CN206682610U - One kind water intaking pumping station robot control system(RCS) - Google Patents
One kind water intaking pumping station robot control system(RCS) Download PDFInfo
- Publication number
- CN206682610U CN206682610U CN201720195393.5U CN201720195393U CN206682610U CN 206682610 U CN206682610 U CN 206682610U CN 201720195393 U CN201720195393 U CN 201720195393U CN 206682610 U CN206682610 U CN 206682610U
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- Prior art keywords
- water
- vacuum
- pump
- pipe
- vacuum manifold
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Abstract
A kind of water intaking pumping station robot control system(RCS) of the utility model,Including the vavuum pump in landing stage and the first water intaking pump group and PLC,Vacuum manifold is connected with the first vacuum manifold and vavuum pump,First water intaking pump group includes the first water inlet pipe and the first water-supply-pipe and the first water pump,Water source is stretched into the free end of first water inlet pipe,First water-supply-pipe is connected with outlet pipe,First vacuum manifold is connected with the first water inlet pipe,One end of first voltage-stabiliser tube is connected with the first vacuum manifold,And its other end is connected with the first water pump,Vavuum pump is provided with empty motor-driven valve,Vacuum manifold is provided with vacuum transducer,First vacuum manifold is provided with current delay switch,First water-supply-pipe is provided with outlet pressure sensor,Hydraulic control delay butterfly valve is located between outlet pressure sensor and outlet pipe,Vacuum electric valve,Vacuum transducer,Current delay switch and outlet pressure sensor and hydraulic control delay butterfly valve are connected with PLC.So as to solve the problems such as troublesome in poeration, consuming is big.
Description
Technical field
The utility model taking water on pump ship technical field, and in particular to one kind water intaking pumping station robot control system(RCS).
Background technology
Present thermal power generation is still generating, the main force of power supply, it is necessary to its relevant device when thermal power plant works
Cooled down and cleaning, so thermal power plant is typically established near the river having abundant water resources or river stream, Ran Houtong
The normal operation in the thermal power plant will be maintained in water pump immersion water source directly from water source water intaking by crossing, still, due to season gas
The difference of time, in 1 year the change in rainy season and dry season can cause the depth of water in water source that huge change occurs, so often will basis
The depth of water at water source adjusts depth of the water pump at the water source, not only troublesome in poeration, it is also necessary to expend substantial amounts of manpower thing
Power financial resources, hinder the development trend of automation.
Utility model content
In order to solve the above technical problems, the purpose of this utility model is the provision of a kind of water intaking pumping station robot control system(RCS), with
Solves existing troublesome in poeration, the problems such as needing to expend substantial amounts of manpower, material resources and financial resources.
To achieve the above object, a kind of water pump ship robot control system(RCS) of the utility model, including a vavuum pump and one first
Water intaking pump group and a PLC, the vavuum pump are connected with a vacuum manifold, and one first vacuum manifold and the vacuum are total
Pipe is connected, the first water intaking pump group include one first water inlet pipe and one first water-supply-pipe and connection first water inlet pipe and
Water source is stretched into one first water pump of first water-supply-pipe, the free end of first water inlet pipe, first water-supply-pipe with
One outlet pipe is connected, and first vacuum manifold extends downwardly to be connected with first water inlet pipe, one end of one first voltage-stabiliser tube
It is connected with first vacuum manifold, and the bending of its other end is extended downwardly and is connected with first water pump, the vavuum pump
It is provided with a vacuum electric valve, the vacuum manifold is provided with a vacuum transducer close to the position of the vavuum pump, and described first
Vacuum manifold is provided with a current delay switch, and first water-supply-pipe is provided with an outlet pressure sensor, hydraulic control delay
Butterfly valve is located at first water-supply-pipe between the outlet pressure sensor and the outlet pipe, the vacuum electric valve, institute
State vacuum transducer, the current delay switch and the outlet pressure sensor and the hydraulic control delay butterfly valve with it is described
PLC connects.
Preferably, a high voltage converter connects first water pump and the PLC, on the high voltage converter
High voltage converter blower fan provided with heat transmission.
Preferably, a vacuum valve is additionally provided with first vacuum manifold to be connected with the PLC, and the vacuum
The relatively described current delay switch of valve is closer to the vacuum manifold.
