CN109116446A - A kind of mountain area rainfall test method - Google Patents
A kind of mountain area rainfall test method Download PDFInfo
- Publication number
- CN109116446A CN109116446A CN201811350587.3A CN201811350587A CN109116446A CN 109116446 A CN109116446 A CN 109116446A CN 201811350587 A CN201811350587 A CN 201811350587A CN 109116446 A CN109116446 A CN 109116446A
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- tester ontology
- tester
- spring
- ontology
- mountain area
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01W—METEOROLOGY
- G01W1/00—Meteorology
- G01W1/14—Rainfall or precipitation gauges
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- Life Sciences & Earth Sciences (AREA)
- Environmental & Geological Engineering (AREA)
- Hydrology & Water Resources (AREA)
- Engineering & Computer Science (AREA)
- Atmospheric Sciences (AREA)
- Biodiversity & Conservation Biology (AREA)
- Ecology (AREA)
- Environmental Sciences (AREA)
- Testing Or Calibration Of Command Recording Devices (AREA)
Abstract
The invention discloses a kind of mountain area rainfall test methods, comprising the following steps: step A: tester ontology is installed to earth's surface or less;Step B: detecting extraneous rainfall by precipitation rain fall sensor, and when being more than preset value, remote controllers control hydraulic telescopic machanism moves up between the idler wheel of two sides;Step C: after this body running of tester terminates, remote controllers control hydraulic telescopic machanism moves down between the idler wheel of two sides;Step D: when being overhauled, service personnel realizes the positioning of tester ontology by locator 5.The present invention when fine or rainfall is smaller, tester ontology be located at earth's surface hereinafter, its top two sides flapper tester ontology and locator are enclosed in underground, reduce its number to be exposed to the sun and rain, avoid the destruction of animal around, extend its service life.
Description
Technical field
The present invention relates to rainfall testers, and in particular to a kind of mountain area rainfall test method.
Background technique
Rainfall tester or rain glass, rain gage are that a kind of meteorologist and hydrologist are used to measure in a period of time
The instrument of the precipitation in somewhere.Rain gauge is made of raingauge receiver, water storage cylinder, water-storing bottle, and equipped with proportional to its bore
Dedicated measuring cup.Most rainfall gauge be all using millimeter as measurement unit, sometimes measurement result also can with inch or centimetre
As unit.Udometric reading can read by hand or using automatic weather station, and the frequency observed then can basis
The requirement of acquisition units and change.The rainwater in most cases collected just no longer retains after observation, but also has a small number of meteorologies
Standing-meeting is retained as the sample of pollution level or other tests.
In order to detect mountain area rainfall, prevention mud-rock flow protects mountain area environment, and rainfall tester often is arranged in mountain area,
And be monitored by wireless network connection and remote monitoring terminal, it, would generally on rainfall tester since environment is more remote
Installation positioner, convenient for equipment positioning and maintenance, but since rainfall tester chronic sun exposure drenches with rain, in addition the animal damage of surrounding
Deng the locator of rainfall tester is easy to damage, therefore is badly in need of a kind of rainfall tester for being able to solve this problem.
Summary of the invention
It is an object of that present invention to provide a kind of mountain area rainfall test methods, solve due to rainfall tester chronic sun exposure rain
Leaching, in addition the animal damage etc. of surrounding, the locator of rainfall tester is easy to the problem of damaging.
