CN203837823U - Temperature monitoring system - Google Patents

Abstract

The utility model relates to the technical field of temperature measurement and discloses a temperature monitoring system. The temperature monitoring system comprises at least one temperature detection device, a temperature measurement communication terminal and an input device. The temperature detection device comprises a temperature acquisition component, an equipment processor and a first radio frequency circuit. The temperature measurement communication terminal comprises a second radio frequency circuit and a master control processor. An output end of the temperature acquisition component is connected with an input end of the equipment processor, and the equipment processor is connected with the first radio frequency circuit. The first radio frequency circuit is connected with the second radio frequency circuit. The second radio frequency circuit is connected with the master control processor. An output end of the input device is connected with an input end of the master control processor. The temperature monitoring system utilizes the temperature detection device to collect temperature data and sends the temperature data to the temperature measurement communication terminal, and the temperature measurement communication terminal monitors the temperature data, and thus automatic collection and monitor of the temperature data are achieved, thereby reducing workload of workers, shortening temperature measurement period and improving temperature measurement efficiency.

Description

A kind of temperature monitoring system

Technical field

The utility model relates to thermometry field, is mainly applicable to temperature monitoring system.

Background technology

At present, traditional temperature monitoring mode adopts manual record to measure mostly, and existing problem is mainly that staff's workload is large, the thermometric cycle is long, temperature measuring efficiency is low, and thermometric operation cannot be carried out in region that simultaneously manually can not long-term work at some.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of temperature monitoring system, and the feature that it has robotization thermometric, has not only reduced staff's workload, and has shortened the thermometric cycle, has improved temperature measuring efficiency.

For solving the problems of the technologies described above, the utility model provides a kind of temperature monitoring system, comprising: at least one temperature testing equipment, thermometric communication terminal and input equipment; Described temperature testing equipment comprises: temperature acquisition element, device handler and the first radio circuit; Described thermometric communication terminal comprises: the second radio circuit and main control processor; The output terminal of described temperature acquisition element is connected with the input end of described device handler, and the communication port of described device handler is connected with the first communication port of described the first radio circuit; The second communication port of described the first radio circuit is connected with the first communication port of described the second radio circuit, and the second communication port of described the second radio circuit is connected with the communication port of described main control processor; The output terminal of described input equipment is connected with the input end of described main control processor.

Further, also comprise: panalarm; The input end of described panalarm is connected with the output terminal of described main control processor.

Further, also comprise: server and remote terminal; Described thermometric communication terminal also comprises: the 3rd radio circuit; The first communication port of described the 3rd radio circuit is connected with the communication port of described main control processor, the second communication port of described the 3rd radio circuit is connected with the first communication port of described server, and the second communication port of described server is connected with the communication port of described remote terminal.

Further, also comprise: display device; The input end of described display device is connected with the output terminal of described main control processor.

The beneficial effects of the utility model are:

The temperature monitoring system that the utility model provides, by temperature testing equipment, temperature data is gathered, and temperature data is transferred to thermometric communication terminal, by thermometric communication terminal, temperature data is monitored, automation collection and the monitoring of temperature data are realized, not only reduce staff's workload, and shortened the thermometric cycle, improved temperature measuring efficiency.

Brief description of the drawings

The work schematic diagram of the temperature monitoring system that Fig. 1 provides for the utility model embodiment.

Wherein, 1-temperature testing equipment, 2-thermometric communication terminal, 31-server, 32-computing machine.

Embodiment

For further setting forth technological means and effect that the utility model is taked for reaching predetermined utility model object, below in conjunction with accompanying drawing and preferred embodiment, embodiment and principle of work according to the temperature monitoring system the utility model proposes are elaborated.

Referring to Fig. 1, the temperature monitoring system that the utility model embodiment provides, comprising: at least one temperature testing equipment 1, thermometric communication terminal 2, input equipment and display device; Temperature testing equipment 1 comprises: temperature acquisition element, device handler and the first radio circuit; Thermometric communication terminal 2 comprises: the second radio circuit and main control processor; The output terminal of temperature acquisition element is connected with the input end of device handler, and the communication port of device handler is connected with the first communication port of the first radio circuit; The second communication port of the first radio circuit is connected with the first communication port of the second radio circuit, and the second communication port of the second radio circuit is connected with the communication port of main control processor; The output terminal of input equipment is connected with the input end of main control processor (UART1 port).The input end of display device is connected with the output terminal of main control processor.In the present embodiment, temperature acquisition element is the TMP100 chip temperature that German TI company produces; The first radio circuit and the second radio circuit are the wireless radio frequency circuit of 2.4Ghz, the CC2500 chip that specifically adopts German TI company to produce; Device handler is the high performance Kinetis M0+ of super low-power consumption whole world super low-power consumption 32 bit processors; Main control processor is the KL25Z128 main control chip of Freescale Cortex M4 super low-power consumption kernel; Input equipment comprises: keyboard, mouse and handle etc.; Display device is LCDs.

