CN204969417U - Long -range temperature monitoring system of solar energy tobacco flue -curing house - Google Patents

Abstract

The utility model relates to a long -range temperature monitoring system of solar energy tobacco flue -curing house, tobacco flue -curing house including the hot -blast room that is equipped with heating device, be equipped with a flue -cured tobacco chamber who hangs the cigarette frame, through air intake and return air inlet formation circular flue, heating device connects the heat exchange tube between flue -cured tobacco chamber and the hot -blast room, still be equipped with solar power system on the tobacco flue -curing house roof, monitoring system includes terminal, data radiated element and installs the temperature data collection component in the tobacco flue -curing house that component connection is gathered according to the radiated element with temperature data to the input number of pass at terminal. Use the utility model provides an interior temperature data of personnel timing acquisition tobacco flue -curing house, consequently use need not during monitoring system to arrange work the utility model provides a monitoring system can reach the mesh of practicing thrift manpower resources. Simultaneously the user can carry out real -time supervision through the temperature of a terminal in to a plurality of tobacco flue -curing houses, consequently the utility model provides a monitoring system has obtained the improvement in monitoring efficiency and monitoring precision.

Description

A kind of solar energy tobacco flue-curing house remote temperature monitoring system

Technical field

The utility model relates to tobacco leaf processing field, more specifically, relates to a kind of solar energy tobacco flue-curing house remote temperature monitoring system.

Background technology

At tobacco manufacture field, after winning fresh tobacco leaves, generally tobacco leaf is placed in tobacco flue-curing house and carries out processed.And the quality of this step of processed will directly have influence on the quality of the tobacco of manufacture.In order to accurate control can be carried out to this step, precise monitoring must be carried out to the temperature in tobacco flue-curing house when carrying out processed, then according to the result of monitoring, the temperature in tobacco flue-curing house being adjusted.

In prior art, general employing thermometer+artificial mode is monitored the temperature in tobacco flue-curing house, but the implementation of this monitoring mode needs the special temperature data arranged in staff's timing acquiring tobacco flue-curing house, this causes the waste of human resources undoubtedly.

And along with the development of technology, long-rangely this technical barrier is controlled to tobacco flue-curing house temperature be resolved, therefore a special kind of skill is developed, enable that staff is long-range to monitor the temperature in tobacco flue-curing house, then according to the result Long-distance Control tobacco flue-curing house temperature of monitoring, development prospect is had beyond doubt.

Utility model content

The utility model is the defect solving above prior art, provides a kind of solar energy tobacco flue-curing house remote temperature monitoring system, uses the remote monitoring that this system can realize solar energy tobacco flue-curing house temperature, thus saves human resources.

For realizing above utility model object, the technical scheme of employing is:

A kind of solar energy tobacco flue-curing house remote temperature monitoring system, described tobacco flue-curing house comprises the hot air chamber being provided with heater, the flue-cured tobacco room being provided with smoke hanging shelf, form cycle flue by air inlet and return air inlet between flue-cured tobacco room and hot air chamber, described heater connects heat exchanger tube;

Roof is also provided with device of solar generating to tobacco flue-curing house;

Described monitoring system comprises terminal, data transmission element and is arranged on the temperature data acquisition element in tobacco flue-curing house, and the input of terminal is connected with temperature data acquisition element by data transmission element.

In such scheme, temperature data acquisition element gathers the temperature data in tobacco flue-curing house and by data transmission element, temperature data is sent to terminal, and user gets final product the temperature data in Real-time Obtaining tobacco flue-curing house by terminal.So monitoring system can realize the remote monitoring to tobacco flue-curing house temperature.

Compared with traditional temperature monitoring mode, the temperature data without the need to arranging work in personnel's timing acquiring tobacco flue-curing house during the monitoring system using the utility model to provide, the monitoring system therefore using the utility model to provide can reach the object of saving human resources.Simultaneously when concrete enforcement, user can carry out Real-Time Monitoring by a station terminal to the temperature in multiple tobacco flue-curing house, and no matter the monitoring system that therefore the utility model provides is be obtained for raising in monitoring efficiency and monitoring accuracy.In addition, the general serviceability temperature meter of traditional temperature monitoring mode gathers the temperature data in tobacco flue-curing house, staff, when the temperature data that timing acquisition thermometer gathers, needs constantly to pass in and out tobacco flue-curing house, and turnover tobacco flue-curing house easily causes the heat losses in tobacco flue-curing house continually.And the monitoring system that the utility model provides, can automatically gather the temperature data in tobacco flue-curing house and temperature data is sent to terminal, user also can temperature in Real-Time Monitoring tobacco flue-curing house without the need to passing in and out tobacco flue-curing house, and its intelligence degree obtains and improves significantly.

