CN203224799U - A pit temperature measuring and monitoring system employing the Internet of Things - Google Patents

Abstract

The utility model relates to the technical field of the Internet of Things, and relates to a pit temperature measuring and monitoring system employing the Internet of Things. The pit temperature measuring and monitoring system employing the Internet of Things comprises a wireless router, a control terminal, and a plurality of temperature measurement sensor nodes. The temperature measurement sensor nodes are used for measuring temperature in a pit, obtaining measured temperature data, and further sending the measured temperature data to the wireless router in a wireless mode. The wireless router is used for sending the received temperature data to the control terminal through an RS485 interface. The control terminal is used for carrying out statistical analysis on the received temperature data according to preset rules and generating temperature statistical analysis results. The pit temperature measuring and monitoring system employing the Internet of Things of the utility model can raise the instantaneity degree of the temperature data measured in the pit, and can timely reflect the temperature condition in the pit.

Description

Pond, cellar for storing things thermometric Internet of Things monitoring system

Technical field

The utility model relates to the technology of Internet of things field, in particular to pond, cellar for storing things thermometric Internet of Things monitoring system.

Background technology

(for example make wine, make vinegar, soy sauce brewing) in the brewing industry, with brewage with material be placed on the cellar for storing things pond in the fermentation be an important link.The quality of the primary products that make in order to guarantee to ferment needs to measure the temperature in the pond, cellar for storing things during the fermentation.

In the correlation technique, measure temperature in the pond, cellar for storing things and generally be and manually utilize thermometer measure to store temperature in the pond, read temperature data at every turn after, the temperature data that reads is carried out record.When the manual record temperature data, the temperature displayed data may change on the thermometer, namely utilize the temperature data real-time of manual measurement record lower, can not in time reflect the concrete condition of fermentation in the pond, cellar for storing things.

The utility model content

The purpose of this utility model is to provide pond, cellar for storing things thermometric Internet of Things monitoring system, to solve the above problems.

Pond, a kind of cellar for storing things thermometric Internet of Things monitoring system is provided in embodiment of the present utility model, has comprised: wireless router, control terminal and a plurality of temperature probe node;

Described temperature probe node is used for measuring the temperature in the pond, cellar for storing things, and obtains the temperature data of measurement, and described temperature data is sent to described wireless router with wireless mode;

Described wireless router, the described temperature data that is used for receiving is transferred to described control terminal by the RS485 interface;

Described control terminal is used for the described temperature data that receives being carried out statistical study and generating the result that temperature statistics is analyzed according to default rule.

Pond, the cellar for storing things thermometric Internet of Things monitoring system of the utility model above-described embodiment, utilize the temperature in the pond, temperature probe node measurement cellar for storing things and obtain the temperature data of measurement, can sense the temperature variation of storing in the pond in real time by temperature sensor, and the temperature data that the temperature probe node is measured sends to control terminal by wireless router, can carry out statistical study to the temperature data that receives and generate the result that temperature statistics is analyzed according to preset rules at control terminal.The temperature data that temperature probe node place measures is transferred to control terminal and carries out the temperature statistics analysis, the time of data transmission is short, the temperature data that the control terminal place receives is the Current Temperatures data in the pond, cellar for storing things, can in time reflect the temperature conditions in the pond, cellar for storing things, compare the temperature data real-time height that the control terminal place receives with the temperature data of manual record in the correlation technique.Therefore pond, cellar for storing things of the present utility model thermometric can make the temperature data real-time raising in the pond, cellar for storing things of measurement with the Internet of Things monitoring system.

Description of drawings

Fig. 1 shows the structural representation that pond, the utility model embodiment 1 cellar for storing things thermometric is used the Internet of Things monitoring system;

Fig. 2 shows the structural representation that pond, the utility model embodiment 2 cellar for storing things thermometric is used the Internet of Things monitoring system;

Fig. 3 shows the structural representation of the utility model embodiment 2 temperature probe nodes.

Description of drawings: 11-temperature probe node, 12-wireless router, 13-control terminal, 14-data display device, the 15-switch, 16-radio transmitting device, 17-remote monitoring end, 1-display, 2-temperature data acquisition device, 3-temperature data transmitter, 4-timer, 5-thermo detector.

Embodiment

Also by reference to the accompanying drawings the utility model is described in further detail below by specific embodiment.

