CN109343158A - A kind of anti-rainfall is failed to report and more datagram-style telemetering terminals - Google Patents

Abstract

A kind of anti-rainfall proposed by the present invention is failed to report and more datagram-style telemetering terminals, comprising: signal acquisition module, signal adjusting module, delay circuit, rainfall statistical module and acquisition output module；Signal adjusting module is separately connected signal acquisition module and delay circuit, and the high level signal for being exported according to signal acquisition module generates low level signal and input time delay circuit；Delay circuit is connect with rainfall statistical module, and rainfall statistical module is used to carry out rainfall statistics after the low level signal that signal adjusting module exports continues delay time T.In the present invention, the detection of the momentary switch signal exported to precipitation rain fall sensor is changed into the detection to signal edge, it is equivalent to and transient signal is changed into process signal, to advantageously reduce the fault rate of rainfall node signal acquisition, reduce the possibility that rainfall node signal is failed to report, guarantee the acquisition of rainfall node signal accurately and completely, improves the reliability of rainfall statistics.

Description

A kind of anti-rainfall is failed to report and more datagram-style telemetering terminals

Technical field

The present invention relates to rainfall detection technical fields more particularly to a kind of anti-rainfall to fail to report and more datagram-style telemetering terminals.

Background technique

During existing rainfall measurement, use tipping bucket rain gauge more.Two are equipped in tipping bucket rain gauge Road dry contact, two-way dry contact switch, which respectively corresponds, is provided with a tipping bucket, and the rotary movement that completely struggled against by tipping bucket rainwater linkage is dry Contact switch exports switch closure signals, to realize rainfall monitoring.

Currently, generally working only with dry contact all the way when tipping bucket rain gauge works, another way dry contact is not busy It sets.And it is easy to cause rainfall to fail to report or report more by foreign matters from being blocked in tipping bucket switching process.

Summary of the invention

Technical problems based on background technology, the invention proposes a kind of anti-rainfall to fail to report and more datagram-style telemetry terminal systems Machine.

A kind of anti-rainfall proposed by the present invention is failed to report and more datagram-style telemetering terminals, comprising: signal acquisition module, signal tune Mould preparation block, delay circuit, rainfall statistical module and acquisition output module；

Signal acquisition module is for accessing collected rainfall node signal, for generating high electricity according to rainfall node signal Ordinary mail number；Low level signal is exported under signal acquisition module normality；

Signal adjusting module is separately connected signal acquisition module and delay circuit, for what is exported according to signal acquisition module High level signal generates low level signal and input time delay circuit；

Delay circuit is connect with rainfall statistical module, and rainfall statistical module is used for the low level exported in signal adjusting module Signal carries out rainfall statistics after continuing delay time T；

Acquisition output module is connect with rainfall statistical module, for exporting the rainfall value of rainfall statistical module counts in real time.

Preferably, signal acquisition module include with door, used with an input pin of door as rainfall node signal collection terminal In access rainfall node signal, high level is accessed with the remaining input pin of door, the output end with door is as signal acquisition module Output end.

Preferably, signal acquisition module further includes the free unit of failure, the first on-off unit and the second on-off unit；First The output end of on-off unit and the second on-off unit is all connected with rainfall node signal collection terminal, the first on-off unit and the second on-off The input terminal of unit is respectively used to the first precipitation rain fall sensor of connection and the second precipitation rain fall sensor obtains rainfall node signal；First is logical Under disconnected unit on state, the second on-off unit is disconnected；Under second on-off unit on state, the first on-off unit is disconnected；

The input terminal of the free unit of failure is separately connected the first precipitation rain fall sensor and the second precipitation rain fall sensor, output end point The first on-off unit and the second on-off unit are not connected；The free unit of failure according to the acquisition data of rainfall node signal for sentencing Disconnected first precipitation rain fall sensor and the second precipitation rain fall sensor fault condition, and for according to judging result control the first on-off unit and Second on-off cell operation.

Preferably, the free unit of failure is used for the rainfall section acquired according to the first precipitation rain fall sensor and the second precipitation rain fall sensor The renewal speed of point signal judges the first precipitation rain fall sensor and the second precipitation rain fall sensor fault condition.