Preferably, in addition to an appendage vacuum pump, the appendage vacuum pump are provided with a standby vacuum electric valve, and described
Appendage vacuum pump is connected by a standby vacuum tube with the vacuum manifold, and there is a standby vacuum to pass on the standby vacuum tube
Sensor.
Preferably, in addition to one second water intaking pump group, one end of one second vacuum manifold are connected with the vacuum manifold, its
The other end is connected with the described second water intaking pump group, and the second water intaking pump group has identical component with the described first water intaking pump group
Feature.
Compared with prior art, its advantage is the utility model:A kind of water intaking pumping station automatic control system of the present utility model
System, the first water intaking pump group are located in the landing stage, and the free end of first water inlet pipe is stretched among water source, when the water
When the depth of water in source changes, the landing stage with water level rise either reduction and raise or reduce so that described
The free end of one water inlet pipe also rises or declined therewith, replaces the power manually with machinery to come described in adjust automatically with the power of nature
The raising and lowering of the free end of first water inlet pipe, production cost is not only reduced, but also energy-conserving and environment-protective meet sustainable development
The trend of exhibition.The vavuum pump, first water pump and various sensors etc. are monitored by the PLC, it is real
Automatic management is showed, has made operation simpler.
Brief description of the drawings
Fig. 1 is a kind of structural representation for pumping station robot control system(RCS) of fetching water of the utility model;
Fig. 2 is a kind of control system schematic diagram for pumping station robot control system(RCS) of fetching water of the utility model.
Embodiment
To describe technology contents, construction feature, institute's reached purpose and effect of the utility model in detail, reality is hereby enumerated below
Apply example and coordinate accompanying drawing to be explained in detail.
In description of the present utility model, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", "front", "rear",
The orientation or position relationship of the instruction such as "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer " is based on accompanying drawing institutes
The orientation or position relationship shown, it is for only for ease of description the utility model and simplifies description, rather than indicates or imply and be signified
Device or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this practicality
The limitation of novel protected scope.
Refer to shown in Fig. 1, and with reference to shown in Fig. 2, the utility model provides a kind of water intaking pumping station robot control system(RCS), including position
In in landing stage a vavuum pump 10, one first water intaking pump group 30, one second water intaking pump group 40 and 1 the 3rd fetch water pump group 50 and
One PLC.
The vavuum pump 10 is connected with a vacuum manifold 20, one first vacuum manifold 21, one second vacuum manifold 22 and one
3rd vacuum manifold 23 mutually staggers and is connected with the vacuum manifold 20.The vavuum pump 10 is provided with a vacuum electric
Valve, and the vacuum manifold 20 is provided with a vacuum transducer 11 close to the position of the vavuum pump 10.
In order to ensure whole system is stable, in addition to a standby very busy pump 12, the appendage vacuum pump 12 are provided with one
Standby vacuum electric valve, and the appendage vacuum pump 12 is connected by a standby vacuum tube 13 with the vacuum manifold 20, it is described
There is a standby vacuum transducer 14 on standby vacuum tube 13.When the vavuum pump 10 fails, can enable described standby true
Empty pump 12.Or when necessary, the vavuum pump 10 and the appendage vacuum pump 12 can be enabled simultaneously.
The first water intaking pump group 30 includes one first water inlet pipe 31 and one first water-supply-pipe 33 and connection described first
Water source is stretched into one first water pump 32 of water inlet pipe 31 and first water-supply-pipe 33, the free end of first water inlet pipe 31
70, first water-supply-pipe 33 is connected with an outlet pipe 60, and first vacuum manifold 21 extends downwardly and the described first water inlet
Pipe 31 is connected, and one end of one first voltage-stabiliser tube 34 is connected with first vacuum manifold 21, and the bending of its other end extends downwardly
It is connected with first water pump 32, first vacuum manifold 21 is provided with a current delay switch 212, first water delivery
Pipe 33 is provided with an outlet pressure sensor 331, and hydraulic control delay butterfly valve 332 is located at the outlet pressure sensor 331 and institute
State first water-supply-pipe 33 between outlet pipe 60.