Embodiment 1

Present embodiment 1 provides pond, a kind of cellar for storing things thermometric Internet of Things monitoring system, and as shown in Figure 1, this system mainly comprises: wireless router 12, control terminal 13 and a plurality of temperature probe node 11;

Temperature probe node 11 is used for measuring the temperature in the pond, cellar for storing things, and obtains the temperature data of measurement, and described temperature data is sent to wireless router 12 with wireless mode;

Wireless router 12, the described temperature data that is used for receiving is transferred to control terminal 13 by the RS485 interface;

The RS485 interface adopts the differential signal negative logic ,+2V～+ 6V represents " 0 " ,-6V～-2V represents " 1 ".The RS485 interface has two-wire system and two kinds of modes of connection of four-wire system, and four-wire system is the full duplex communication mode, and two-wire system is the half duplex communication mode.

Control terminal 13 is used for the described temperature data that receives being carried out statistical study and generating the result that temperature statistics is analyzed according to default rule.

Pond, the cellar for storing things thermometric Internet of Things monitoring system of present embodiment, utilizing temperature probe node 11 to measure stores the temperature in the pond and obtains the temperature data of measurement, can sense the temperature variation of storing in the pond in real time by temperature sensor, and the temperature data that temperature probe node 11 is measured sends to control terminal 13 by wireless router 12, can carry out statistical study to the temperature data that receives and generate the result that temperature statistics is analyzed according to preset rules at control terminal 13.The temperature data that temperature probe node 11 places measure is transferred to control terminal 13 and carries out the temperature statistics analysis, the time of data transmission is short, the temperature data that control terminal 13 places receive is the Current Temperatures data in the pond, cellar for storing things, can in time reflect the temperature conditions in the pond, cellar for storing things, compare the temperature data real-time height that control terminal 13 places receive with the temperature data of manual record in the correlation technique.Therefore pond, cellar for storing things of the present utility model thermometric can make the temperature data real-time raising in the pond, cellar for storing things of measurement with the Internet of Things monitoring system.

Embodiment 2

Present embodiment 2 provides a kind of preferred embodiment that the pond thermometric is used the Internet of Things monitoring system of storing on the basis of embodiment 1, as shown in Figure 2, this system mainly comprises: wireless router 12, control terminal 13 and a plurality of temperature probe node 11;

Temperature probe node 11 is used for measuring the temperature in the pond, cellar for storing things, and obtains the temperature data of measurement, and described temperature data is sent to wireless router 12 with wireless mode;

Wireless router 12, the described temperature data that is used for receiving is transferred to control terminal 13 by the RS485 interface;

Control terminal 13 is used for the described temperature data that receives being carried out statistical study and generating the result that temperature statistics is analyzed according to default rule.

In the present embodiment, the quantity of temperature probe node 11 has a plurality of, only draws 3 as example in Fig. 2.

When temperature probe node 11 was set, the needs according to pond, reality cellar for storing things thermometric can arrange one or more temperature probe nodes 11 in each stores the pond, measure the temperature in the pond, cellar for storing things in real time.

The temperature data that each temperature probe node 11 acquires sends to wireless router 12 with wireless mode, by wireless router 12 temperature data is sent to control terminal 13.

Though wherein the mode of transmission data can be wired mode between temperature probe node 11 and the wireless router 12, but if the temperature data that adopts wired mode that temperature probe node 11 is obtained sends to wireless router 12, employed circuit not only occupies the production space, and if the quantity of circuit often can increase the difficulty of line management.Further, if temperature probe node 11 and wireless router 12 wired connections, can't in time clean the circuit zone of banking up, the plague of rats, insect pest take place easily.So the temperature data that temperature probe node 11 obtains sends to wireless router 12 with wireless mode.

After wireless router 12 receives the temperature data of temperature probe node 11 transmissions, the temperature data that receives is sent to control terminal 13 by the RS485 interface, the temperature data that receives is carried out statistical study and generate the result that temperature statistics is analyzed according to default rule at control terminal 13.

After control terminal 13 places receive temperature data, by preset rules the temperature data that receives is carried out statistical study, particularly can for, temperature when records material in control terminal 13 places goes into to store is calculated intensification amplitude in the pond, cellar for storing things, heating rate, top temperature, the data relevant with temperature analyzed of needs during the fermentation such as warm fate very according to the temperature data that receives at every turn.

Further, the result of the temperature statistics analysis that generates at control terminal 13 places has multiple display form, for example show with the form of temperature-time curve or form that the result of the temperature statistics analysis that generates also can adopt other exhibition method certainly, enumerates no longer one by one herein.

As shown in Figure 2, intuitively show for the The result of statistics that control terminal 13 is generated, in this system, also comprise: data display device 14; Data display device 14 is used for the The result of statistics that described control terminal 13 generates is showed by default form; And data display device 14 is connected with control terminal 13 by the RS232 serial port connecting wire.

