CN201974683U - Wireless intelligent temperature monitoring system - Google Patents

Abstract

The utility model discloses a wireless intelligent temperature monitoring system, which comprises a wireless temperature acquisition system comprising a plurality of wireless temperature acquisition devices, a wireless receiving management system for packaging the data acquired by the wireless temperature acquisition devices and then uploading, and an upper monitor connected with the wireless receiving management system. Each wireless temperature acquisition system comprises a mechanical casing and a temperature measurement circuit arranged inside the mechanical casing, wherein, the temperature measurement circuit comprises a temperature sensing probe, a first microprocessor module, a first wireless communication module and a first power supply module for supplying power to every power utilization unit. The wireless receiving management system comprises a second wireless communication module, a second microprocessor module connected with the second wireless communication module, and a communication interface circuit module connected with the second microprocessor module and used for connecting with the upper monitor. The wireless intelligent temperature monitoring system provided by the utility model has the advantages of compact design, consentience in installation, short construction period, high monitoring efficiency, good monitoring effect, high monitoring precision, low cost, high practicability, and reduced manpower cost and energy consumption.

Description

The intelligent wireless temperature monitoring system

Technical field

The utility model relates to the monitoring temperature technical field, especially relates to a kind of intelligent wireless temperature monitoring system.

Background technology

At present, it is perfect that constantly development is built and transformed to power industry, power supply and electricity consumption enterprise automation, and along with rise steadily (mainly being coal) of the prices of raw and semifnished materials, the prices of raw and semifnished materials are increasing for the influence of whole generating cost simultaneously.In order to improve labour productive forces, increase economic benefit, except high temperature monitoring, warning to generating set itself are very necessary, also seem luxuriant for important for raw-material protection.Each thermal power plant all builds a huge coal yard of area and prepares against the usefulness of generating to hoard enough coal, because coal yard is open-air atmosphere, can exist the spontaneous combustion of generating heat of the coal heat producing losses fuel value that produces because of exposure in sunshine or coal to cause the situation of security incident unavoidably.Except having caused raw-material loss, also may cause more serious fire failure on the other hand.The at present domestic security protection that does not just compare system in this respect, small part power plant has adopted wired temperature measuring equipment of Fibre Optical Sensor or infrared spectrum analysis, but for stirring the coal yard of getting coal at any time, wired temperature measuring equipment can cause to a certain degree influence to getting coal equipment, gets coal equipment conversely and also can cause damage to wired temperature measuring equipment.Use inconvenience, practical level is very low.

In addition, meteorological field has a large amount of data that need monitoring and measure, as temperature, and humidity, air pressure etc.The equipment of current employing is the sense terminal of throwing in lift-off with balloon, by detection equipment retrieved to obtain detecting data.There are two problems in this kind equipment, and the one, obtaining of measurement data needs certain hour, and the usefulness that can only keep a record can not be done real-time monitoring, and data age is poor; The secondth, equipment reclaims relatively wastes time and energy.

On the whole, there are many shortcomings in wired monitoring of the prior art, as: install complicated, cost is high, serviceable life short (outdoor wire rod aging), is difficult to round-the-clock monitoring, and is affected by environment big, wiring danger etc. in the hyperbaric environment.And tradition adopts the intelligent degree of manpower monitoring low, is difficult to satisfy round-the-clock monitoring in 24 hours, poor accuracy, human cost height.

The utility model content

Technical problem to be solved in the utility model is at above-mentioned deficiency of the prior art, a kind of intelligent wireless temperature monitoring system is provided, it is compact to design, and it is convenient to install, and has shortened construction period, monitoring efficient height, monitoring effect is good, monitoring precision height, and cost is low, practical, reduced human cost and energy consumption.