In order to make the utility model embodiment have temperature anomaly warning function, the utility model embodiment also comprises: panalarm; The input end of panalarm is connected with the output terminal of main control processor.In the present embodiment, panalarm can comprise hummer, alarm lamp etc.

In order to make the utility model embodiment have the ability of remote monitoring, the utility model embodiment also comprises: server 31 and remote terminal 32; Thermometric communication terminal 2 also comprises: the 3rd radio circuit; The first communication port of the 3rd radio circuit is connected with the communication port of main control processor (UART0 serial port), the second communication port of the 3rd radio circuit is connected with the first communication port of server 31, and the second communication port of server 31 is connected with the communication port of remote terminal 32 by LAN (Local Area Network) or wide area network.In the present embodiment, the 3rd radio circuit is the 3G Modem card of surfing Internet that Huawei Company produces; Remote terminal 32 is remote computer.

The temperature monitoring system providing as the utility model embodiment, in the time of work, is first placed on several temperature testing equipments 1 respectively in each place to be monitored (as warehouse, container etc.), and each temperature testing equipment 1 has unique production sequence number.When temperature testing equipment 1 collects after temperature data, by the mode of less radio-frequency 2.4G, temperature data is sent to thermometric communication terminal 2.Thermometric communication terminal 2 carries out the processing of temperature alarming threshold comparison to the temperature data receiving.If discovery temperature anomaly, sends trigger pip and reports to the police to panalarm.Temperature data in thermometric communication terminal 2 can show by local LCDs.In addition, thermometric communication terminal 2 is also transferred to server 31 by Huawei's 3G Modem card of surfing Internet by the temperature data receiving.Server 31 receives the running temperature data of each monitoring point of being transmitted by thermometric communication terminal 2, preserves for a long time.Remote computer can pass through LAN (Local Area Network) or wide-area network access server 31, and obtains temperature data.In addition, remote computer can also send to temperature alarming threshold value in temperature testing equipment 1 by server 31 and thermometric communication terminal 2, and parameter is carried out to remotely modifying.Here it should be noted that, user can also carry out parameter input to thermometric communication terminal 2 by input equipment, realizes the setting to temperature alarming threshold value.

The temperature monitoring system that the utility model embodiment provides, by temperature testing equipment 1, temperature data is gathered, and temperature data is transferred to thermometric communication terminal 2, by thermometric communication terminal 2, temperature data is monitored, automation collection and the monitoring of temperature data are realized, not only reduce staff's workload, and shortened the thermometric cycle, improved temperature measuring efficiency.The utility model embodiment is by the application to wireless communication technology, at the existing scene that cannot connect up and the region that manually cannot arrive, concentrate monitoring multipath environment temperature, realize on-the-spot and remote intelligent on-line monitoring and early warning, staff can be according to the temperature conditions of operational outfit, formulate rational operating scheme, thereby ensure normally carrying out of production work.What the wireless radio frequency transmission of the utility model embodiment adopted is the wireless radio frequency transmission of 2.4GHz, because this frequency range is the free frequency range of international regulation, do not need to pay any expense to international linked groups, thereby reduced the use cost of the utility model embodiment.In addition, this frequency range has absolute advantage in anti-interference, and maximum transmission distance can reach 10 meters.Meanwhile, this frequency range in theory also has the data rate of 2M, and this is also for practical application has improved reliable guarantee.In addition, due to the utility model, embodiment has adopted low energy-consumption electronic device, and therefore the utility model embodiment also has advantages of low in energy consumptionly, has realized energy-conservation effect.The utility model embodiment use cost is low, working stability, low in energy consumption, practical.

It should be noted last that, above embodiment is only unrestricted in order to the technical solution of the utility model to be described, although the utility model is had been described in detail with reference to example, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the technical solution of the utility model, and not departing from the spirit and scope of technical solutions of the utility model, it all should be encompassed in the middle of claim scope of the present utility model.

Claims (3)

1. a temperature monitoring system, is characterized in that, comprising: at least one temperature testing equipment, thermometric communication terminal and input equipment; Described temperature testing equipment comprises: temperature acquisition element, device handler and the first radio circuit; Described thermometric communication terminal comprises: the second radio circuit and main control processor; The output terminal of described temperature acquisition element is connected with the input end of described device handler, and the communication port of described device handler is connected with the first communication port of described the first radio circuit; The second communication port of described the first radio circuit is connected with the first communication port of described the second radio circuit, and the second communication port of described the second radio circuit is connected with the communication port of described main control processor; The output terminal of described input equipment is connected with the input end of described main control processor; Input equipment comprises: keyboard, mouse and handle.

2. temperature monitoring system as claimed in claim 1, is characterized in that, also comprises: panalarm; The input end of described panalarm is connected with the output terminal of described main control processor.

3. temperature monitoring system as claimed in claim 1 or 2, is characterized in that, also comprises: display device; The input end of described display device is connected with the output terminal of described main control processor.