The RS232 interface is serial binary data exchange standard interface between data terminal equipment and the data communications equipment.

Further, can be used in device that the result of the temperature statistics analysis that control terminal 13 is generated shows has multiplely, and preferably, the device of data display described in the present embodiment 14 is light emitting diode (LED) display device.The result of the temperature statistics analysis that control terminal 13 can be generated by the LED display device shows, the statistic analysis result of temperature displayed data is understood the situation of material fermentation in the pond, cellar for storing things in real time on the personnel that control of Production Regional can be by the LED display device, and can the result of fermentation be predicted according to the situation of data display.

In the fermentation industry, if can be in detail and grasp the various fermentation parameters of current sweat exactly, then can carry out accurately and timely adjusting to the interpolation of next round fermentation materials and other technological parameter of going into the cellar for storing things according to the fermentation parameter of grasping, guarantee to reach optimum ferment effect.

Particularly, the control terminal 13 in this system can adopt Siemens's industrial computer, and the user can be by the result of transmission control protocol/temperature data that the Internet interconnection protocol (TCP/IP) protocol access Siemens industrial computer inside obtains and the analysis of the temperature statistics of generation.

As shown in Figure 2, also comprise in this system: switch 15; Switch 15 is connected with control terminal 13 by netting twine, so control terminal 13 can be linked in the default network, is convenient to the concrete data that other staff can in time obtain storing fermentation in the pond.Particularly, switch 15 can adopt Siemens's switch 15.

In addition, as shown in Figure 2, also comprise in this system: radio transmitting device 16 and remote monitoring end 17;

Radio transmitting device 16, result for the temperature statistics analysis that described control terminal 13 is generated transfers to remote monitoring end 17 with wireless mode, this radio transmitting device 16 can adopt the canopy equipment of Motorola Inc. particularly, adopts canopy device transmission distance, fast, the stability height of transmission speed.

Remote monitoring end 17 is used for the result according to the temperature statistics analysis that receives, and the temperature environment in the pond, cellar for storing things is carried out remote monitoring.

Can carry out remote monitoring to the temperature environment in the pond, cellar for storing things by remote monitoring end 17, and 17 pairs of The result of statistics that receive of remote monitoring end can carry out further data and handle, thereby provide the data basis for material adjustment and relevant research and development in the pond, cellar for storing things.

In addition, the implementation structure of employed temperature probe node 11 has multiplely in this system, and present embodiment provides a kind of concrete structure of temperature probe node 11, as shown in Figure 3, described temperature probe node 11 comprises: thermo detector 5, temperature data acquisition device 2 and temperature data transmitter 3; Thermo detector 5 is used for measuring the temperature in the pond, cellar for storing things; Described temperature data acquisition device 2 is used for obtaining the temperature data of measurement; Temperature data transmitter 3 is used for described temperature data is sent to wireless router 12;

Thermo detector 5, temperature data acquisition device 2 and temperature data transmitter 3 connect successively.

Wherein temperature data acquisition device 2 is to read the temperature that thermo detector 5 is measured at interval by certain hour, and therefore described temperature probe node 11 also comprises: timer 4; Timer 4 is used for the time interval that design temperature data acquisition unit 2 obtains temperature data; Described timer 4 is connected with described temperature data acquisition device 2.By timer 4 can be set the time interval that temperature data acquisition device 2 reads the temperature that thermo detector 5 measures.

In addition, thermo detector 5 is the platinum resistor temperature measuring meter, the precision height that uses the fermentation temperature in the pond, platinum resistor temperature measuring instrumentation amount cellar for storing things to measure.

As shown in Figure 3, also be provided with display 1 on temperature probe node 11, described display 1 is used for the temperature data that displays temperature data acquisition unit 2 obtains, and display 1 is connected with temperature data acquisition device 2.Be convenient to temperature displayed data on the direct reading displayed device 1 by display 1.

Also be provided with shell on temperature probe node 11, described shell is arranged on outside thermo detector 5, temperature data acquisition device 2 and the temperature data transmitter 3, and the shell of setting plays the effect of support, protection.

Pond, cellar for storing things of the present utility model thermometric adopts three layers Internet of Things framework with the Internet of Things monitoring system, and this framework comprises phy-aware layer, transport network layer and application operating layer three part.Wherein, temperature probe node 11 is positioned at the phy-aware layer in this system, and it is equipped in the pond, cellar for storing things.And the 11 complete independent researches of temperature probe node, have independent intellectual property right.And temperature probe node 11 is connected with wireless router 12 by wireless mode, and networking is easy for installation.The temperature data transmitter 3 that arranges at temperature probe node 11 adopts the specialist high frequency design, and anti-electromagnetic interference capability is strong, has superpower through walls and long-distance transmissions performance.

