A kind of rubber dam remote monitoring system
Technical field
The utility model relates to a kind of rubber dam remote monitoring systems, belong to rubber dam remote monitoring system technical field.
Background technique
Currently, the operation and monitoring to rubber dam are limited only to site operation personnel in the indoor operation of distribution and observation,
It need to arrange full-time staff that pump house is periodically gone to safeguard and detect equipment, dam body and control system once break down, cannot
It timely feedbacks to operator, dam control system is when under long-term automatic operating state, it may appear that frequent start-stop or power failure
The situation restarted be easy to cause the damage of dam body and control system for a long time, if dam body and control system once break down,
It just needs professional technician to go in-situ processing, if things go on like this, many manpower and financial resources can be wasted.
It would therefore be highly desirable to a kind of rubber dam remote monitoring system that can overcome the above problem occur.
Summary of the invention
Utility model aims to solve providing in place of above-mentioned the shortcomings of the prior art, a kind of structure design is skilful
It is wonderful, staff can be made quickly to obtain rubber dam and surrounding river channel information, it is low in cost, security risk is avoided the occurrence of, it can be big
The big rubber dam remote monitoring system for improving rubber dam service life.
A kind of rubber dam remote monitoring system is characterized in that including being located at the supersonic liquid level right above river 1
Meter 2, the pressure transmitter 4 being installed on rubber pneumatic bag loading line 3 and the air compressor house 5 for being installed on 1 side of river, river
1 side is also equipped with the first vertical pillars 6, and the top of the first vertical pillars 6 is equipped with for monitoring rubber dam and river water level
The first camera 7, air compressor machine 8, power distribution cabinet 9 are installed in air compressor house 5, are equipped in air compressor house 5 at upper position
Two cameras 10 are also equipped with the thermal resistance 11 for monitoring environment temperature on power distribution cabinet 9, are also equipped with and are used on power distribution cabinet 9
Handle ultrasonic level gage 2, pressure transmitter 4, the first camera 7, second camera 10, the 11 collected information of institute of thermal resistance
Data processor 12, data processor 12 passes through cable and connects terminal device 13, and terminal device 13 and far-end computer 14 communicate
Connection;
As the utility model a preferred technical solution, the ultrasonic level gage 2 be located at right above river 1 and with
The water surface is vertical, is equipped with bracket 15 beside river 1, bracket 15 include be installed on 1 side of river the second vertical pillars 15-1 and
The horizontal column 15-2 being installed at the top of the second vertical pillars 15-1, ultrasonic level gage 2 are installed on horizontal column 15-2;
As the utility model a preferred technical solution, the vertical range of the ultrasonic level gage 2 and the water surface is
2-3 meters;
As the utility model a preferred technical solution, described 3 one end of rubber pneumatic bag loading line and 8 phase of air compressor machine
Connection, pressure transmitter 4 are installed on rubber pneumatic bag loading line 3 by manually-operated gate 16;
As the utility model a preferred technical solution, the data processor 12 includes CPU module 12-1, data
Input module 12-2, data outputting module 12-3, power module 12-4;
As the utility model a preferred technical solution, the ultrasonic level gage 2, pressure transmitter 4, thermal resistance
11 by shielding line 17 and 12 communication connection of data processor, and the first camera 7, second camera 10 pass through cable 18 and number
According to 12 communication connection of processor;
As the utility model a preferred technical solution, the terminal device 13 passes sequentially through cloud 19, firewall
20, router 21 is passed the information on to far-end computer 14;
As the utility model a preferred technical solution, the far-end computer 14 connects video wall by USB interface
22。
A kind of rubber dam remote monitoring system of the utility model, has the advantages that
1, can be with Quick Acquisition river liquid level by ultrasonic level gage, it can be with Quick Acquisition by pressure transmitter
Pressure in rubber pneumatic bag, staff according to ultrasonic level gage, the collected information of pressure transmitter to rubber pneumatic bag into
Row is filled and deflated by adjusting, such as liquid level rises after rain, and rubber pneumatic bag pressure is larger, timely depressurizes to rubber pneumatic bag, if liquid
Position is lower, in time to rubber pneumatic bag inflating pressure, can not only improve the service life of rubber pneumatic bag, and is avoided that safety is hidden
Suffer from;
2, by the first camera head monitor rubber dam and river water level, feelings inside air compressor house are monitored by second camera
Condition collects information and is shown on far-end computer by data processor, terminal device, cloud, firewall, router,
Staff can be made to grasp river and river surrounding enviroment at the first time, it is convenient for safeguarding;
3, using the transmission of wireless data, the network hardware is greatly saved and builds the expense to be generated, expense can reduce
80%;
4, fault message can be responded to site administrator by failure Real-time Feedback in a very short period of time, thus will
Fault handling time was shorten to 2-3 hours by original 2-3 days;
5, inspection and the operating time for saving site administrator, being saved by inspection originally 3 times a week is monthly three
It is secondary, it can be found and be solved the problems, such as by far-end computer completely.