The present invention is achieved through the following technical solutions:
A kind of mountain area rainfall test method, comprising the following steps:
Step A: tester ontology is installed to earth's surface or less;
Step B: extraneous rainfall is detected by precipitation rain fall sensor, when the detected value of precipitation rain fall sensor is more than preset value, far
Range controller control hydraulic telescopic machanism moves up between the idler wheel of two sides, and flapper is pushed to open, and compression is fixed
The first spring in slot, second spring are in compressive state, and tester ontology is started to work;
Step C: after this body running of tester terminates, remote controllers control hydraulic telescopic machanism two sides idler wheel it
Between move down, the first spring in fixing groove restores deformation, collapses flapper;
Step D: when being overhauled, service personnel realizes the positioning of tester ontology by locator 5;In above-mentioned steps,
Including under ground portion and aerial part, under ground portion includes pedestal, and hydraulic telescopic machanism, hydraulic telescopic machanism are provided on pedestal
On be provided with mounting table, be threaded on mounting table and be fixed with tester ontology, tester body bottom portion is provided with positioning
Device, tester ontology can rise or fall with hydraulic telescopic machanism;
The under ground portion further includes support frame, and first sliding groove, tester ontology bottom are provided on support frame as described above
Portion is provided with support rod, and support rod one end is located in first sliding groove, and can move along first sliding groove;
The aerial part includes symmetrically arranged fixing groove, and the first spring, the first spring one are provided in fixing groove
End is fixed on the slot bottom of fixing groove, and the other end is connected with flapper, and precipitation rain fall sensor is provided in the fixing groove, and rainfall passes
Sensor is connected with remote controllers, and remote controllers are connected to hydraulic telescopic machanism;
Two opposite sides of the flapper are provided with connecting rod, and rotating bar is hinged in connecting rod, rotation
Bar is hinged with rocking bar far from one end of connecting rod, and the hinged place of rotating bar and rocking bar is coaxially arranged with idler wheel, runs through in connecting rod
It is provided with sliding bar, rocking bar one end is fixed on sliding bar, and can be mobile with sliding bar on the direction vertical with connecting rod,
The rocking bar is provided with second spring, the one end of the sliding bar far from rotating bar between one end and connecting rod of sliding bar
It is provided with block, one end that two sliding bars are in contact is provided with waterproof portion;
When the tester ontology is located underground, two waterproof portions contact with each other, and the first spring and the second bullet
Spring is in compressive state, and when the tester ontology is located at ground, two flappers are separated from each other, and edge respectively
The the first axle of spring direction respectively connected is mobile, and two idler wheels roll on the surface of the two sides of tester ontology respectively
It is dynamic.
By the way that idler wheel is arranged, the frictional force for being subject to tester ontology in raising and lowering is smaller, rises or falls
It is more efficient, so that the movement of flapper is more efficient, and it can reduce the degree of wear of tester body surface.
Tester ontology uses rainfall tester in the prior art in the present invention, and it is normal that remote controllers are connected with this field
Remote monitoring terminal is transmitted and is monitored to the data that tester ontology detects.
When fine or rainfall is smaller, tester ontology is located at earth's surface hereinafter, the flapper of its top two sides will
Tester ontology and locator are enclosed in underground, reduce its number to be exposed to the sun and rain, avoid the destruction of animal around, extend it
Service life.Compared with the existing technology, in the present invention tester ontology and locator be located at earth's surface hereinafter, influenced by the external world it is smaller, such as
Fruit rainfall tester is exposed outside, even if simply being protected to it, is also still more easily damaged, especially for some
For large-scale wild animal, rainfall tester ontology and protective device are integrally destroyed and are also easy to, and is enclosed in ground
After lower, good rain and sun effect has been not only acted as, additionally it is possible to avoid animal discovery around, while locator is protected
Come, is also convenient for the positioning of maintenance personal.
When rainfall is larger, according to different orographic conditions, the work journey of precipitation rain fall sensor is set by remote controllers
Sequence, when precipitation rain fall sensor detects that rainfall is continued above certain limit value, remote controllers control hydraulic telescopic machanism and rise, and make
Tester ontology rises to earth's surface or more, carries out rainfall test, and test data is transmitted to remote monitoring terminal, at this point, the
One spring is by bigger pressing force.After rainfall reduction, remote controllers control hydraulic telescopic machanism decline, make tester sheet
Body drops to earth's surface hereinafter, at this point, two pieces of flappers are restored under the elastic restoring force effect of the first spring is in contact
Position, and tester ontology and its locator closed protective are got up.