Transport network layer comprises two parts.A part is the short range wireless transmission by wireless router 12, and wireless router 12 is communicated by letter with temperature probe node 11 by the wireless communication protocol of autonomous Design, converges temperature data.Another part is the long range wireless transmission of radio transmitting device 16, and wherein radio transmitting device 16 adopts the canopy equipment of Motorola Inc., long transmission distance, and transmission speed is fast, stability is high.Wireless router 12 is connected with control terminal 13 by RS485 type bus.Go back configuration switch 15 in addition, for example Siemens's switch 15, and control terminal 13 is inserted in the default network, are convenient to other staff person's visit.

At the application operating layer, be provided with control terminal 13 and LED display device, described terminal can be Siemens's industrial computer.The LED display device is connected with control terminal 13 by the RS232 serial line connection, and can show real time temperature curve or the temperature data of showing with other form at control terminal 13.

In fermentation industry, adopt pond, cellar for storing things of the present utility model thermometric can carry out real-time follow-up to the temperature variations of traditional zymotic with the Internet of Things monitoring system, real-time analysis, control dynamics to conventional solid-state yeastiness Prediction Parameters is greatly improved, for raising wine brewing quality and production stability in the big production, and raising wine brewing workman operative skill has qualitative leap.

Obviously, those skilled in the art should be understood that, above-mentioned each module of the present utility model or each step can realize with the general calculation device, they can concentrate on the single calculation element, perhaps be distributed on the network that a plurality of calculation elements form, alternatively, they can be realized with the executable program code of calculation element, thereby, they can be stored in the memory storage and be carried out by calculation element, perhaps they are made into each integrated circuit modules respectively, perhaps a plurality of modules in them or step are made into the single integrated circuit module and realize.Like this, the utility model is not restricted to any specific hardware and software combination.

The above is preferred embodiment of the present utility model only, is not limited to the utility model, and for a person skilled in the art, the utility model can have various changes and variation.All within spirit of the present utility model and principle, any modification of doing, be equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.

Claims (10)

1. pond, cellar for storing things thermometric Internet of Things monitoring system is characterized in that, comprising: wireless router, control terminal and a plurality of temperature probe node;

Described temperature probe node is used for measuring the temperature in the pond, cellar for storing things, and obtains the temperature data of measurement, and described temperature data is sent to described wireless router with wireless mode;

Described wireless router, the described temperature data that is used for receiving is transferred to described control terminal by the RS485 interface;

Described control terminal is used for the described temperature data that receives being carried out statistical study and generating the result that temperature statistics is analyzed according to default rule.

2. system according to claim 1 is characterized in that, also comprises: the data display device;

Described data display device, the result who is used for temperature statistics analysis that described control terminal is generated shows by default form;

Described data display device is connected with described control terminal by the RS232 serial port connecting wire.

3. system according to claim 1 is characterized in that, also comprises: switch; Described switch is connected with described control terminal by netting twine.

4. system according to claim 2 is characterized in that, described data display device is the LED display device.

5. system according to claim 1 is characterized in that, also comprises: radio transmitting device and remote monitoring end;

Described radio transmitting device is used for the temperature statistics analysis result that described control terminal generates is transferred to described remote monitoring end with wireless mode;

Described remote monitoring end is used for the result according to the temperature statistics analysis that receives, and the temperature environment in the pond, cellar for storing things is carried out remote monitoring.

6. system according to claim 1 is characterized in that, described temperature probe node comprises: thermo detector, temperature data acquisition device and temperature data transmitter;

Described thermo detector is used for measuring the temperature in the pond, cellar for storing things;

Described temperature data acquisition device is used for obtaining the temperature data of measurement;

Described temperature data transmitter is used for described temperature data is sent to wireless router;

Described thermo detector, described temperature data acquisition device and described temperature data transmitter connect successively.

7. system according to claim 6 is characterized in that, described temperature probe node also comprises: timer;

Described timer is used for setting the time interval that described temperature data acquisition device obtains temperature data;

Described timer is connected with described temperature data acquisition device.

8. system according to claim 6 is characterized in that, described thermometric is counted the platinum resistor temperature measuring meter.

9. system according to claim 6 is characterized in that, described temperature probe node also comprises: display;

Described display is used for the temperature data that shows that described temperature data acquisition device obtains;

Described display is connected with described temperature data acquisition device.

10. system according to claim 6 is characterized in that, described temperature probe node also comprises: shell;

Described shell is arranged on outside described thermo detector, temperature data acquisition device and the temperature data transmitter.

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