For solving the problems of the technologies described above, the technical solution adopted in the utility model is: a kind of intelligent wireless temperature monitoring system is characterized in that: comprise the wireless temperature acquisition system be made up of a plurality of wireless temperature harvesters that are laid in the monitored environment, with wireless receiving management system of uploading after the image data packing of described a plurality of wireless temperature harvester institute and the upper monitoring machine that joins with the wireless receiving management system; Described wireless temperature harvester is made of mechanical hull and the temperature measurement circuit that is arranged in the mechanical hull, microprocessor module one that described temperature measurement circuit comprises temperature detecting probe, join with the temperature detecting probe and the wireless communication module one that joins with microprocessor module one and be the power module one of temperature detecting probe, microprocessor module one and wireless communication module one power supply, described power module one is popped one's head in temperature detecting, microprocessor module one and wireless communication module one join; The microprocessor module two that described wireless receiving management system comprises wireless communication module two, join with wireless communication module two with join with microprocessor module two and be used to be connected the communication interface circuit module of upper monitoring machine.

Above-mentioned intelligent wireless temperature monitoring system, it is characterized in that: described mechanical hull by the rectangular parallelepiped Al-alloy casing, be connected the cylindrical stainless-steel tube of rectangular parallelepiped Al-alloy casing bottom and constitute by the conical stainless-steel tube that is threaded in cylindrical stainless-steel tube bottom, the length of described cylindrical stainless-steel tube is 1m-3m, and 1m-2.5m place, distance circle cylindrical stainless steel pipe bottom is provided with the insertion depth stop on the described cylindrical stainless-steel tube.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described temperature measurement circuit also comprises the power switch that joins with power module one and charging inlet and the antenna one that joins with wireless communication module one; Described antenna one is installed in the top of rectangular parallelepiped Al-alloy casing; Described wireless communication module one, microprocessor module one and power module one are installed in the rectangular parallelepiped Al-alloy casing from top to bottom successively; Described power switch and charging inlet are installed on the outer wall of rectangular parallelepiped Al-alloy casing; Described temperature detecting probe is installed in the conical stainless-steel tube and in the space between temperature detecting probe and conical stainless-steel tube and is filled with heat conductive silica gel.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described power module one is rechargeable battery.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described rechargeable battery is soft encapsulation chargeable lithium cell.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described wireless receiving management system also comprises the antenna two that joins with wireless communication module two.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described communication interface circuit module is one or more in RS-232 interface circuit module, RS-485 interface module and the usb circuit module.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described wireless communication module one and wireless communication module two are the short-distance and medium-distance wireless communication module based on the SmartNode agreement.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described microprocessor module one and microprocessor module two are the super low-power consumption microprocessor F2013T that Texas Instruments produces.

Above-mentioned intelligent wireless temperature monitoring system is characterized in that: described upper monitoring machine is PC or PLC+HMI all-in-one.

The utility model compared with prior art has the following advantages:

1, the utility model is complete monitoring temperature, inspection, the early warning system of a cover, thoroughly overcome the careless omission phenomenon that manual monitoring exists with unattended monitor mode, intelligent degree height, has stronger antijamming capability, the mechanical hull selection aspect of wireless temperature harvester is considered the rigor condition of various particular surroundingss fully, and the system that guaranteed can reliablely and stablely move under various conditions.

2, the wireless temperature harvester in the utility model is compact to design, and profile is small and exquisite, and simple installation need not connect up, and has overcome traditional monitoring product wiring trouble, long construction period, defective and deficiency that debugging cycle is long.

3, good stability of the present utility model, employed soft encapsulation chargeable lithium cell, long service life and can charging repeatedly is if external solar recharging equipment also can be realized solar recharging, energy-conserving and environment-protective.

4, the utility model meets the EMI standard, has very strong anti-Conduction Interference and radioresistance interference performance, and monitoring precision height can be worked under various extreme environments.

5. the communication interface circuit modular design in the utility model is one or more in RS-232 interface circuit module, RS-485 interface module and the usb circuit module, possess multiple network interface/industrial interface, convenient all kinds of upper monitoring machines of access or client provide Ethernet for oneself.

6, monitoring efficient height of the present utility model, monitoring effect is good, not only can allow needs the equipment of monitoring and environment to obtain monitoring with rational cost, can also make Monitoring Data meet the demand of productive life, raise the efficiency, ensure safety, reduce consumption and risk or aspect research, can provide more reliable and rich data.

