.

Embodiment

Principle of the present utility model and feature are described below in conjunction with accompanying drawing, example is served only for explaining this practicality It is new, it is not intended to limit the scope of the utility model.

A kind of grain depot supervisory systems based on big data analysis, including host computer, big data processing center, grain quality prison Examining system and grain circulation monitoring system.

Grain quality monitoring system includes at least a set of first RFID device, multiple sensors；Sensor includes online water At least one in sub-sensor, temperature sensor, humidity sensor, insect pest sensor, oxygen sensor, carbon dioxide sensor Kind, the diverse location on inside grain depot or surface can be arranged on according to grain depot size, to realize many factors to grain storage Carry out comprehensive monitoring.First RFID device includes the first RFID, the first transmit/receive antenna, the first Card Reader Device.The positional information of grain depot is provided with first RFID, the first RFID can be set according to grain depot situation It is multiple.Sensor is connected to the first RFID, and the first transmit/receive antenna is in the first card reader and the first RFID electronics Transmit radiofrequency signal between label, the first card reader passes data to host computer by wired or wireless way, in host computer Portion records the positional information and grain storage for having each grain depot；Host computer passes data to big number by wired or wireless way According to processing center.

Grain circulation monitoring system includes at least a set of second RFID device.Second RFID device includes the 2nd RFID electronics Label, the second transmit/receive antenna, the second card reader.Second RFID is arranged on break bulk point or point of freighting, and second Break bulk point or loading dot position information are provided with RFID, break bulk point, which is waited to unload or freighted, selects grain kind to be loaded Class and weight information pass to the second RFID by wired or wireless way.Second transmit/receive antenna is second Radiofrequency signal is transmitted between card reader and the second RFID, the second card reader is passed data by wired or wireless way Host computer is passed, host computer passes data to big data processing center by wired or wireless way.

The power end of big data server is connected to power module, and big data service is provided with big data processing center Device, data cache server, display, display are connected to the output end of big data server.Data cache server includes Communicator and memory, the output end and input of communicator are connected with big data server respectively, the input of memory Hold connection communication device.Communicator transceiving data information, storage in memory, and send the data to big data service Device, finally shown by display.

Preferred embodiment of the present utility model is these are only, it is all in the utility model not to limit the utility model Spirit and principle within, any modification, equivalent substitution and improvements made etc., should be included in protection model of the present utility model Within enclosing.

Claims (4)

1. A kind of 1. grain depot supervisory systems based on big data analysis, it is characterised in that：Including host computer, big data processing center, Grain quality monitoring system and grain circulation monitoring system；

   The grain quality monitoring system includes the first RFID device, sensor；First RFID device includes the first RFID Electronic tag, the first transmit/receive antenna, the first card reader, the position of grain depot is provided with first RFID Information, the sensor are inserted in silo, and the sensor is connected to the first RFID, first transmitting/reception Antenna transmits radiofrequency signal between the first card reader and the first RFID, between first card reader and host computer By wired or wireless way transceiving data, the host computer internal record has the positional information and grain storage of each grain depot；

   The grain circulation monitoring system includes the second RFID device；Second RFID device includes the 2nd RFID electronics marks Label, the second transmit/receive antenna, the second card reader, second RFID is arranged on break bulk point or loading point, described Break bulk point or loading dot position information are provided with second RFID, break bulk point, which is waited to unload or freighted, selects grain to be loaded Food species and weight information pass to the second RFID, second transmitting/reception day by wired or wireless way Line transmits radiofrequency signal between the second card reader and the second RFID, leads between second card reader and host computer Cross wired or wireless way transceiving data；

   The host computer and big data processing center pass through wired or wireless way transceiving data；

   Big data server is provided with the big data processing center, the power end of the big data server is connected to power supply Module；

   The big data processing center also includes data cache server, display, and the data cache server is connected to greatly The input of data server, the display are connected to the output end of big data server；

   The data cache server includes communicator and memory, the output end and input of the communicator respectively with Big data server connects, and the input of the memory connects the communicator.
2. A kind of 2. grain depot supervisory systems based on big data analysis according to claim 1, it is characterised in that：The sensing Device is at least online moisture transducer, temperature sensor, humidity sensor, insect pest sensor, oxygen sensor, carbon dioxide and passed One kind in sensor.
3. A kind of 3. grain depot supervisory systems based on big data analysis according to claim 1, it is characterised in that：The sensing Device is inserted in top, bottom, inside or the side wall of silo.
4. A kind of 4. grain depot supervisory systems based on big data analysis according to claim 1, it is characterised in that：Described first The distance of card reader and the first RFID and second card reader and the second RFID is 5-50 rice.