The many integrated sensors of a kind of intelligent wireless
Technical field
The utility model relates to a kind of sensor, relates in particular to the many integrated sensors of a kind of intelligent wireless, belongs to the wireless senser field.
Background technology
Existing traditional general transmitter, its great majority all be wired output form, export as 4mA~20mA, 0~5V, RS485, RS232 or relay, must direct current supply; Some is a wireless senser, mainly is based on the wireless transmission form of civilian frequency 433MHz, and general transmission range is nearer, and power consumption is also bigger, and when distance is far away, does not have middle rotating function, just can't meet customer need; Some is wireless ZigBee sensor, applying frequency is 2.4GHz, meet the ZigBee agreement, generally can only gather a kind of physical message, and transmission range is near, like this needs is monitored simultaneously the client of a plurality of physical messages and distance, does not only reach the effect of monitoring on a large scale, and increased a large amount of hardware costs, return project installation and commissioning and also caused many troubles.
The utility model content
The utility model is big at existing wireless senser power consumption, and transmission range is near, data that can not other sensor of transfer, and the deficiency of a kind of physical message of only single collection provides a kind of intelligent wireless many integrated sensors.
The technical scheme that the utility model solves the problems of the technologies described above is as follows: the power module that the many integrated sensors of a kind of intelligent wireless comprise main control module, probe module, Anneta module and are used for providing power supply to main control module and probe module, described power module links to each other with probe module with main control module respectively, and described main control module links to each other with Anneta module; Described main control module comprises microprocessor and radio receiving transmitting module, and described microprocessor links to each other with power module, radio receiving transmitting module and probe module respectively, and described radio receiving transmitting module links to each other with Anneta module; Described probe module comprises at least two kinds of probes with difference in functionality; Described at least two kinds of probes with difference in functionality are used to gather different physical messages and are converted into digital signal corresponding, described microprocessor is used for the digital signal of probe in the acquisition probe module and is sent to radio receiving transmitting module, and the digital signal that described radio receiving transmitting module is used for receiving converts wireless signal to and is sent to the Anneta module wireless transmission goes out; Described Anneta module is used to receive extraneous wireless signal and sends it to radio receiving transmitting module; The extraneous wireless signal that described radio receiving transmitting module is used for receiving is sent to microprocessor after converting digital signal to again.
The beneficial effects of the utility model are: the many integrated sensors of the utility model intelligent wireless adopt the probe of the various physical messages of multiple measurement to be integrated on a kind of wireless senser, the cost of system support and the cost of engineering construction have been reduced, make things convenient for client's installation, accelerated the speed of engineering.
On the basis of technique scheme, the utility model can also be done following improvement.
Further, also comprise parameter configuration module, described parameter configuration module links to each other with microprocessor with power module respectively.
Further, described parameter configuration module comprise in RS232, RS485, Ethernet interface and the TTL serial ports at least one or a plurality of.
Further, also comprise power amplifier and low noise amplifier, described radio receiving transmitting module links to each other with low noise amplifier with power amplifier respectively, and described power amplifier all links to each other with Anneta module with low noise amplifier; The digital signal that described radio receiving transmitting module is used for receiving converts wireless signal to and is sent to power amplifier, is sent to the Anneta module wireless transmission again after the wireless signal that described power amplifier is used for receiving amplifies and goes out; Described Anneta module is used to receive extraneous wireless signal and sends it to low noise amplifier, and the low-frequency noise that described low noise amplifier is used for the extraneous wireless signal that will receive is sent to radio receiving transmitting module after filtering and amplifying.
The beneficial effect that adopts above-mentioned further scheme is owing to increased the low noise amplifier that is used to improve the power amplifier of signal transmission intensity and improves receiving signal sensitivity, when having improved reliability, reduced power consumption, transmission range and stability have been increased greatly, meeting wireless ZigBee agreement, is a kind of many integrated sensors of high-precision intelligent with MANET function.
Further, also comprise power amplifier and bypass module, described radio receiving transmitting module links to each other with bypass module with power amplifier respectively, and described power amplifier all links to each other with Anneta module with bypass module; The digital signal that described radio receiving transmitting module is used for receiving converts wireless signal to and is sent to power amplifier, is sent to the Anneta module wireless transmission again after the wireless signal that described power amplifier is used for receiving amplifies and goes out; Described Anneta module is used to receive extraneous wireless signal and sends it to bypass module, and the extraneous wireless signal that described bypass module is used for receiving directly is sent to radio receiving transmitting module.