Preferably, the quantity of described temperature data acquisition element is multiple, and multiple temperature acquisition element is arranged on each position in tobacco flue-curing house respectively.Generally be placed with tobacco leaf in tobacco flue-curing house, when therefore using heater to toast the tobacco leaf in tobacco flue-curing house, in tobacco flue-curing house, the temperature of each position easily just differs because of the iris action of tobacco leaf; And temperature data acquisition element can only gather the temperature data near its installation site in certain limit, the temperature data of therefore independent temperature data acquisition element collection truly can not reflect the temperature in tobacco flue-curing house.In order to make the more representative and authenticity of the temperature data of collection, the monitoring system that the utility model provides all is provided with temperature data acquisition element in the position that tobacco flue-curing house is different, thus the temperature data gathering each position of tobacco flue-curing house is sent to terminal, temperature data therefore for reference more meets the truth in tobacco flue-curing house.

Preferably, described temperature data acquisition element comprises temperature sensor and data handling component, and the output of temperature sensor is connected with data transmission element by data handling component.Temperature sensor is used for collecting temperature signal, and temperature signal obtains temperature data after data handling component process, and the temperature data of acquisition is transferred to data transmission element by data handling component.The general serviceability temperature meter of traditional temperature monitoring mode gathers the temperature data in tobacco flue-curing house, the precision of the temperature data of thermometer collection can only be accurate to 0.1, its degree of accuracy is lower, therefore the monitoring system that the utility model provides uses the higher temperature sensor of certainty of measurement to carry out collecting temperature data, the degree of accuracy of the temperature data gathered is higher, more truly can reflect the temperature conditions in tobacco flue-curing house.

Preferably, described data handling component comprises digital to analog converter and signal amplifier, and the output of temperature sensor is connected with data transmission element by signal amplifier, digital to analog converter.Signal amplifier is used for amplifying the temperature signal of temperature sensor collection, and digital to analog converter is used for carrying out digital-to-analogue conversion to the temperature signal be exaggerated, formation temperature data.

Preferably, described terminal comprises data reception component, final controlling element and display element, and the input of data reception component is connected with data transmission element, and the output of data reception component is connected with display element by final controlling element.Data reception component is for receiving temperature data and temperature data being transferred to final controlling element, and the temperature data of reception is shown by display element by final controlling element, and user, according to display element, can read the temperature data in tobacco flue-curing house in real time.

Preferably, described terminal also includes memory element and Key element, and memory element, Key element are connected with final controlling element.Memory element is used for the historical temperature data that storage terminal control element receives, and user, when these data consulted by needs, can be called by Key element and be shown by display element.

Preferably, described data transmission element, data reception component are wireless communication module, and data transmission element is connected with data reception component by wireless network.

Preferably, described wireless network is any one in GSM network, GPRS network, cdma network, EDGE network, EVDO network, WCDMA network, Wifi network.

Preferably, described data transmission element, data reception component are RF module.

Preferably, described terminal is smart mobile phone or panel computer.

Compared with prior art, the beneficial effects of the utility model are:

Temperature data without the need to arranging work in personnel's timing acquiring tobacco flue-curing house during the monitoring system using the utility model to provide, the monitoring system therefore using the utility model to provide can reach the object of saving human resources.Simultaneously when concrete enforcement, user can carry out Real-Time Monitoring by a station terminal to the temperature in multiple tobacco flue-curing house, and no matter the monitoring system that therefore the utility model provides is be obtained for raising in monitoring efficiency and monitoring accuracy.In addition, the general serviceability temperature meter of traditional temperature monitoring mode gathers the temperature data in tobacco flue-curing house, staff, when the temperature data that timing acquisition thermometer gathers, needs constantly to pass in and out tobacco flue-curing house, and turnover tobacco flue-curing house easily causes the heat losses in tobacco flue-curing house continually.And the monitoring system that the utility model provides, can automatically gather the temperature data in tobacco flue-curing house and temperature data is sent to terminal, user also can temperature in Real-Time Monitoring tobacco flue-curing house without the need to passing in and out tobacco flue-curing house, and its intelligence degree obtains and improves significantly.

Accompanying drawing explanation

Fig. 1 is the concrete structure schematic diagram of tobacco flue-curing house.

Fig. 2 is the structural representation of smoke hanging shelf.