7, the utility model has adopted modular design proposal, and Scalable Performance is good, can reach expansion on the function as long as the later stage is carried out the combination of module; Also can derive humidity on the stable basis of this temperature monitoring system, the real-time monitoring of data such as air pressure and GPS GPS are in conjunction with the two-way positioning function of GPRS radio data network; No matter the utility model is from cost performance, reliability, and convenience all has advanced and perspective and stronger later stage extended capability still from design angle.

In sum, the utility model is compact to design, it is convenient to install, shortened construction period, monitoring efficient height, monitoring effect is good, monitoring precision height, cost is low, and is practical, and it is complicated thoroughly to have overcome the existing installation of traditional wired monitoring, the cost height, serviceable life, short (outdoor wire rod problem of aging) was difficult to round-the-clock monitoring, and be affected by environment big, many shortcomings such as danger connect up in the hyperbaric environment, satisfy round-the-clock monitoring in 24 hours, can save historical data accurately and reduce human cost, thereby the parameters that can help the staff to grasp production equipment when ensureing production safety is increased work efficiency and cut down the consumption of energy.

Below by drawings and Examples, the technical solution of the utility model is described in further detail.

Description of drawings

Fig. 1 is a structured flowchart of the present utility model.

Fig. 2 is the structural representation of the utility model wireless temperature harvester.

Fig. 3 is the temperature measurement circuit block diagram of the utility model wireless temperature harvester.

Fig. 4 is the circuit block diagram of the utility model wireless receiving management system.

Description of reference numerals:

1-wireless temperature harvester; The cylindrical stainless steel of 1-11-rectangular parallelepiped Al alloy shell 1-12-

Body; Pipe;

The spacing 1-2-temperature detecting probe of the conical stainless steel 1-14-of 1-13-insertion depth;

Pipe; Device;

1-3-microprocessor module one; 1-4-wireless communication module one; 1-5-power module one;

The 1-6-power switch; The 1-7-charging inlet; 1-8-antenna one;

The 1-9-heat conductive silica gel; The 2-wireless temperature acquisition system; 3-wireless receiving management system;

3-1-wireless communication module two; 3-2-microprocessor module two; 3-3-communication interface circuit mould

Piece;

3-4-antenna two; 4-upper monitoring machine.

Embodiment

As Fig. 1-shown in Figure 4, the utility model comprises the wireless temperature acquisition system 2 be made up of a plurality of wireless temperature harvesters 1 that are laid in the monitored environment, with wireless receiving management system of uploading after 1 image data packing of described a plurality of wireless temperature harvesters 3 and the upper monitoring machine 4 that joins with wireless receiving management system 3; Described wireless temperature harvester 1 is made of mechanical hull and the temperature measurement circuit that is arranged in the mechanical hull, pop one's head in 1-2, microprocessor module one 1-3 and wireless communication module one 1-4 of microprocessor module one 1-3 that described temperature measurement circuit comprises temperature detecting probe 1-2, join with temperature detecting probe 1-2 and wireless communication module one 1-4 that joins with microprocessor module one 1-3 and be power module one 1-5 of temperature detecting probe 1-2, microprocessor module one 1-3 and wireless communication module one 1-4 power supply, described power module one 1-5 and temperature detecting joins; Microprocessor module two 3-2 that described wireless receiving management system 3 comprises wireless communication module two 3-1, join with wireless communication module two 3-1 with join with microprocessor module two 3-2 and be used to be connected the communication interface circuit module 3-3 of upper monitoring machine 4.Described upper monitoring machine 4 is PC or PLC+HMI all-in-one.

As shown in Figure 2, in the present embodiment, described mechanical hull by rectangular parallelepiped Al-alloy casing 1-11, be connected the cylindrical stainless-steel tube 1-12 of rectangular parallelepiped Al-alloy casing 1-11 bottom and constitute by the conical stainless-steel tube 1-13 that is threaded in cylindrical stainless-steel tube 1-12 bottom, the length of described cylindrical stainless-steel tube 1-12 is 1m-3m, and described cylindrical stainless-steel tube 1-12 goes up 1m-2.5m place, distance circle cylindrical stainless steel pipe 1-12 bottom and is provided with insertion depth stop 1-14.The wear-resisting rust-proofing of the structure of mechanical hull is corrosion-resistant, has considered the rigor condition of various particular surroundingss, and the system that guaranteed can reliablely and stablely move under various conditions.