Further, also comprise low noise amplifier and bypass module, described radio receiving transmitting module links to each other with bypass module with low noise amplifier respectively, and described low noise amplifier all links to each other with Anneta module with bypass module; The digital signal that described radio receiving transmitting module is used for receiving converts wireless signal to and is sent to bypass module, and the wireless signal that described bypass module is used for receiving directly is sent to the Anneta module wireless transmission and goes out; Described Anneta module is used to receive extraneous wireless signal and sends it to low noise amplifier, and the low-frequency noise that described low noise amplifier is used for the extraneous wireless signal that will receive is sent to radio receiving transmitting module after filtering and amplifying.
Further, described probe module comprises soil moisture probe, the illumination probe that is used to gather brightness, the humiture probe that is used to gather environment temperature and humidity, the carbon dioxide probe that is used to gather gas concentration lwevel that are used for collecting temperature, is used at least two probes gathering the soil moisture probe of soil water content and be used to gather the atmospheric pressure probe of atmospheric pressure.
The beneficial effect that adopts above-mentioned further scheme is to adopt a plurality of probes with difference in functionality to integrate the usable range that can enlarge sensor, gather a plurality of physical quantity informations simultaneously, concentrate to report, easy for installation, reduce hardware cost, for the client brings convenience.
Further, described power module comprises at least one or a plurality of module in direct current supply module, powered battery module and the solar powered module.
The beneficial effect that adopts above-mentioned further scheme is to adopt direct current, battery and three kinds of power supply modes of sun power, makes sensor be suitable for the inconvenient environment of power supply, or requires field requirement attractive in appearance, does not allow to occur the occasion of open-wire line.Described powered battery module can be lithium battery.Described lithium battery can be the 3.6V/19Ah lithium battery.Described solar powered module can be the assembly of sun power pole plate and accumulator.The assembly of described sun power pole plate and accumulator can be the sun power pole plate of 5V/3W and the assembly of accumulator.
Further, described radio receiving transmitting module employing frequency is the radio receiving transmitting module of 2.4GHz, ZigBee agreement.
Described frequency is that the agreement of 2.4GHz, ZigBee can adopt ZigBee Pro agreement.The beneficial effect that adopts above-mentioned further scheme is because radio receiving transmitting module employing frequency is the radio receiving transmitting module of 2.4GHz, ZigBee agreement, its frequency is not subjected to civilian frequency interferences, reduce power consumption, reached high reliability, and realized transfer route and MANET function.
Description of drawings
Fig. 1 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment one;
Fig. 2 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment two;
Fig. 3 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment three;
Fig. 4 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment four;
Fig. 5 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment five;
Fig. 6 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment six;
Fig. 7 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment seven;
Fig. 8 is the structural representation of many integrated sensors of the utility model intelligent wireless embodiment eight.
Embodiment
Below in conjunction with accompanying drawing principle of the present utility model and feature are described, institute gives an actual example and only is used to explain the utility model, is not to be used to limit scope of the present utility model.
Embodiment one
As shown in Figure 1, in the present embodiment, described sensor comprises power module 10, main control module 20, probe module 40 and Anneta module 50.Described power module 10 links to each other with probe module 40 with main control module 20 respectively, and described main control module 20 links to each other with Anneta module 50.Described main control module 20 comprises microprocessor 201 and radio receiving transmitting module 202, and described microprocessor 201 links to each other with power module 10, radio receiving transmitting module 202 and probe module 40 respectively, and described radio receiving transmitting module 202 links to each other with Anneta module 50.Described microprocessor 201 is used to gather each probe data, and every processing of the line data of going forward side by side is as demarcation, calibration etc.Described probe module 40 comprises soil moisture probe 403, the illumination probe 402 that is used to gather brightness, the humiture probe 401 that is used to gather environment temperature and humidity that are used to gather the soil moisture, is used to gather CO
2The CO of concentration
2Probe 404, the atmospheric pressure probe 406 that is used to gather the soil moisture probe 405 of soil water content and is used to gather atmospheric pressure.Described humiture probe can adopt HC2-S, and described illumination probe can adopt BF1710FVC, and described soil moisture probe can adopt DS1820, and described soil moisture probe can adopt TDC210I, and described atmospheric pressure probe can adopt MS5534, described CO
2Probe can adopt C100.Described power module 10 comprises direct current supply module 101.It is the radio receiving transmitting module of 2.4GHz, ZigBee agreement that described radio receiving transmitting module 202 adopts frequency.In the present embodiment, described sensor adopts the wireless air configuration.