In conclusion the utility model smart structural design, has a good application prospect in rubber dam field.
Detailed description of the invention
A kind of Fig. 1: structural block diagram of rubber dam remote monitoring system of the utility model;
Fig. 2: the mounting structure schematic diagram of ultrasonic level gage;
Fig. 3: the mounting structure schematic diagram of pressure transmitter;
Fig. 4: the structural block diagram of data processor.
In figure: 1, river;2, ultrasonic level gage;3, rubber pneumatic bag loading line;4, pressure transmitter;5, pneumatics
Computer room;6, the first vertical pillars;7, the first camera;8, air compressor machine;9, power distribution cabinet;10, second camera;11, thermal resistance;
12, data processor;12-1, CPU module;12-2, data input module;12-3, data outputting module;12-4, power module;
13, terminal device;14, far-end computer;15, bracket;15-1, the second vertical pillars;15-2, horizontal column;16, manually-operated gate;
17, shielding line;18, cable;19, cloud;20, firewall;21, router;22, video wall.
Specific embodiment
The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model
Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole
Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work
Every other embodiment obtained, fall within the protection scope of the utility model.
Fig. 1-4 is please referred to, the utility model provides a kind of rubber dam remote monitoring system, including river 1, supersonic liquid level
Count 2, rubber pneumatic bag loading line 3, pressure transmitter 4, air compressor house 5, the first vertical pillars 6, the first camera 7, air compressor machine
8, power distribution cabinet 9, second camera 10, thermal resistance 11, data processor 12, CPU module 12-1, data input module 12-2, number
According to output module 12-3, power module 12-4, terminal device 13, far-end computer 14, bracket 15, the second vertical pillars 15-1, water
Flat column 15-2, manually-operated gate 16, shielding line 17, cable 18, cloud 19, firewall 20, router 21, video wall 22.