The second water intaking pump group 40 includes one second water inlet pipe 41 and one second water-supply-pipe 43 and connection described second
Water source is stretched into one second water pump 42 of water inlet pipe 41 and second water-supply-pipe 43, the free end of second water inlet pipe 41
70, second water-supply-pipe 43 is connected with the outlet pipe 60, and second vacuum manifold 22 extends downwardly to be entered with described second
Water pipe 41 is connected, and one end of one second voltage-stabiliser tube 44 is connected with second vacuum manifold 22, and its other end is bent to downward
Stretch and be connected with second water pump 42, second vacuum manifold 22 is provided with a current delay switch 222, and described second is defeated
Water pipe 43 is provided with an outlet pressure sensor 431, hydraulic control delay butterfly valve 432 located at the outlet pressure sensor 431 with
Second water-supply-pipe between the outlet pipe 60.
The 3rd water intaking pump group 50 includes one the 3rd water inlet pipe 51 and one the 3rd water-supply-pipe 53 and connection the described 3rd
Water source is stretched into one the 3rd water pump 52 of water inlet pipe 51 and the 3rd water-supply-pipe 53, the free end of the 3rd water inlet pipe 51
70, the 3rd water-supply-pipe 53 is connected with the outlet pipe 60, and the 3rd vacuum manifold 23 extends downwardly to enter with the described 3rd
Water pipe 51 is connected, and one end of one the 3rd voltage-stabiliser tube 54 is connected with the 3rd vacuum manifold 23, and its other end is bent to downward
Stretch and be connected with the 3rd water pump 52, the 3rd vacuum manifold 23 is provided with a current delay switch 232, and the described 3rd is defeated
Water pipe 53 is provided with an outlet pressure sensor 531, hydraulic control delay butterfly valve 532 located at the outlet pressure sensor 531 with
The 3rd water-supply-pipe 53 between the outlet pipe 60.
The vacuum electric valve, the vacuum transducer 11, the current delay switch 212,222,232 and the outlet
Pressure sensor 331,431,531 and hydraulic control delay butterfly valve 332,432,532 are connected with the PLC.
First water pump 32, second water pump 42 and the 3rd water pump 52 pass through three high-pressure frequency-conversions respectively
Device is connected with the same PLC, and three high voltage converters are provided with the high voltage converter blower fan of heat transmission.
It is true that one is also respectively provided with first vacuum manifold 21, second vacuum tube 22 and the 3rd vacuum tube 23
Empty valve 211,221,231, each vacuum valve 211,221,231 are connected with the same PLC, and three is described true
The relatively described current delay switch 212,222,232 of empty valve 211,221,231 is closer to the vacuum manifold.
In use, by taking the described first water intaking pump group 30 as an example, the host computer i.e. water intaking pumping station computer of the PLC
Instruction is sent, system carries out self-test, after completing self-test confirmation fault-free, by controlling the PLC to open the vacuum
Motor-driven valve starts the vavuum pump 10, makes the air in vacuum manifold 20 described in the work extraction of vavuum pump 10, passes through simultaneously
The vacuum transducer 11 detects the vacuum pressure in the vacuum manifold 20;When vacuum pressure is less than -70KPa, pass through institute
State PLC control and open the vacuum valve 211 for being located at first vacuum manifold 21, then controlled again by the PLC
The current delay switch 212 positioned at first vacuum tube 21 is opened in device control processed, and the current delay switch 212 is delayed
After 30S, the corresponding high-pressure frequency-conversion blower fan starts, and then the corresponding high voltage converter starts, the high voltage converter
First water pump 32 is driven to be run according to the frequency of the water intaking pumping station computer settings;At this moment the water at the water source 70 leads to
Cross first intake pipe 31 and enter first vacuum manifold 21 and the lower end area of first voltage-stabiliser tube 34;When corresponding
The outlet pressure sensor 331 detects that first water pump 32 is more than in the pressure corresponding to it at water-supply-pipe 33
During 0.6MPa, illustrate that the vacuum in relevant tube is good, first water pump 32 normal work, at this moment by described
PLC opens the hydraulic control delay butterfly valve 331, opens after the hydraulic control delay delay of butterfly valve 331 10S, closes simultaneously completely
The vavuum pump 10 is closed, water enters the outlet pipe 60 along first water-supply-pipe 33.