Embodiment two
As shown in Figure 2, different with embodiment one is that in the present embodiment, described sensor also comprises parameter configuration module 30.Described parameter configuration module 30 links to each other with microprocessor 201 with power module 10 respectively.Described parameter configuration module 30 comprises RS232, RS485, Ethernet interface and TTL serial ports.
Embodiment three
As shown in Figure 3, different with embodiment one is, in the present embodiment, described sensor also comprises power amplifier 203 and the low noise amplifier 204 that is positioned at described main control module 20, described radio receiving transmitting module 202 links to each other with low noise amplifier 204 with power amplifier 203 respectively, and described power amplifier 203 all links to each other with Anneta module 50 with low noise amplifier 204.
Embodiment four
As shown in Figure 4, different with embodiment three is that in the present embodiment, described sensor also comprises parameter configuration module 30.Described parameter configuration module 30 links to each other with microprocessor 201 with power module 10 respectively.Described parameter configuration module 30 comprises RS232, RS485, Ethernet interface and TTL serial ports.
Embodiment five
As shown in Figure 5, different with embodiment one is, in the present embodiment, described sensor also comprises power amplifier 203 and the bypass module 205 that is positioned at described main control module 20, described radio receiving transmitting module 202 links to each other with bypass module 205 with power amplifier 203 respectively, and described power amplifier 203 all links to each other with Anneta module 50 with bypass module 205.
Embodiment six
As shown in Figure 6, different with embodiment five is that in the present embodiment, described sensor also comprises parameter configuration module 30.Described parameter configuration module 30 links to each other with microprocessor 201 with power module 10 respectively.Described parameter configuration module 30 comprises RS232, RS485, Ethernet interface and TTL serial ports.
Embodiment seven
As shown in Figure 7, different with embodiment one is, in the present embodiment, described sensor also comprises low noise amplifier 204 and the bypass module 205 that is positioned at described main control module 20, described radio receiving transmitting module 202 links to each other with bypass module 205 with low noise amplifier 204 respectively, and described low noise amplifier 204 all links to each other with Anneta module 50 with bypass module 205.
Embodiment eight
As shown in Figure 8, different with embodiment seven is that in the present embodiment, described sensor also comprises parameter configuration module 30.Described parameter configuration module 30 links to each other with microprocessor 201 with power module 10 respectively.Described parameter configuration module 30 comprises RS232, RS485, Ethernet interface and TTL serial ports.
The many integrated sensors of the utility model intelligent wireless pass through and gather CO in the probe of humiture, the illumination probe of collection light luminance, the probe of gathering the soil moisture, the probe of collection soil moisture, the probe of gathering atmospheric pressure, the collection air
2The MCU processor module that connects of probe; Humiture, illumination, the soil moisture, soil moisture, atmospheric pressure, CO that MCU will pop one's head in and gather
2Information change into electric signal, go out by adopting ZigBee Pro agreement wireless transmission by radio receiving transmitting module, and with radio receiving transmitting module after level increased power amplifier, be used for improving transmission sensor transmissions distance, increased low noise amplifier with level behind the radio receiving transmitting module, be used to improve the sensitivity of sensor receiving unit, enhancing signal stability; The parameter configuration port that increase is configured many integrated sensors of intelligent wireless parameter, power module are used for whole sensor is powered.It is the high performance radio receiving transmitting module of 2.4GHz, ZigBee agreement that radio receiving transmitting module adopts frequency; Power module comprises direct current supply module, powered battery module and solar powered module, and wherein the powered battery module adopts lithium battery that sensor is powered, and solar powered module adopts solar panels and accumulator that sensor is powered; MCU uses high-performance MCU to carry out routine processes.Super low-power consumption design thus guarantees that product service time is more than 3 years; Use the 2.4GHz frequency to carry out communication, guarantee not to be subjected to civilian frequency interferences, reach high reliability; Increase power amplifier, make long transmission distance, can reach 1200 meters (spacious distances) between 2; Increase low noise amplifier, the sensitivity that has improved acknowledge(ment) signal, enhancing signal stability.
The above only is preferred embodiment of the present utility model, and is in order to restriction the utility model, not all within spirit of the present utility model and principle, any modification of being done, is equal to replacement, improvement etc., all should be included within the protection domain of the present utility model.