As shown in Figures 2 and 3, in the present embodiment, described temperature measurement circuit also comprises the power switch 1-6 that joins with power module one 1-5 and charging inlet 1-7 and antenna one 1-8 that joins with wireless communication module one 1-4; Described antenna one 1-8 is installed in the top of rectangular parallelepiped Al-alloy casing 1-11; Described wireless communication module one 1-4, microprocessor module one 1-3 and power module one 1-5 are installed in the rectangular parallelepiped Al-alloy casing 1-11 from top to bottom successively; Described power switch 1-6 and charging inlet 1-7 are installed on the outer wall of rectangular parallelepiped Al-alloy casing 1-11; Described temperature detecting probe 1-2 is installed in the conical stainless-steel tube 1-12 and in the space between temperature detecting probe 1-2 and conical stainless-steel tube 1-12 and is filled with heat conductive silica gel 1-9.Described power module one 1-5 is a rechargeable battery.Described rechargeable battery is soft encapsulation chargeable lithium cell long service life and can charges repeatedly, if external solar recharging equipment also can be realized solar recharging, energy-conserving and environment-protective.

As shown in Figure 4, in the present embodiment, described wireless receiving management system 3 also comprises antenna two 3-4 that join with wireless communication module two 3-1.Described communication interface circuit module 3-3 is one or more in RS-232 interface circuit module, RS-485 interface module and the usb circuit module, possess multiple network interface/industrial interface, convenient all kinds of upper monitoring machines of access or client provide Ethernet for oneself.

As shown in Figure 3 and Figure 4, in the present embodiment, described wireless communication module one 1-4 and wireless communication module two 3-1 are the short-distance and medium-distance wireless communication module based on the SmartNode agreement, and the WST series wireless transmission chip that specifically can adopt GVIM company to produce meets the SmartNode structural network.Described microprocessor module one 1-3 and microprocessor module two 3-2 are the super low-power consumption microprocessor F2013T that Texas Instruments produces.

The principle of work of the present utility model and the course of work are: a plurality of wireless temperature harvesters 1 are laid in power plant, silo, weather monitoring station etc. needs in the environment of monitor temperature, the user is provided with systematic parameter by upper monitoring machine 4, emissive power as wireless communication module one 1-4 and wireless communication module two 3-1, the setting of calling time on the temperature, the warning critical temperature value is provided with etc., opening installation is behind the power switch 1-6 on the cylindrical stainless-steel tube 1-11 outer wall, wireless temperature harvester 1 enters duty, temperature detecting probe 1-2 gathers the temperature of monitored point and the temperature that collects is exported to microprocessor module one 1-3, microprocessor module one 1-3 receives the temperature detecting probe temperature signal that 1-2 collected and handles the back by analysis and is transferred to wireless receiving management system 3 by wireless communication module one 1-4 and antenna one 1-8, microprocessor module two 3-2 in the wireless receiving management system 3 receive temperature data and the packing back that a plurality of wireless temperature harvesters 1 are collected by antenna two 3-4 and wireless communication module two 3-1 and are uploaded to upper monitoring machine 4 by communication interface circuit module 3-3, and upper monitoring machine 4 shows the temperature of each monitoring points in real time and draws the monitoring curve maps.

In sum, the utility model is compact to design, it is convenient to install, shortened construction period, monitoring efficient height, monitoring effect is good, monitoring precision height, cost is low, and is practical, and it is complicated thoroughly to have overcome the existing installation of traditional wired monitoring, the cost height, serviceable life, short (outdoor wire rod problem of aging) was difficult to round-the-clock monitoring, and be affected by environment big, many shortcomings such as danger connect up in the hyperbaric environment, satisfy round-the-clock monitoring in 24 hours, can save historical data accurately and reduce human cost, thereby the parameters that can help the staff to grasp production equipment when ensureing production safety is increased work efficiency and cut down the consumption of energy.

The above; it only is preferred embodiment of the present utility model; be not that the utility model is imposed any restrictions; everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of technical solutions of the utility model according to the utility model technical spirit.

