CN208171395U - Reduce the floodometer of stormy waves error - Google Patents
Reduce the floodometer of stormy waves error Download PDFInfo
- Publication number
- CN208171395U CN208171395U CN201820764436.1U CN201820764436U CN208171395U CN 208171395 U CN208171395 U CN 208171395U CN 201820764436 U CN201820764436 U CN 201820764436U CN 208171395 U CN208171395 U CN 208171395U
- Authority
- CN
- China
- Prior art keywords
- infrared receiver
- receiver end
- kickboard
- infrared
- measurement column
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Level Indicators Using A Float (AREA)
Abstract
The utility model discloses the floodometers for reducing stormy waves error, the measuring instrument includes measurement column, float, first kickboard, second kickboard, first infrared receiver end, second infrared receiver end, third infrared receiver end, it is axially disposed on the left of the measurement column to have the first infrared light board, it is axially disposed on the right side of measurement column to have the second infrared light board, the float is that ring-type is socketed on measurement column, first kickboard, second kickboard is respectively hinged at the left and right sides of measurement column, first infrared receiver end is arranged in the first kickboard left end, second infrared receiver end is arranged in the second kickboard right end, third infrared receiver end is arranged in float bottom, when the first infrared receiver end, second infrared receiver end, third infrared receiver end just records waterlevel data when all receiving infrared light.This programme is it is possible to prevente effectively from water level caused by stormy waves is accidentally surveyed.
Description
Technical field
The utility model relates to level measuring fields, more particularly to reduce the floodometer of stormy waves error.
Background technique
Hydraulic engineering is the surface water and groundwater for controlling and deploying nature, reaches and removes the evil emerging sharp purpose and build
Engineering.Also referred to as Hydraulic Projects.Water is human being's production and essential precious resources of living, but the state of its naturally occurring is simultaneously
Not in full conformity with the needs of the mankind.Hydraulic engineering is only built, just can control water flow, prevents flood, and carry out water
It adjusts and distributes, to meet people's lives and production to the needs of water resource.Hydraulic engineering needs to build dam, dike, spillway, water
Lock, water inlet, channel, the different types of hydraulic structure such as cross mortise, log chute, fish pass, to realize its target.It is applied in hydraulic engineering
During the work or region of hydraulic engineering all can to monitor water level change in time accordingly using some water level monitoring equipment are arrived
Change, prevents the generation of emergency situations, existing hydraulic engineering water level monitoring equipment has monitoring inaccuracy, especially some
The biggish area of stormy waves, since stormy waves causes water level to rise one after another, the obtained water level of measurement and inaccurate in this way.
Summary of the invention
In view of this, the purpose of the utility model is to provide the floodometers for reducing stormy waves error, it is possible to prevente effectively from
Water level caused by stormy waves is accidentally surveyed.
The utility model solves above-mentioned technical problem by following technological means:
A kind of floodometer reducing stormy waves error, which includes measurement column, float, the first kickboard, second floating
Plate, the first infrared receiver end, the second infrared receiver end, third infrared receiver end, the measurement column left side are set along axial direction
It is equipped with the first infrared light board, measurement column right side is axially disposed the second infrared light board, and the float is that ring-type is socketed in measurement
On column, first kickboard, the second kickboard are respectively hinged at the left and right sides of measurement column, the setting of first infrared receiver end
In the first kickboard left end, second infrared receiver end is arranged in the second kickboard right end, and third infrared receiver end is set
Set in float bottom, when the first infrared receiver end, the second infrared receiver end, third infrared receiver end all receive it is infrared
Light time just records waterlevel data.
As the further improvement of this programme, first kickboard, the second kickboard bottom surface are smooth.
As the further improvement of this programme, the measurement column is hollow structure, the first infrared light board and the second infrared lamp
Plate is encapsulated in the hollow structure.
As the further improvement of this programme, the power supply that the measuring instrument uses is battery, and battery is encapsulated in measurement
In the hollow structure of column.
As the further improvement of this programme, first infrared receiver end, the second infrared receiver end, third are infrared
Line receiving end is powered using button cell, is communicated each other by electromagnetic wave.
As the further improvement of this programme, the waterlevel data sends monitoring center back in a manner of wirelessly communicating.
The beneficial effects of the utility model:Compared to the prior art, the single float of this programme abandoning tradition carries out water level
The mode of detection is provided with three reference substances for being used for sensed water level, i.e. float, the first kickboard, the second kickboard in this programme, and
An infrared receiver end is respectively set on these three reference substances, is then detected using infrared ray, when calm
The infrared light that two sides infrared ray lamp plate issues can be received by third infrared receiver end simultaneously, to record the water level number
According to when, waviness since kickboard rises and fall on the waves so that three infrared light receiving ends are not located in same horizontal line so that
Infrared light cannot be received simultaneously, does not record waterlevel data in this case, accidentally surveyed so as to avoid water level caused by stormy waves.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the utility model.