Fig. 3 is the structural representation in montant cross section.

Fig. 4 is the structural representation of device of solar generating.

Fig. 5 is the structural representation of monitoring system.

Fig. 6 is the structural representation of monitoring system preferred version.

Fig. 7 is the change procedure figure of the concrete numerical value of temperature data in the bake process of terminal demonstration.

Detailed description of the invention

Accompanying drawing, only for exemplary illustration, can not be interpreted as the restriction to this patent;

Below in conjunction with drawings and Examples, the utility model is further elaborated.

Embodiment 1

As Figure 1-4, a kind of solar energy tobacco flue-curing house, wherein, comprise the hot air chamber 2 being provided with heater 4, the flue-cured tobacco room 1 being provided with smoke hanging shelf 3, form cycle flue by air inlet 5 and return air inlet 6 between flue-cured tobacco room 1 and hot air chamber 2, heater 4 connects heat exchanger tube 7;

Hot air chamber 2 bottom is provided with the first blower fan 9 near air inlet 5, and the opposite position of bottom, flue-cured tobacco room 1 and the first blower fan 9 is provided with the second blower fan 91 to up-draught; Smoke hanging shelf 3 comprises the vertical montant 31 of setting, the cross bar 32 of horizontally set, and montant 31 is provided with the Access Division 311 of multiple clamping cross bar 32;

Tobacco flue-curing house roof is also provided with device of solar generating 01.

In the present embodiment, air inlet 5 aimed at by first blower fan 9, make hot blast blow to flue-cured tobacco room 1 from hot air chamber 2, and the sidewall bottom of flue-cured tobacco room 1 is located at by the second blower fan 91, make the hot blast blown out from the first blower fan 9 accelerate to rise in side-walls, then be back in hot air chamber 2 by return air inlet 6.

And montant 31 is provided with the Access Division 311 of multiple clamping cross bar, during use, tobacco leaf is fixedly hung on cross bar 32, and after being provided with Access Division 311, cross bar can be connected to the position of differing heights on montant, adapt to the requirement of different size and size tobacco leaf, made tobacco leaf drop on the ground after fixation.In addition, Height Adjustable owing to being provided with Access Division 311 rear transverse rod, make user hang tobacco leaf and collect tobacco leaf process in convenient, during as hung tobacco leaf, first cross bar can be connected to the position meeting user's height, after fixedly mounting, then this cross bar is adjusted to other height and position by instrument, the process collecting tobacco leaf is also similar.

In the present embodiment, be the inclined-plane of the first blower fan 9 wind direction far-end higher than near-end bottom flue-cured tobacco room 1.Access Division 311 is around being located at montant 31 circumferential exterior.Flue-cured tobacco room 1 sidewall is provided with moisture exhausting port 10.Moisture exhausting port 10 is provided with dehumidifier 11.

The design of flue-cured tobacco room 1 bottom bevel better can guide the rising of flue gas stream.Access Division 311 is more convenient around being located at when montant 31 circumferential exterior makes to install cross bar, can regulate the position of cross bar at any time.Along with the raising of baking efficiency, flue-cured tobacco room 1 arranges corresponding moisture exhausting port 10 and dehumidifier 11 can improve hydrofuge performance.

Device of solar generating 01 comprises photovoltaic battery panel 101, the charging-discharging controller 102 be connected with photovoltaic battery panel 101, the battery 105 be connected with charging-discharging controller 102, the DC/AC inverter 103 that is connected with charging-discharging controller 102, and DC/AC inverter 103 connects AC load 104.

The electricity that photovoltaic battery panel 101 produces is by charging-discharging controller 102 and DC/AC inverter 103 for AC load 104 provides electric power, and in the non-electric situation of AC load 104, this electricity input battery 105 is for subsequent use.In the utility model, AC load 104 is the first blower fan 9, second blower fan 91, dehumidifier 11 etc.

Be directed to this kind of tobacco flue-curing house design, the monitoring system that the utility model provides as shown in Figure 5, comprise terminal, data transmission element and be arranged on the temperature data acquisition element in tobacco flue-curing house, the input of terminal is connected with temperature data acquisition element by data transmission element.

In such scheme, temperature data acquisition element gathers the temperature data in tobacco flue-curing house and by data transmission element, temperature data is sent to terminal, and user gets final product the temperature data in Real-time Obtaining tobacco flue-curing house by terminal.So monitoring system can realize the remote monitoring to tobacco flue-curing house temperature.