Preferably, under natural conditions, the first on-off unit is connected, and the second on-off unit disconnects；The free unit of failure includes First timer, the second timer and comparator, the input terminal of the first timer is for connecting the first precipitation rain fall sensor, the second meter When device input terminal for connecting the second precipitation rain fall sensor, the output end difference of the output end of the first timer and the second timer The first input end and the second input terminal of comparator are connected, the output end of comparator is separately connected the first on-off unit and second and leads to Disconnected unit；First timer is used to calculate the rainfall node signal acquired recently that the first precipitation rain fall sensor acquires to current time Difference as first time difference, the second timer is used to calculate the second precipitation rain fall sensor exports rainfall node twice recently Difference between acquisition time is as the second time difference；Comparator is used for according to first time difference and the second time difference Comparison result controls the first on-off unit and the second on-off cell operation.

Preferably, it is in series with adder between comparator and the second timer, comparator is by the second time difference and addition The floating difference summation of device access is used as reference point, and comparator is used to be controlled according to the comparative structure of first time difference and reference point First on-off unit and the second on-off cell operation.

Preferably, comparator is used for when first time difference is greater than reference point, and the first on-off unit of control is disconnected and controlled Make the conducting of the second on-off unit.

Preferably, the first on-off unit and the second on-off unit are all made of relay.

A kind of anti-rainfall is failed to report and more datagram-style telemetry systems, including tipping bucket rain gauge and such as claim 5 to 8 times Telemetering terminal described in one；The first dry contact switch and the second dry contact switch are equipped in tipping bucket rain gauge, the One dry contact switchs corresponding first tipping bucket and is arranged, and under the first tipping bucket rollover states, the first dry contact is closed the switch；Second dry contact It switchs corresponding second tipping bucket to be arranged, under the second tipping bucket rollover states, the second dry contact is closed the switch；First timer connection first Dry contact switch is used as the first precipitation rain fall sensor, and the second timer connects the second dry contact switch and is used as the second precipitation rain fall sensor.

A kind of anti-rainfall proposed by the present invention fail to report with more datagram-style telemetering terminals, when work, pass through signal adjusting module Low level signal is generated according to high level, is equivalent to and a failing edge is generated according to rainfall node signal.In this way, being counted in rainfall When module carries out rainfall statistics, the detection of the momentary switch signal exported to precipitation rain fall sensor is changed into the inspection to signal edge It surveys, is equivalent to and transient signal is changed into process signal, to advantageously reduce the fault rate of rainfall node signal acquisition, reduce The possibility that rainfall node signal is failed to report guarantees the acquisition of rainfall node signal accurately and completely, improves the reliability of rainfall statistics.

And in the present invention, by carrying out delay statistics to signal adjusting module output signal, it is equivalent to and rainfall node is believed Number delay Key dithering is carried out, is conducive to further increase the accurate of rainfall node signal acquisition, rainfall is avoided to report more.

Detailed description of the invention

Fig. 1 is that a kind of anti-rainfall proposed by the present invention is failed to report and more datagram-style telemetering terminal module maps；

Fig. 2 is signal acquisition module block diagram.

Specific embodiment

Referring to Fig.1, a kind of anti-rainfall proposed by the present invention is failed to report and more datagram-style telemetering terminals, comprising: signal acquisition mould Block, signal adjusting module, delay circuit, rainfall statistical module and acquisition output module.

Signal acquisition module is for accessing collected rainfall node signal, for generating high electricity according to rainfall node signal Ordinary mail number.Low level signal is exported under signal acquisition module normality.For example, being passed in present embodiment when using tipping bucket type rainfall When sensor measures rainfall, whenever tipping bucket due to rainwater completely struggles against and switching signal that when overturning and dry contact being caused to close the switch generates just As rainfall node signal, rainfall is calculated according to rainfall node signal cumulative frequency and container volume so as to subsequent.

Signal adjusting module is separately connected signal acquisition module and delay circuit, for what is exported according to signal acquisition module High level signal generates low level signal and input time delay circuit.