In the technical scheme, waterproof portion uses common waterproof material in art technology, such as: pitch class waterproof material
Material, the rubber plastic class waterproof material made of neoprene, polyvinyl chloride etc., sheet metal, galvanized steel plain sheet, profiled sheet, painting
The metals class waterproof materials such as layer steel plate;Precipitation rain fall sensor periphery is provided with protective shell, and settable multiple precipitation rain fall sensors, reduces
Detection error.
Further, the under ground portion bottom is set as apsacline, and lowest point is provided with water outlet, convenient for discharge underground
Partial ponding.
Further, the hydraulic telescopic machanism includes hydraulic cylinder and piston rod, and hydraulic cylinder is fixed on the base, institute
State mounting table connection on the piston rod.
Further, one end that the support rod is located at first sliding groove is provided with limited block, and the size of limited block is greater than the
The opening of one sliding slot, effect is that support rod is avoided to fall off from first sliding groove, and tester ontology moves under the action of support rod
It is dynamic more steady.
Further, the under ground portion is provided with dryer, and dryer is connect with the remote controllers.Instrument to be tested
Ontology completes rainfall test, and after dropping to earth's surface or less by hydraulic telescopic machanism, and remote controllers are controllable to open baking
Dry machine dries tester ontology and locator etc..
Further, the fixing groove is internally provided with second sliding slot, and protrusion is provided on the flapper, and protrusion is embedding
Enter in second sliding slot, is raised above 5~10cm of opening of the fixing groove, flapper is avoided to fall off from second sliding slot.
Further, the flapper is wedge structure, and the side close to ground is big end, the active catch of wedge structure
Plate is perpendicular to its lozenges with the position stress of tester body contacts, it is easier to quilt when tester ontology rises
It opens.
Further, the junction of the mounting table and tester ontology is provided with reinforcing rib.
Compared with prior art, the present invention having the following advantages and benefits: when fine or rainfall is smaller,
Tester ontology be located at earth's surface hereinafter, its top two sides flapper tester ontology and locator are enclosed in underground, subtract
The small number that it is exposed to the sun and rain, avoids the destruction of animal around, extends its service life.
Detailed description of the invention
Attached drawing described herein is used to provide to further understand the embodiment of the present invention, constitutes one of the application
Point, do not constitute the restriction to the embodiment of the present invention.In the accompanying drawings:
Fig. 1 is schematic structural view of the invention;
Fig. 2 is 2 fixing groove schematic diagram of internal structure of the embodiment of the present invention;
Fig. 3 is partial enlarged view when flapper of the present invention collapses;
Fig. 4 is partial enlarged view when flapper of the present invention is opened.
Label and corresponding parts title in attached drawing:
1- pedestal, 2- hydraulic telescopic machanism, 3- mounting table, 4- tester ontology, 5- locator, 6- support frame, 7- first
Sliding slot, 8- support rod, 9- fixing groove, the first spring of 10-, 11- flapper, 12- precipitation rain fall sensor, 13- water outlet, 14- are anti-
Water portion, 15- limited block, 16- dryer, 17- second sliding slot, 18- protrusion, 19- connecting rod, 20- rotating bar, 21- idler wheel, 22-
Sliding bar, 23- second spring, 24- block, 25- rocking bar.
Specific embodiment
To make the objectives, technical solutions, and advantages of the present invention clearer, below with reference to embodiment and attached drawing, to this
Invention is described in further detail, and exemplary embodiment of the invention and its explanation for explaining only the invention, are not made
For limitation of the invention.