Compared with traditional temperature monitoring mode, the temperature data without the need to arranging work in personnel's timing acquiring tobacco flue-curing house during the monitoring system using the utility model to provide, the monitoring system therefore using the utility model to provide can reach the object of saving human resources.Simultaneously when concrete enforcement, user can carry out Real-Time Monitoring by a station terminal to the temperature in multiple tobacco flue-curing house, and no matter the monitoring system that therefore the utility model provides is be obtained for raising in monitoring efficiency and monitoring accuracy.In addition, the general serviceability temperature meter of traditional temperature monitoring mode gathers the temperature data in tobacco flue-curing house, staff, when the temperature data that timing acquisition thermometer gathers, needs constantly to pass in and out tobacco flue-curing house, and turnover tobacco flue-curing house easily causes the heat losses in tobacco flue-curing house continually.And the monitoring system that the utility model provides, can automatically gather the temperature data in tobacco flue-curing house and temperature data is sent to terminal, user also can temperature in Real-Time Monitoring tobacco flue-curing house without the need to passing in and out tobacco flue-curing house, and its intelligence degree obtains and improves significantly.

Fig. 7 is the change procedure figure of the concrete numerical value of temperature data in the bake process of terminal demonstration, described temperature data acquisition is in the implementation process of tobacco leaf three-phase-drying for tobacco technique, described tobacco leaf three-phase-drying for tobacco technique comprises three phases, be respectively the yellowing stage performed successively, fixation stage and dry muscle stage, described tobacco leaf is inferior leads, as shown in Figure 7, initial temperature in tobacco flue-curing house is 25 DEG C, at yellowing stage, temperature in tobacco flue-curing house intensification per hour 1 DEG C, heating-up time is probably 12 hours, when temperature in tobacco flue-curing house arrives 38 DEG C, the temperature in tobacco flue-curing house is kept to be 38 DEG C, retention time is 16 hours, tobacco leaf yellowing degree is made to reach blue veins pornographic movie, degree of drying reaches wilting and feels like jelly.Then be warming up to 39 ~ 41 DEG C, and keep the temperature in tobacco flue-curing house be 39 ~ 41 DEG C about 16 hours, make canopy master pulse medium-soft at the bottom of pornographic movie blue veins.Then the fixation stage is entered, temperature in every 4 hours of fixation stage tobacco flue-curing house rises 1 DEG C, until 42 DEG C, before 42 DEG C, ensure that blade is entirely yellow, blade fully falls down, and make the temperature in tobacco flue-curing house keep 42 DEG C, retention time is about 12 hours, after this rises 1 DEG C until 46 DEG C with 3 hours, and keep 46 DEG C about 10 hours, make tobacco leaf master pulse entirely yellow, blade hooks sharp crimping.After tobacco leaf change reaches requirement, liter per hour 1 DEG C until the temperature stabilization in tobacco flue-curing house is at 54 DEG C, and kept this temperature conditions in 26 hours, ensured that full a heatable brick bed blade fixation is dry, promoted that tobacco leaf is roasting fragrant.Finally enter the dry muscle stage, the temperature in tobacco flue-curing house rises to from 54 DEG C and is stabilized in 68 DEG C, and the heating-up time is about 12 hours, and programming rate is 1 DEG C per hour, makes tobacco flue-curing house keep this temperature about 15 hours after being stabilized in 68 DEG C.The dry muscle stage can ensure that tobacco leaf master pulse is absolutely dry and make tobacco present orange colour through baking.As shown in Figure 7, it is for reference that terminal can show the temperature data in each stage in bake process, even if user is thousands of miles away, and also can temperature conditions in Real-Time Monitoring tobacco flue-curing house, so the monitoring system that the utility model provides, its automation, intelligence degree are greatly improved.

Wherein, the quantity of temperature data acquisition element is multiple, and multiple temperature acquisition element is arranged on each position in tobacco flue-curing house respectively.Generally be placed with tobacco leaf in tobacco flue-curing house, when therefore using heater to toast the tobacco leaf in tobacco flue-curing house, in tobacco flue-curing house, the temperature of each position easily just differs because of the iris action of tobacco leaf; And temperature data acquisition element can only gather the temperature data near its installation site in certain limit, the temperature data of therefore independent temperature data acquisition element collection truly can not reflect the temperature in tobacco flue-curing house.In order to make the more representative and authenticity of the temperature data of collection, the monitoring system that the utility model provides all is provided with temperature data acquisition element in the position that tobacco flue-curing house is different, thus the temperature data gathering each position of tobacco flue-curing house is sent to terminal, temperature data therefore for reference more meets the truth in tobacco flue-curing house.