Delay circuit is connect with rainfall statistical module, and rainfall statistical module is used for the low level exported in signal adjusting module Signal carries out rainfall statistics after continuing delay time T.

In this way, generating low level signal in present embodiment according to high level by signal adjusting module, being equivalent to basis Rainfall node signal generates a failing edge.In this way, in present embodiment, it, will when rainfall statistical module carries out rainfall statistics Detection to signal edge is changed into the detection of the momentary switch signal of precipitation rain fall sensor output, is equivalent to and changes transient signal The possibility that rainfall node signal is failed to report is reduced to advantageously reduce the fault rate of rainfall node signal acquisition for process signal, Guarantee the acquisition of rainfall node signal accurately and completely, improves the reliability of rainfall statistics.

And in present embodiment, by carrying out delay statistics to signal adjusting module output signal, it is equivalent to rainfall section Point signal carries out delay Key dithering, is conducive to further increase the accurate of rainfall node signal acquisition, rainfall is avoided to report more.

Acquisition output module is connect with rainfall statistical module, for exporting the rainfall value of rainfall statistical module counts in real time.

In present embodiment, signal acquisition module include with door, adopted with an input pin of door as rainfall node signal Collection end is accessed high level with the remaining input pin of door, is adopted with the output end of door as signal for accessing rainfall node signal Collect the output end of module.In this way, in present embodiment, by excessively, be conducive to rainfall node signal of the door to input Signal acquisition module is further to rainfall node signal Key dithering, to improve rainfall statistics accuracy.

In present embodiment, signal acquisition module further includes the free unit of failure, the first on-off unit and the second on-off list Member.The output end of first on-off unit and the second on-off unit is all connected with rainfall node signal collection terminal, the first on-off unit and The input terminal of second on-off unit is respectively used to the first precipitation rain fall sensor of connection and the second precipitation rain fall sensor obtains rainfall node letter Number.Under first on-off unit on state, the second on-off unit is disconnected.Under second on-off unit on state, the first on-off list Member disconnects.In this way, by the first on-off unit and the second on-off unit, so that the telemetering terminal can access two rainfall simultaneously Sensor carries out remote rain amount, improves the failure adaptability to changes of the telemetering terminal.It is logical by first and in present embodiment Disconnected unit and the second on-off unit, so that two-way rainfall node signal of the signal acquisition module to access, selects one for counting rain Amount, avoids the mutual crosstalk of two precipitation rain fall sensors, advantageously ensures that the reliable and stable of telemetering terminal work.

The input terminal of the free unit of failure is separately connected the first precipitation rain fall sensor and the second precipitation rain fall sensor, output end point The first on-off unit and the second on-off unit are not connected.The free unit of failure according to the acquisition data of rainfall node signal for sentencing Disconnected first precipitation rain fall sensor and the second precipitation rain fall sensor fault condition, and for according to judging result control the first on-off unit and Second on-off cell operation.In this way, the free unit of failure controls the first on-off unit and disconnects simultaneously when the first precipitation rain fall sensor failure The conducting of the second on-off unit is controlled, the failure in realization rainfall statistic processes monitors automatically and troubleshooting.Specifically, this implementation In mode, rainfall node signal of the free unit of failure for being acquired according to the first precipitation rain fall sensor and the second precipitation rain fall sensor Renewal speed judges the first precipitation rain fall sensor and the second precipitation rain fall sensor fault condition.

Specifically, under natural conditions, the first on-off unit conducting, the second on-off unit disconnects in present embodiment.I.e. originally In embodiment, based on the rainfall node signal that is imported through the first on-off unit, with the rainfall imported through the second on-off unit It connects supplemented by electric signal.In this way, both having avoided in rainfall statistic processes, two-way rainfall node signal is frequently replaced, and influences signal biography Defeated and processing；It when in turn ensuring the first precipitation rain fall sensor failure, can be substituted by the second precipitation rain fall sensor, guarantee that telemetering is whole The normal work of terminal.