Embodiment 1
As Figure 1-Figure 4, a kind of mountain area rainfall test method of the present invention, comprising the following steps:
Step A: tester ontology 4 is installed to earth's surface or less;
Step B: detecting extraneous rainfall by precipitation rain fall sensor 12, when the detected value of precipitation rain fall sensor 12 is more than preset value
When, remote controllers control hydraulic telescopic machanism 2 moves up between the idler wheel 21 of two sides, and flapper 11 is pushed to beat
It opens, compresses the first spring 10 in fixing groove 9, second spring 23 is in compressive state, and tester ontology 4 is started to work;
Step C: after the work of tester ontology 4 terminates, remote controllers control hydraulic telescopic machanism 2 in the idler wheel of two sides
It is moved down between 21, the first spring 10 in fixing groove 9 restores deformation, collapses flapper 11;
Step D: when being overhauled, service personnel realizes the positioning of tester ontology 4 by locator 5;In above-mentioned steps,
Including under ground portion and aerial part, under ground portion includes pedestal 1, and hydraulic telescopic machanism 2, hydraulically extensible are provided on pedestal 1
It is provided with mounting table 3 in mechanism 2, is threaded on mounting table 3 and is fixed with tester ontology 4,4 bottom of tester ontology is set
It is equipped with locator 5, tester ontology 4 can rise or fall with hydraulic telescopic machanism 2;
The under ground portion further includes support frame 6, and first sliding groove 7, the tester ontology are provided on support frame as described above 6
4 bottoms are provided with support rod 8, and 8 one end of support rod is located in first sliding groove 7, and can move along first sliding groove 7;
The aerial part includes symmetrically arranged fixing groove 9, and the first spring 10, the first bullet are provided in fixing groove 9
10 one end of spring is fixed on the slot bottom of fixing groove 9, and the other end is connected with flapper 11, and rainfall biography is provided in the fixing groove 9
Sensor 12, precipitation rain fall sensor 12 are connected with remote controllers, and remote controllers are connected to hydraulic telescopic machanism 2;
Two opposite sides of the flapper 11 are provided with connecting rod 19, are hinged with rotating bar in connecting rod 19
20, rotating bar 20 is hinged with rocking bar 25 far from one end of connecting rod 19, and rotating bar 20 and the hinged place of rocking bar 25 are coaxially arranged with
Idler wheel 21 is provided through sliding bar 22 in connecting rod 19, and 25 one end of rocking bar is fixed on sliding bar 22, and can with connection
Mobile with sliding bar 22 on the vertical direction of bar 19, the rocking bar 25 is arranged between one end and connecting rod 19 of sliding bar 22
There is second spring 23, the sliding bar 22 is provided with block 24 far from one end of rotating bar 20, and two sliding bars 22 connect
One end of touching is provided with waterproof portion 14;
When the tester ontology 4 is located underground, two waterproof portions 14 contact with each other, and the first spring 10 and
Two springs 23 are in compressive state, and when the tester ontology 4 is located at ground, two flappers 11 mutually divide
It opens, and is moved respectively along 10 axis direction of the first spring respectively connected, two idler wheels 21 are respectively in tester ontology 4
It is rolled on the surface of two sides.
By be arranged idler wheel 21, the frictional force for being subject to tester ontology 4 in raising and lowering is smaller, rise or under
It drops more efficient, so that the movement of flapper 11 is more efficient, and can reduce the abrasion journey on 4 surface of tester ontology
Degree.
Tester ontology 4 uses rainfall tester in the prior art in the present invention, and remote controllers are connected with this field
Common remote monitoring terminal is transmitted and is monitored to the data that tester ontology 4 detects.
When fine or rainfall is smaller, tester ontology 4 be located at earth's surface hereinafter, its top two sides flapper 11
Tester ontology 4 and locator 5 are enclosed in underground, reduces its number to be exposed to the sun and rain, avoids the destruction of animal around, prolong
Its long service life.