Specifically include the ultrasonic level gage 2 being located at right above river 1, the pressure being installed on rubber pneumatic bag loading line 3
Power transmitter 4 and the air compressor house 5 for being installed on the side of river 1 are also equipped with the first vertical pillars 6 beside river 1, and first hangs down
The top of right cylinder 6 is equipped with the first camera 7 for monitoring rubber dam and river water level, and installation is free in air compressor house 5
Press 8, power distribution cabinet 9 are equipped with second camera 10 at upper position in air compressor house 5, are also equipped on power distribution cabinet 9 for supervising
The thermal resistance 11 of environment temperature is surveyed, is also equipped on power distribution cabinet 9 for handling ultrasonic level gage 2, pressure transmitter 4, first
Camera 7, second camera 10, thermal resistance 11 collected information data processor 12, data processor 12 passes through net
Line connects terminal device 13, terminal device 13 and 14 communication connection of far-end computer;
Ultrasonic level gage 2 is located at right above river 1 and vertical with the water surface, and bracket 15, bracket 15 are equipped with beside river 1
Including the horizontal column for being installed on the second vertical pillars 15-1 on 1 side of river and being installed at the top of the second vertical pillars 15-1
15-2, ultrasonic level gage 2 are installed on horizontal column 15-2, and the vertical range of ultrasonic level gage 2 and the water surface is 2-3 meters,
Ultrasonic level gage consists of three parts: ultrasonic transducer, processing unit, output unit, and ultrasonic level gage is by micro-
The digital liquid level instrument of device control is managed, ultrasonic pulse is issued by sensor (energy converter) in the measurements, and sound wave is through liquid surface
It is received or ultrasonic receiver after reflection by same sensor, electric signal is converted by piezo-electric crystal or magnetostrictive device,
And calculated by the time between the transmitting and reception of sound wave sensor to fluid to be measured surface distance, due to using non-contact
Measurement, measured medium is almost unrestricted, can be widely used for the measurement of various liquid and solid material height, supersonic liquid level
The power supply of meter is 220VAC, and the feedback signal of output is 4~20ma analog signals.
3 one end of rubber pneumatic bag loading line is connected with air compressor machine 8, and pressure transmitter 4 is installed on by manually-operated gate 16
On rubber pneumatic bag loading line 3, the effect of manually-operated gate 16 is one is convenient for being installed on rubber pneumatic bag inflation for pressure transmitter 4
On pipeline 3, the second is convenient for pressure transmitter 4 disassembly overhaul, pressure transmitter mainly by load cell (also referred to as
Pressure sensor), measuring circuit and process connector three parts composition, it can by gas that load cell is experienced,
The physical pressures parameter such as liquid is transformed into the electric signal (such as 4 ~ 20mADC) of standard, to supply indicator alarm, recorder, tune
The section secondary meters such as device measure, indicate and procedure regulation.The power supply of pressure transmitter is that 24VDC exports 4~20mA
Analog signals;
Data processor 12 includes CPU module 12-1, data input module 12-2, data outputting module 12-3, power supply mould
Block 12-4;
Ultrasonic level gage 2, pressure transmitter 4, thermal resistance 11 are connected by shielding line 17 and the communication of data processor 12
It connects, by cable 18 and 12 communication connection of data processor, terminal device 13 successively leads to for the first camera 7, second camera 10
Cross cloud 19, firewall 20, router 21 are passed the information on to far-end computer 14, far-end computer 14 passes through USB interface connection electricity
Depending on wall 22, so that the monitored picture of rubber dam and data sheet be shown on video wall 22.
Far-end computer 14 can realize that bidirectional data transfers (receive data and refer to sending with cloud 19 by router 21
Enable), the input of far-end computer 14, output interface are Ethernet interfaces, remote operation be by the display module of far-end computer 14,
Via router 21, cloud 19, terminal device 13, the Ethernet input of data processor 12, output interface to data processor
12 transmission instructions, it is real by the data input of data processor 12, output interface after the CPU of data processor 12 processing
Now to the control of field device, dam function that manual start and stop, a key including field device are automatic, a key collapses.Far-end computer 14 is also
It can be made adjustment in time by the analysis to data, realize the control for rising, falling to rubber dam.
First camera 7, second camera 10 by 13 wireless telecommunications of terminal device can uploaded videos picture in real time,
Far-end computer 14 can see the movement of power distribution cabinet in air compressor house, air compressor machine and pipeline when operating, while can also be observed that room
The real-time status that outer rubber dam rises and falls.
The remote monitoring system of rubber dam is theoretically what no transmission range limited, we can monitor all parts of the country
Rubber dam operating condition, as long as the scene of being able to satisfy have cable, have it is wireless, have the 4G/3G signals such as mobile, telecommunications or connection as long as energy
Realize the transmission of all data.
While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art,
It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired
Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.