The free unit of failure includes the first timer, the second timer and comparator, and the input terminal of the first timer is used for The first precipitation rain fall sensor is connected, the input terminal of the second timer is for connecting the second precipitation rain fall sensor, the output of the first timer The output end of end and the second timer is separately connected the first input end and the second input terminal of comparator, the output end point of comparator The first on-off unit and the second on-off unit are not connected.First timer is used to calculate adopting recently for the first precipitation rain fall sensor acquisition The rainfall node signal of collection to current time difference as first time difference, the second timer is passed for calculating the second rainfall Sensor output recently twice the difference between rainfall node acquisition time as the second time difference.Comparator is used for according to the The comparison result of one time difference and the second time difference controls the first on-off unit and the second on-off cell operation.Specifically, In present embodiment, when first time difference is less than or equal to the second time difference, the first precipitation rain fall sensor of expression is worked normally, Then maintain the first on-off unit on state；When first time difference is greater than the second time difference, the first precipitation rain fall sensor of expression Failure is unable to normal acquisition rainfall node signal, then is switched to the second on-off unit on state, will pass through the second rainfall biography Sensor acquires rainfall node signal, guarantees that telemetering terminal works normally.

In present embodiment, by comparator, the rainfall node of the first precipitation rain fall sensor and the second precipitation rain fall sensor is believed Number frequency is compared in real time, is advantageously ensured that the accurate of the first precipitation rain fall sensor breakdown judge.

In present embodiment, it is in series with adder between comparator and the second timer, comparator is by the second time difference With adder access floating difference summation be used as reference point, comparator be used for according to first time difference compared with reference point knot Structure controls the first on-off unit and the second on-off cell operation.Specifically, comparator is used to be greater than reference in first time difference When value, the first on-off unit of control disconnects and controls the conducting of the second on-off unit.The setting of adder, in first time difference and Floating difference is introduced between second time difference, is conducive to keep away while guaranteeing accurately to monitor the first precipitation rain fall sensor failure Exempt from unstable caused by the first on-off unit and the second on-off unit frequent switching working condition.Specifically, the first on-off unit Relay is all made of with the second on-off unit.

The present invention also provides a kind of anti-rainfall to fail to report and more datagram-style telemetry systems comprising tipping bucket rain gauge and The above-mentioned telemetering terminal comprising the first timer and the second timer.It is existing, the is equipped in tipping bucket rain gauge One dry contact switch and the second dry contact switch, the first dry contact switch corresponding first tipping bucket setting, the first tipping bucket rollover states Under, the first dry contact closes the switch.Second dry contact switchs corresponding second tipping bucket and is arranged, under the second tipping bucket rollover states, second Dry contact closes the switch.In present embodiment, the first timer connects the first dry contact switch and is used as the first precipitation rain fall sensor, the Two timers connect the second dry contact switch and are used as the second precipitation rain fall sensor.In this way, in present embodiment, by by telemetry terminal system Machine is in conjunction with existing tipping bucket rain gauge, i.e., so that the two-way dry contact in tipping bucket rain gauge is rationally made With avoiding waste caused by dry contact is idle all the way；It is easy to fail to report during solving rainfall monitoring further through telemetering terminal The problem of with more reports.

The above, preferable specific embodiment only of the present invention, but protection scope of the present invention not office Be limited to this, anyone skilled in the art in the technical scope disclosed by the present invention, technology according to the present invention Scheme and its inventive concept are subject to equivalent substitution or change, should be covered by the protection scope of the present invention.

Claims (9)

1. a kind of anti-rainfall is failed to report and more datagram-style telemetering terminals characterized by comprising signal acquisition module, signal adjustment Module, delay circuit, rainfall statistical module and acquisition output module；

Signal acquisition module is for accessing collected rainfall node signal, for generating high level letter according to rainfall node signal Number；Low level signal is exported under signal acquisition module normality；

Signal adjusting module is separately connected signal acquisition module and delay circuit, the height electricity for being exported according to signal acquisition module Ordinary mail number generates low level signal and input time delay circuit；

Delay circuit is connect with rainfall statistical module, and rainfall statistical module is used for the low level signal exported in signal adjusting module Rainfall statistics is carried out after continuing delay time T；

Acquisition output module is connect with rainfall statistical module, for exporting the rainfall value of rainfall statistical module counts in real time.