When rainfall is larger, according to different orographic conditions, the work of precipitation rain fall sensor 12 is set by remote controllers
Program, when precipitation rain fall sensor 12 detects that rainfall is continued above certain limit value, remote controllers are controlled on hydraulic telescopic machanism 2
It rises, tester ontology 4 is made to rise to earth's surface or more, carry out rainfall test, and test data is transmitted to remote monitoring terminal, this
When, the first spring 10 is by bigger pressing force.After rainfall reduction, remote controllers control hydraulic telescopic machanism 2 and decline, and make
Tester ontology 4 drops to earth's surface hereinafter, at this point, two pieces of flappers 11 are extensive under the elastic restoring force effect of the first spring 10
It is multiple to get up to the position being in contact, and by tester ontology 4 and its 5 closed protective of locator.
In the technical scheme, waterproof portion 14 uses common waterproof material in art technology, such as: pitch class waterproof
Material, the rubber plastic class waterproof material made of neoprene, polyvinyl chloride etc., sheet metal, galvanized steel plain sheet, profiled sheet,
The metals class waterproof material such as coated steel sheet;12 periphery of precipitation rain fall sensor is provided with protective shell, and settable multiple precipitation rain fall sensors,
Reduce detection error.
Embodiment 2
The present invention is on the basis of embodiment 1, to further illustrate to the present invention.
As Figure 1-Figure 2, a kind of mountain area rainfall test method of the present invention, under ground portion bottom are set as apsacline, most
Lower is provided with water outlet 13, convenient for the ponding of under ground portion is discharged.
Hydraulic telescopic machanism 2 includes hydraulic cylinder and piston rod, and hydraulic cylinder is fixed on the pedestal 1, and the mounting table 3 connects
It connects on the piston rod.
One end that support rod 8 is located at first sliding groove 7 is provided with limited block 15, and the size of limited block 15 is greater than first sliding groove 7
Opening, effect is that support rod 8 is avoided to fall off from first sliding groove 7, and tester ontology 4 is mobile under the action of support rod 8
It is more steady.
Under ground portion is provided with dryer 16, and dryer 16 is connect with the remote controllers.Instrument ontology 4 to be tested is completed
Rainfall test, and dropped to after earth's surface or less by hydraulic telescopic machanism 2, remote controllers are controllable to open dryer 16,
Tester ontology 4 and locator 5 etc. are dried.
Fixing groove 9 is internally provided with second sliding slot 17, and protrusion 18,18 insertion the of protrusion are provided on the flapper 11
In two sliding slots 17, protrusion 18 exceeds 5~10cm of opening of the fixing groove 9, avoids flapper 11 from second sliding slot 17
It falls off.
Flapper 11 is wedge structure, and the side close to ground is big end, and the flapper 11 of wedge structure is being tested
When instrument ontology 4 rises, the position stress contacted with tester ontology 4 is perpendicular to its lozenges, it is easier to be opened.
The junction of mounting table 3 and tester ontology 4 is provided with reinforcing rib.
Above-described specific embodiment has carried out further the purpose of the present invention, technical scheme and beneficial effects
It is described in detail, it should be understood that being not intended to limit the present invention the foregoing is merely a specific embodiment of the invention
Protection scope, all within the spirits and principles of the present invention, any modification, equivalent substitution, improvement and etc. done should all include
Within protection scope of the present invention.