Specific embodiment
The utility model is described in detail below with reference to attached drawing:
As shown in Figure 1:
A kind of floodometer reducing stormy waves error, which includes measurement column 1, float 2, the first kickboard 3, second
Kickboard 4, the first infrared receiver end 6, the second infrared receiver end 5, third infrared receiver end 7.Measurement column 1 is hollow knot
Structure, 1 left side of measurement column is axially disposed the first infrared light board 12, and 1 right side of measurement column is axially disposed the second infrared light board
11, region corresponding to the first infrared light board 12 and the second infrared light board 11 is sealed using tempered glass.Float 2 is annular casing
It connects on measurement column 1, float 2 rotates under water wave impact in order to prevent, and 1 end face of measurement column is preferably designed for ellipse, makes it
It coincide with float 2.First kickboard 3, the second kickboard 4 are respectively hinged at the left and right sides of measurement column 1, the first infrared receiver end 6
Setting is arranged at 3 left end of the first kickboard, the second infrared receiver end 5 in 4 right end of the second kickboard, and third infrared receiver end 7 is set
It sets at 2 bottom of float, the first infrared receiver end 6, the second infrared receiver end 5, third infrared receiver end 7 when calm
Three is located in same horizontal line, when carrying out level measuring, only when the first infrared receiver end 6, the second infrared receiver end
5, waterlevel data is just recorded when third infrared receiver end 7 all receives infrared light.
The present embodiment will be described further above-mentioned detection mode, and preferred first infrared receiver end 6, second is infrared
Line receiving end 5,7 three kinds of third infrared receiver end carry out information exchange using electromagnetic wave wireless communication, while three is in signal
Cascaded structure is formed on transfer circuit, so that infrared ray wherein ought not received any one receiving end, waterlevel data cannot
It recording successfully, specific implementation circuit diversification, the present embodiment does not illustrate, but it is to be understood that, art technology
Personnel belong in this programme protection scope in the reasonable circuit design not departed under this programme mentality of designing.
As advanced optimizing for the present embodiment, the first kickboard 3,4 bottom surface of the second kickboard are smooth, the power supply that measuring instrument uses
For battery, battery is encapsulated in the hollow structure of measurement column 1, the first infrared receiver end 6, the second infrared receiver end 5,
Third infrared receiver end 7 is powered using button cell, is communicated each other by electromagnetic wave.The waterlevel data is with nothing
The mode of line communication sends monitoring center back to, and the signal transmitting and receiving antenna packages that the wireless communication of measuring instrument uses are in measurement column 1
In hollow structure.
Finally illustrate, mentioned in this programme to electromagnetic wave to be communicated, wirelessly communicated be using in the prior art
Communication, in addition to this using other wire communications form or other communications belong to this programme and set
Count under theme, at the same for realizing the circuit of this programme be also it is diversified, no matter how those skilled in the art change reality
It is within design scope that existing circuit, which belongs to this programme,.
Above embodiments are merely intended for describing the technical solutions of the present application, but not for limiting the present application, although referring to preferred embodiment pair
The utility model is described in detail, those skilled in the art should understand that, it can be to the technology of the utility model
Scheme is modified or replaced equivalently, and without departing from the objective and range of technical solutions of the utility model, should all be covered
In the scope of the claims of the utility model.
Claims (6)
1. a kind of floodometer for reducing stormy waves error, it is characterised in that:The measuring instrument include measurement column (1), float (2),
First kickboard (3), the second kickboard (4), the first infrared receiver end (6), the second infrared receiver end (5), third infrared ray connect
Receiving end (7), measurement column (1) left side is axially disposed to be had the first infrared light board (12), axially disposed on the right side of measurement column (1)
Have the second infrared light board (11), the float (2) is that ring-type is socketed on measurement column (1), and first kickboard (3), second float
Plate (4) is respectively hinged at the left and right sides of measurement column (1), and first infrared receiver end (6) setting is on the first kickboard (3) left side
End, second infrared receiver end (5) setting exist in the second kickboard (4) right end, third infrared receiver end (7) setting
Float (2) bottom, when the first infrared receiver end (6), the second infrared receiver end (5), third infrared receiver end (7) all connect
Waterlevel data is just recorded when receiving infrared light.
2. the floodometer according to claim 1 for reducing stormy waves error, it is characterised in that:First kickboard (3),
Second kickboard (4) bottom surface is smooth.
3. the floodometer according to claim 2 for reducing stormy waves error, it is characterised in that:The measurement column (1) is
Hollow structure, the first infrared light board (12) and the second infrared light board (11) are encapsulated in the hollow structure.
4. the floodometer according to claim 3 for reducing stormy waves error, it is characterised in that:What the measuring instrument used
Power supply is battery, and battery is encapsulated in the hollow structure of measurement column (1).
5. the floodometer according to claim 4 for reducing stormy waves error, it is characterised in that:First infrared ray connects
Receiving end (6), the second infrared receiver end (5), third infrared receiver end (7) are powered using button cell, are passed through each other
Electromagnetic wave is communicated.
6. the floodometer according to claim 5 for reducing stormy waves error, it is characterised in that:The waterlevel data is with nothing
The mode of line communication sends monitoring center back to.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820764436.1U CN208171395U (en) | 2018-05-22 | 2018-05-22 | Reduce the floodometer of stormy waves error |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201820764436.1U CN208171395U (en) | 2018-05-22 | 2018-05-22 | Reduce the floodometer of stormy waves error |
Publications (1)
Publication Number | Publication Date |
---|---|
CN208171395U true CN208171395U (en) | 2018-11-30 |
Family
ID=64365237
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201820764436.1U Expired - Fee Related CN208171395U (en) | 2018-05-22 | 2018-05-22 | Reduce the floodometer of stormy waves error |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN208171395U (en) |
-
2018
- 2018-05-22 CN CN201820764436.1U patent/CN208171395U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181130 Termination date: 20190522 |
|
CF01 | Termination of patent right due to non-payment of annual fee |