CN205642644U - Long -range wireless monitoring system of bulky concrete temperature - Google Patents

Abstract

The utility model discloses a long -range wireless monitoring system of bulky concrete temperature, include: power supply unit, controller, temperature sensing device, server and terminal, power supply unit with the controller is connected, the controller respectively with the server temperature sensing device establishs radio communication and connects, the server with the radio communication connection is establish at the terminal, wherein, temperature sensing device with the frequency value of the radio communication frequency channel between the controller is different from the controller with the frequency value of the second communication frequency channel between the server. The utility model provides a long -range wireless monitoring system of bulky concrete temperature has convenient, the quick accuracy of easy operation, advantage that real -time supervision is good.

Description

Mass concrete temperature remote wireless monitoring system

Technical field

This utility model relates to mass concrete temperature monitoring field, particularly to a kind of mass concrete temperature remote wireless monitoring system.

Background technology

In recent years, along with high-rise, high-rise building constantly rise and development, the application of mass concrete is the most extensive.Mass concrete exists that hydration heat of cement is big, concrete internal temperature and the problem such as temperature differs greatly, thus is easily caused inside concrete and produces thermal cracking.Traditional mass concrete temperature monitoring mostly is personal monitoring, thermometric process wastes time and energy, and speed is relatively slow, recording process is easily made mistakes, and cannot be carried out monitoring in real time at the initial stage that mass concrete internal temperature rises rapidly, it is difficult to provide infallible data for Engineering Technician.

Along with the development of building industry and improving constantly of people's safe production awareness, it is provided that a kind of temperature monitoring system simple to operate, that monitoring real-time is good becomes the most important research topic.

Summary of the invention

This utility model is based on above one or more problem, it is provided that a kind of mass concrete temperature remote wireless monitoring system, in order to solve the problem of artificial monitoring difference in real time present in prior art.

A kind of mass concrete temperature remote wireless monitoring system, including: supply unit, controller, temperature sensing device, server and terminal, described supply unit is connected with described controller, described controller is set up radio communication with described server, described temperature sensing device respectively and is connected, described server is set up radio communication with described terminal and is connected, wherein, the frequency values of the second communications band that the frequency values of the first wireless communication frequency band between described temperature sensing device and described controller is different between described controller and described server.

Preferably, the first wireless communication frequency band is 100 ~ 400MHz wireless communication frequency band, and described second wireless communication frequency band is GPRS wireless transmission band.

Preferably, described temperature sensing device specifically includes: temperature detecting unit, analog acquisition unit, control unit, power subsystem and wireless communication unit, described power subsystem provides working power for described temperature sensing device, described control unit connects described analog acquisition unit and described wireless communication unit respectively, described analog acquisition unit is connected with described temperature detecting unit, the temperature signal that described temperature detecting unit detects is converted to analogue signal, and described control unit is sent to described controller by wireless communication unit after receiving described analogue signal.

Preferably, described temperature detecting unit includes processing module, multiple detection sensor and analyzes module, the plurality of detection sensor is in the diverse location of environment, producing sub-temperature signal respectively, described processing module controls described analysis module and is sent successively by separated in time after the prioritization of degree of danger by the sub-temperature signal of each detection sensor.

Preferably, described controller also includes A/D signal conversion unit, and the described analogue signal received by described controller is converted to digital signal.

Preferably, described controller also includes comparing unit, and for the value of described digital signal being compared with a controlling alarm reference value, when the value of described digital signal is more than described controlling alarm reference value, the most described controller sends an alarm signal.

Preferably, described terminal also includes alarm unit, after described terminal receives described alarm signal, starts described alarm unit prompting user.

Preferably, described alarm unit is audible alarm module or vibration module, and described audible alarm module reminds user with speech form, and described vibration module reminds user by the way of vibration terminal.

Preferably, described terminal is mobile terminal or PC terminal.

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

The mass concrete temperature remote wireless monitoring system that this utility model provides has low in energy consumption, and stand-by time is long, and no signal is disturbed, and the advantage that remote real-time monitoring is good.