Claims (8)
1. a kind of mountain area rainfall test method, which comprises the following steps:
Step A: tester ontology (4) is installed to earth's surface or less;
Step B: detecting extraneous rainfall by precipitation rain fall sensor (12), when the detected value of precipitation rain fall sensor (12) is more than preset value
When, remote controllers control hydraulic telescopic machanism (2) moves up between the idler wheel (21) of two sides, and pushes flapper
(11) it opens, the first spring (10) in compression fixing groove (9), second spring (23) is in compressive state, tester ontology (4)
It starts to work;
Step C: after tester ontology (4) work terminates, remote controllers control hydraulic telescopic machanism (2) in the idler wheel of two sides
(21) it is moved down between, the first spring (10) in fixing groove (9) restores deformation, collapses flapper (11);
Step D: when being overhauled, service personnel realizes the positioning of tester ontology (4) by locator (5);In above-mentioned steps,
Including under ground portion and aerial part, under ground portion includes pedestal (1), and hydraulic telescopic machanism (2), liquid are provided on pedestal (1)
It is provided with mounting table (3) in pressure telescoping mechanism (2), is threaded and is fixed with tester ontology (4) on mounting table (3), surveyed
Examination instrument ontology (4) bottom is provided with locator (5), and tester ontology (4) can rise or fall with hydraulic telescopic machanism (2);
The under ground portion further includes support frame (6), is provided on support frame as described above (6) first sliding groove (7), the tester sheet
Body (4) bottom is provided with support rod (8), and support rod (8) one end is located in first sliding groove (7), and can move along first sliding groove (7)
It is dynamic;
The aerial part includes symmetrically arranged fixing groove (9), is provided with the first spring (10) in fixing groove (9), first
Spring (10) one end is fixed on the slot bottom of fixing groove (9), and the other end is connected with flapper (11), sets on the fixing groove (9)
It is equipped with precipitation rain fall sensor (12), precipitation rain fall sensor (12) is connected with remote controllers, remote controllers and hydraulic telescopic machanism (2)
Connection;
Two opposite sides of the flapper (11) are provided with connecting rod (19), and connecting rod is hinged with rotation on (19)
Bar (20), rotating bar (20) are hinged with rocking bar (25) far from the one end of connecting rod (19), the hinge of rotating bar (20) and rocking bar (25)
The place of connecing is coaxially arranged with idler wheel (21), is provided through in connecting rod (19) sliding bar (22), and rocking bar (25) one end is fixed on cunning
In lever (22), and can be mobile with sliding bar (22) on the direction vertical with connecting rod (19), the rocking bar (25) is close
It is provided with second spring (23) between one end and connecting rod (19) of sliding bar (22), the sliding bar (22) is far from rotating bar
(20) one end is provided with block (24), and one end that two sliding bars (22) are in contact is provided with waterproof portion (14);
When the tester ontology (4) is located underground, two waterproof portions (14) contact with each other, and the first spring (10) and
Second spring (23) is in compressive state, when the tester ontology (4) is located at ground, two flappers (11)
It is separated from each other, and mobile along the first spring (10) axis direction respectively connected respectively, two idler wheels (21) are being surveyed respectively
It tries to roll on the surface of the two sides of instrument ontology (4).
2. a kind of mountain area rainfall test method according to claim 1, it is characterised in that: the under ground portion bottom setting
For apsacline, lowest point is provided with water outlet (13).
3. a kind of mountain area rainfall test method according to claim 1, it is characterised in that: the hydraulic telescopic machanism (2)
Including hydraulic cylinder and piston rod, hydraulic cylinder is fixed on the pedestal (1), and mounting table (3) connection is on the piston rod.
4. a kind of mountain area rainfall test method according to claim 1, it is characterised in that: the support rod (8) is located at the
One end of one sliding slot (7) is provided with limited block (15).
5. a kind of mountain area rainfall test method according to claim 1, it is characterised in that: the under ground portion is provided with baking
Dry machine (16), dryer (16) are connect with the remote controllers.
6. a kind of mountain area rainfall test method according to claim 1, it is characterised in that: set inside the fixing groove (9)
It is equipped with second sliding slot (17), is provided on the flapper (11) raised (18), in raised (18) insertion second sliding slot (17),
Raised (18) exceed the 5~10cm of opening of the fixing groove (9).
7. a kind of mountain area rainfall test method described according to claim 1~any one of 6, it is characterised in that: the work
Dynamic baffle (11) are wedge structure, and the side close to ground is big end.
8. a kind of mountain area rainfall test method described according to claim 1~any one of 6, it is characterised in that: described to put
The junction for setting platform (3) and tester ontology (4) is provided with reinforcing rib.
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Application publication date: 20190101 |