Claims (10)

1. intelligent wireless temperature monitoring system is characterized in that: comprise the wireless temperature acquisition system (2) be made up of a plurality of wireless temperature harvesters (1) that are laid in the monitored environment, with wireless receiving management system of uploading after the image data packing of described a plurality of wireless temperature harvesters (1) institute (3) and the upper monitoring machine (4) that joins with wireless receiving management system (3); Described wireless temperature harvester (1) is made of mechanical hull and the temperature measurement circuit that is arranged in the mechanical hull, described temperature measurement circuit comprises temperature detecting probe (1-2), microprocessor module one (1-3) that joins with temperature detecting probe (1-2) and the wireless communication module one (1-4) that joins with microprocessor module one (1-3) and be temperature detecting pop one's head in (1-2), the power module one (1-5) of microprocessor module one (1-3) and wireless communication module one (1-4) power supply, described power module one (1-5) and temperature detecting probe (1-2), microprocessor module one (1-3) and wireless communication module one (1-4) join; The microprocessor module two (3-2) that described wireless receiving management system (3) comprises wireless communication module two (3-1), join with wireless communication module two (3-1) with join with microprocessor module two (3-2) and be used to be connected the communication interface circuit module (3-3) of upper monitoring machine (4).

2. according to the described intelligent wireless temperature monitoring system of claim 1, it is characterized in that: described mechanical hull is by rectangular parallelepiped Al-alloy casing (1-11), be connected the cylindrical stainless-steel tube (1-12) of rectangular parallelepiped Al-alloy casing (1-11) bottom and constitute by the conical stainless-steel tube (1-13) that is threaded in cylindrical stainless-steel tube (1-12) bottom, the length of described cylindrical stainless-steel tube (1-12) is 1m-3m, and described cylindrical stainless-steel tube (1-12) is gone up 1m-2.5m place, distance circle cylindrical stainless steel pipe (1-12) bottom and is provided with insertion depth stop (1-14).

3. according to the described intelligent wireless temperature monitoring system of claim 2, it is characterized in that: described temperature measurement circuit also comprises the power switch (1-6) that joins with power module one (1-5) and charging inlet (1-7) and the antenna one (1-8) that joins with wireless communication module one (1-4); Described antenna one (1-8) is installed in the top of rectangular parallelepiped Al-alloy casing (1-11); Described wireless communication module one (1-4), microprocessor module one (1-3) and power module one (1-5) are installed in the rectangular parallelepiped Al-alloy casing (1-11) from top to bottom successively; Described power switch (1-6) and charging inlet (1-7) are installed on the outer wall of rectangular parallelepiped Al-alloy casing (1-11); Described temperature detecting probe (1-2) is installed in the conical stainless-steel tube (1-12) and in the space between temperature detecting probe (1-2) and conical stainless-steel tube (1-12) and is filled with heat conductive silica gel (1-9).

4. according to claim 1 or 3 described intelligent wireless temperature monitoring systems, it is characterized in that: described power module one (1-5) is a rechargeable battery.

5. according to the described intelligent wireless temperature monitoring system of claim 4, it is characterized in that: described rechargeable battery is soft encapsulation chargeable lithium cell.

6. according to the described intelligent wireless temperature monitoring system of claim 1, it is characterized in that: described wireless receiving management system (3) also comprises the antenna two (3-4) that joins with wireless communication module two (3-1).

7. according to claim 1,3 or 6 described intelligent wireless temperature monitoring systems, it is characterized in that: described communication interface circuit module (3-3) is one or more in RS-232 interface circuit module, RS-485 interface module and the usb circuit module.

8. according to claim 1,3 or 6 described intelligent wireless temperature monitoring systems, it is characterized in that: described wireless communication module one (1-4) and wireless communication module two (3-1) are the short-distance and medium-distance wireless communication module based on the SmartNode agreement.

9. according to claim 1,3 or 6 described intelligent wireless temperature monitoring systems, it is characterized in that: described microprocessor module one (1-3) and microprocessor module two (3-2) are the super low-power consumption microprocessor F2013T that Texas Instruments produces.

10. according to claim 1,3 or 6 described intelligent wireless temperature monitoring systems, it is characterized in that: described upper monitoring machine (4) is PC or PLC+HMI all-in-one.

Images