Accompanying drawing explanation

Fig. 1 is the structural representation of the mass concrete temperature remote wireless monitoring system of this utility model better embodiment；

Fig. 2 is the structural representation of the temperature sensing device in Fig. 1.

Detailed description of the invention

With embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.If it should be noted that do not conflict, each feature in this utility model embodiment and embodiment can be combined with each other, all within protection domain of the present utility model.

Please also refer to Fig. 1, Fig. 2, Fig. 1 is the structural representation of the mass concrete temperature remote wireless monitoring system of this utility model better embodiment.Fig. 2 is the structural representation of the temperature sensing device in Fig. 1.As depicted in figs. 1 and 2, this utility model provides a kind of mass concrete temperature remote wireless monitoring system, including: supply unit 10, controller 30, temperature sensing device 20, server 40 and terminal 50, described supply unit 10 is connected with described controller 30, described controller 30 respectively with described server 40, described temperature sensing device 20 is set up radio communication and is connected, described server 40 is set up radio communication with described terminal 50 and is connected, wherein, the frequency values of the second communications band that the frequency values of the first wireless communication frequency band between described temperature sensing device 20 and described controller 30 is different between described controller and described server.Wherein, server can use Cloud Server.

The mass concrete temperature remote wireless monitoring system that this utility model provides has low in energy consumption, and stand-by time is long, and no signal is disturbed, and the advantage that remote real-time monitoring is good.

Specifically, the first wireless communication frequency band is 100 ~ 400MHz wireless communication frequency band, and described second wireless communication frequency band is GPRS wireless transmission band.Certainly, the first wireless communication frequency band may also be configured to be suitable to other frequency range of junction service, and the second wireless communication frequency band may be configured as being easy to other frequency range of telecommunication, will not produce signal disturbing between the two preferable in signal transmission.

In the particular embodiment, described temperature sensing device 20 specifically includes: temperature detecting unit 22, analog acquisition unit 23, control unit 24, power subsystem 21 and wireless communication unit 25, described power subsystem 21 provides working power for described temperature sensing device 20, described control unit 24 connects described analog acquisition unit 23 and described wireless communication unit 25 respectively, described analog acquisition unit 23 is connected with described temperature detecting unit 22, the temperature signal that described temperature detecting unit 22 detects is converted to analogue signal, described control unit 24 is sent to described controller 30 by wireless communication unit 25 after receiving described analogue signal.Additionally, be the accuracy being further ensured that collecting temperature signal, it is also possible to arranging and prevent probe unit by mistake, the temperature signal detecting described temperature detecting unit 22 carries out true and false examination, prevents erroneous judgement, causes unnecessary man power and material to lose.

In a variant embodiment, described temperature detecting unit 22 includes processing module, multiple detection sensor and analyzes module, the plurality of detection sensor is in the diverse location of environment, producing sub-temperature signal respectively, described processing module controls described analysis module and is sent successively by separated in time after the prioritization of degree of danger by the sub-temperature signal of each detection sensor.Here priority level can arrange A, B, C tri-grades, when being in A level, illustrate to detect breakneck signal, need to send user the most in time to know, when belonging to B level, illustrate dangerous slight, but need call user's attention, when belonging to C level, illustrate to be in normal condition, then can send by the time interval of systemic presupposition.

In a specific embodiment, described controller 30 also includes A/D signal conversion unit, and the described analogue signal received by described controller is converted to digital signal.Then the electrical signal data of digital signal is processed by controller, and the data after processing send controller 30 to by radio band timing, the data that control unit is transmitted through by controller 30 are packaged into and meet the data of GPRS agreement and wirelessly send Cloud Server, the APP softward interview that user installs in using smart mobile phone data after Cloud Server analyzes and processes.

In a specific embodiment, described controller 30 also includes comparing unit, for the value of described digital signal being compared with a controlling alarm reference value, when the value of described digital signal is more than described controlling alarm reference value, the most described controller 30 sends an alarm signal.

In a specific embodiment, described terminal 50 also includes alarm unit, after described terminal receives described alarm signal, starts described alarm unit prompting user.