In the present embodiment, as shown in Figure 6, temperature data acquisition element comprises temperature sensor and data handling component, and the output of temperature sensor is connected with data transmission element by data handling component.Temperature sensor is used for collecting temperature signal, and temperature signal obtains temperature data after data handling component process, and the temperature data of acquisition is transferred to data transmission element by data handling component.The general serviceability temperature meter of traditional temperature monitoring mode gathers the temperature data in tobacco flue-curing house, the precision of the temperature data of thermometer collection can only be accurate to 0.1, its degree of accuracy is lower, therefore the monitoring system that the utility model provides uses the higher temperature sensor of certainty of measurement to carry out collecting temperature data, the degree of accuracy of the temperature data gathered is higher, more truly can reflect the temperature conditions in tobacco flue-curing house.

Wherein data handling component comprises digital to analog converter and signal amplifier, and the output of temperature sensor is connected with data transmission element by signal amplifier, digital to analog converter.Signal amplifier is used for amplifying the temperature signal of temperature sensor collection, and digital to analog converter is used for carrying out digital-to-analogue conversion to the temperature signal be exaggerated, formation temperature data.

In the present embodiment, as shown in Figure 6, terminal comprises data reception component, final controlling element and display element, and the input of data reception component is connected with data transmission element, and the output of data reception component is connected with display element by final controlling element.Data reception component is for receiving temperature data and temperature data being transferred to final controlling element, and the temperature data of reception is shown by display element by final controlling element, and user, according to display element, can read the temperature data in tobacco flue-curing house in real time.In concrete implementation process, terminal also includes memory element and Key element, and memory element, Key element are connected with final controlling element.Memory element is used for the historical temperature data that storage terminal control element receives, and user, when these data consulted by needs, can be called by Key element and be shown by display element.

In the present embodiment, state data transmission element, data reception component is wireless communication module, data transmission element is connected with data reception component by wireless network.Wireless network is any one in GSM network, GPRS network, cdma network, EDGE network, EVDO network, WCDMA network, Wifi network.

Obviously, above-described embodiment of the present utility model is only for the utility model example is clearly described, and is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here exhaustive without the need to also giving all embodiments.All do within spirit of the present utility model and principle any amendment, equivalent to replace and improvement etc., within the protection domain that all should be included in the utility model claim.

Claims (10)

1. a solar energy tobacco flue-curing house remote temperature monitoring system, described tobacco flue-curing house comprises the hot air chamber (2) being provided with heater (4), the flue-cured tobacco room (1) being provided with smoke hanging shelf (3), form cycle flue by air inlet (5) and return air inlet (6) between flue-cured tobacco room (1) and hot air chamber (2), described heater (4) connects heat exchanger tube (7);

Tobacco flue-curing house roof is also provided with device of solar generating (01);

It is characterized in that: described monitoring system comprises terminal, data transmission element and is arranged on the temperature data acquisition element in tobacco flue-curing house, and the input of terminal is connected with temperature data acquisition element by data transmission element.

2. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 1, is characterized in that: the quantity of described temperature data acquisition element is multiple, and multiple temperature acquisition element is arranged on each position in tobacco flue-curing house respectively.

3. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 2, it is characterized in that: described temperature data acquisition element comprises temperature sensor and data handling component, and the output of temperature sensor is connected with data transmission element by data handling component.

4. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 3, it is characterized in that: described data handling component comprises digital to analog converter and signal amplifier, the output of temperature sensor is connected with data transmission element by signal amplifier, digital to analog converter.

5. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 2, it is characterized in that: described terminal comprises data reception component, final controlling element and display element, the input of data reception component is connected with data transmission element, and the output of data reception component is connected with display element by final controlling element.

6. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 5, it is characterized in that: described terminal also includes memory element and Key element, memory element, Key element are connected with final controlling element.

7. the solar energy tobacco flue-curing house remote temperature monitoring system according to any one of claim 1 ~ 6, it is characterized in that: described data transmission element, data reception component are wireless communication module, and data transmission element is connected with data reception component by wireless network.

8. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 7, is characterized in that: described wireless network is any one in GSM network, GPRS network, cdma network, EDGE network, EVDO network, WCDMA network, Wifi network.

9. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 7, is characterized in that: described data transmission element, data reception component are RF module.

10. solar energy tobacco flue-curing house remote temperature monitoring system according to claim 7, is characterized in that: described terminal is smart mobile phone or panel computer.