2. anti-rainfall as described in claim 1 is failed to report and more datagram-style telemetering terminals, which is characterized in that signal acquisition module packet It includes and door, it is remaining with door with an input pin of door as rainfall node signal collection terminal for accessing rainfall node signal Input pin accesses high level, the output end with the output end of door as signal acquisition module.

3. anti-rainfall as claimed in claim 2 is failed to report and more datagram-style telemetering terminals, which is characterized in that signal acquisition module is also Including the free unit of failure, the first on-off unit and the second on-off unit；The output of first on-off unit and the second on-off unit It holds and is all connected with rainfall node signal collection terminal, the input terminal of the first on-off unit and the second on-off unit is respectively used to connection first Precipitation rain fall sensor and the second precipitation rain fall sensor obtain rainfall node signal；Under first on-off unit on state, the second on-off list Member disconnects；Under second on-off unit on state, the first on-off unit is disconnected；

The input terminal of the free unit of failure is separately connected the first precipitation rain fall sensor and the second precipitation rain fall sensor, and output end connects respectively Connect the first on-off unit and the second on-off unit；The free unit of failure is used to judge the according to the acquisition data of rainfall node signal One precipitation rain fall sensor and the second precipitation rain fall sensor fault condition, and for controlling the first on-off unit and second according to judging result On-off cell operation.

4. anti-rainfall as claimed in claim 3 is failed to report and more datagram-style telemetering terminals, which is characterized in that the free unit of failure is used The first rainfall is judged in the renewal speed of the rainfall node signal acquired according to the first precipitation rain fall sensor and the second precipitation rain fall sensor Sensor and the second precipitation rain fall sensor fault condition.

5. anti-rainfall as claimed in claim 4 is failed to report and more datagram-style telemetering terminals, which is characterized in that under natural conditions, the The conducting of one on-off unit, the second on-off unit disconnect；The free unit of failure includes the first timer, the second timer and compares Device, the input terminal of the first timer is for connecting the first precipitation rain fall sensor, and the input terminal of the second timer is for connecting the second rain The output end of quantity sensor, the output end of the first timer and the second timer is separately connected the first input end and of comparator Two input terminals, the output end of comparator are separately connected the first on-off unit and the second on-off unit；First timer is for calculating The rainfall node signal of first precipitation rain fall sensor acquisition acquired recently to current time difference as first time difference, the Two timers be used to calculate the second precipitation rain fall sensor exports recently twice the difference between rainfall node acquisition time as the Two time differences；Comparator is used to control the first on-off unit according to the comparison result of first time difference and the second time difference With the second on-off cell operation.

6. anti-rainfall as claimed in claim 5 is failed to report and more datagram-style telemetering terminals, which is characterized in that comparator and the second meter When device between be in series with adder, comparator regard the floating difference summation that the second time difference and adder access as reference point, Comparator is used to control the first on-off unit and the second on-off unit work according to the comparative structure of first time difference and reference point Make.

7. anti-rainfall as claimed in claim 6 is failed to report and more datagram-style telemetering terminals, which is characterized in that comparator is used for the When one time difference is greater than reference point, the first on-off unit of control disconnects and controls the conducting of the second on-off unit.

8. anti-rainfall as claimed in claim 2 is failed to report and more datagram-style telemetering terminals, which is characterized in that the first on-off unit and Second on-off unit is all made of relay.

9. a kind of anti-rainfall is failed to report and more datagram-style telemetry systems, which is characterized in that including tipping bucket rain gauge and such as right It is required that 5 to 8 described in any item telemetering terminals；The first dry contact switch and the second stem grafting are equipped in tipping bucket rain gauge Point switch, the first dry contact switch corresponding first tipping bucket and are arranged, and under the first tipping bucket rollover states, the first dry contact is closed the switch； Second dry contact switchs corresponding second tipping bucket and is arranged, and under the second tipping bucket rollover states, the second dry contact is closed the switch；First timing Device connects the first dry contact switch and is used as the first precipitation rain fall sensor, and the second timer connects the second dry contact switch and is used as the second rain Quantity sensor.