In a specific embodiment, described alarm unit is audible alarm module or vibration module, and described audible alarm module reminds user with speech form, and described vibration module reminds user by the way of vibration terminal 50.

In a specific embodiment, described terminal 50 is mobile terminal or PC(personal computer) terminal.Further, described mobile terminal is panel computer or smart mobile phone.APP client or pc client that user installs in using smart mobile phone access the data after server analysis processes.This mass concrete temperature remote wireless monitoring system can not only realize remote wireless transmission, it is ensured that the real-time of monitoring and motility, and APP client or the pc client installed in mobile phone can regularly carry out monitoring temperature simultaneously.In actual monitoring works, generally set the aforementioned controlling alarm reference value criterion as early warning to temperature, according to " mass concrete construction specification " GB 50496-2009 related request, fast and accurately mass concrete internal temperature can be made dynamic early-warning evaluation.When temperature reaches controlling value, the APP client installed in mobile phone or pc client are by automatic alarm.

The foregoing is only embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure utilizing this utility model description and accompanying drawing content to be made or equivalence flow process conversion; or directly or indirectly it is used in other relevant technical fields, the most in like manner it is included in scope of patent protection of the present utility model.

Claims (10)

1. a mass concrete temperature remote wireless monitoring system, it is characterized in that, including: supply unit, controller, temperature sensing device, server and terminal, described supply unit is connected with described controller, described controller respectively with described server, described temperature sensing device is set up radio communication and is connected, described server is set up radio communication with described terminal and is connected, wherein, the frequency values of the second communications band that the frequency values of the first wireless communication frequency band between described temperature sensing device and described controller is different between described controller and described server.

2. mass concrete temperature remote wireless monitoring system as claimed in claim 1, it is characterised in that the first wireless communication frequency band is 100 ~ 400MHz wireless communication frequency band, and described second wireless communication frequency band is GPRS wireless transmission band.

3. mass concrete temperature remote wireless monitoring system as claimed in claim 1, it is characterized in that, described temperature sensing device specifically includes: temperature detecting unit, analog acquisition unit, control unit, power subsystem and wireless communication unit, described power subsystem provides working power for described temperature sensing device, described control unit connects described analog acquisition unit and described wireless communication unit respectively, described analog acquisition unit is connected with described temperature detecting unit, the temperature signal that described temperature detecting unit detects is converted to analogue signal, described control unit is sent to described controller by wireless communication unit after receiving described analogue signal.

4. mass concrete temperature remote wireless monitoring system as claimed in claim 3, it is characterized in that, described temperature detecting unit includes processing module, multiple detection sensor and analyzes module, the plurality of detection sensor is in the diverse location of environment, producing sub-temperature signal respectively, described processing module controls described analysis module and is sent successively by separated in time after the prioritization of degree of danger by the sub-temperature signal of each detection sensor.

5. mass concrete temperature remote wireless monitoring system as claimed in claim 3, it is characterised in that described controller also includes A/D signal conversion unit, and the described analogue signal received by described controller is converted to digital signal.

6. mass concrete temperature remote wireless monitoring system as claimed in claim 5, it is characterized in that, described controller also includes comparing unit, for the value of described digital signal is compared with a controlling alarm reference value, when the value of described digital signal is more than described controlling alarm reference value, the most described controller sends an alarm signal.

7. mass concrete temperature remote wireless monitoring system as claimed in claim 6, it is characterised in that described terminal also includes alarm unit, after described terminal receives described alarm signal, starts described alarm unit prompting user.

8. mass concrete temperature remote wireless monitoring system as claimed in claim 7, it is characterized in that, described alarm unit is audible alarm module or vibration module, and described audible alarm module reminds user with speech form, and described vibration module reminds user by the way of vibration terminal.

9. mass concrete temperature remote wireless monitoring system as claimed in claim 1, it is characterised in that described terminal is mobile terminal or PC terminal.

10. mass concrete temperature remote wireless monitoring system as claimed in claim 9, it is characterised in that described mobile terminal is panel computer or smart mobile phone.