Compared with prior art, its advantage is the utility model:A kind of water intaking pumping station automatic control system of the present utility model
System, the first water intaking pump group 30 are located in the landing stage, and the free end of first water inlet pipe 31 is stretched among water source 70, when
When the depth of water at the water source 70 changes, the landing stage with water level rise either reduction and raise or reduce, so as to
The free end of first water inlet pipe 31 is also risen or is declined therewith, replace the power manually with machinery to come from the power of nature
The raising and lowering of the free end of dynamic adjustment first water inlet pipe 31, not only reduces production cost, but also energy-conserving and environment-protective
Meet the trend of sustainable development.Monitored by the PLC vavuum pump 10, first water pump 32 and
Various sensors etc., realize automatic management, make operation simpler.
In summary, the only preferred embodiment of the utility model, does not limit the scope of protection of the utility model with this, all
The equivalent changes and modifications made according to the utility model patent scope and description, it is all what the utility model patent covered
Within the scope of.
Claims (5)
1. one kind water intaking pumping station robot control system(RCS), it is characterised in that:Including the vavuum pump in landing stage and one first water pump
Group and a PLC, the vavuum pump are connected with a vacuum manifold, one first vacuum manifold and the vacuum manifold phase
Even, the first water intaking pump group includes one first water inlet pipe and one first water-supply-pipe and connection first water inlet pipe and described
Water source is stretched into one first water pump of the first water-supply-pipe, the free end of first water inlet pipe, and first water-supply-pipe goes out with one
Water pipe is connected, and first vacuum manifold extends downwardly to be connected with first water inlet pipe, one end of one first voltage-stabiliser tube and institute
The first vacuum manifold is stated to be connected, and the bending of its other end is extended downwardly and is connected with first water pump, is set on the vavuum pump
There is a vacuum electric valve, the vacuum manifold is provided with a vacuum transducer, first vacuum close to the position of the vavuum pump
Branch pipe is provided with a current delay switch, and first water-supply-pipe is provided with an outlet pressure sensor, hydraulic control delay butterfly valve
First water-supply-pipe between the outlet pressure sensor and the outlet pipe, it is the vacuum electric valve, described true
Empty sensor, the current delay switch and the outlet pressure sensor and the hydraulic control delay butterfly valve with the PLC
Controller connects.
A kind of 2. water intaking pumping station robot control system(RCS) according to claim 1, it is characterised in that:Described in the connection of one high voltage converter
First water pump and the PLC, the high voltage converter are provided with the high voltage converter blower fan of heat transmission.
A kind of 3. water intaking pumping station robot control system(RCS) according to claim 1, it is characterised in that:In first vacuum manifold also
It is connected provided with a vacuum valve with the PLC, and the relatively described current delay switch of the vacuum valve is closer to described true
Empty house steward.
A kind of 4. water intaking pumping station robot control system(RCS) according to claim 1, it is characterised in that:Also include an appendage vacuum pump,
The appendage vacuum pump is provided with a standby vacuum electric valve, and the appendage vacuum pump by a standby vacuum tube with it is described true
Empty house steward is connected, and has a standby vacuum transducer on the standby vacuum tube.
A kind of 5. water intaking pumping station robot control system(RCS) according to claim 1, it is characterised in that:Also have one the in the landing stage
Two water intaking pump groups, one end of one second vacuum manifold are connected with the vacuum manifold, its other end and the described second water intaking pump group
It is connected, the second water intaking pump group has identical module diagnostic with the described first water intaking pump group.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720195393.5U CN206682610U (en) | 2017-03-02 | 2017-03-02 | One kind water intaking pumping station robot control system(RCS) |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720195393.5U CN206682610U (en) | 2017-03-02 | 2017-03-02 | One kind water intaking pumping station robot control system(RCS) |
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Publication Number | Publication Date |
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CN206682610U true CN206682610U (en) | 2017-11-28 |
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CN201720195393.5U Expired - Fee Related CN206682610U (en) | 2017-03-02 | 2017-03-02 | One kind water intaking pumping station robot control system(RCS) |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110686163A (en) * | 2019-10-12 | 2020-01-14 | 江西省水利厅工程建设稽察事务中心 | Hydraulic device capable of automatically taking and delivering water and use method thereof |
CN114754293A (en) * | 2022-04-28 | 2022-07-15 | 广船国际有限公司 | Passenger ship volume pump flow control system and method and passenger ship |
-
2017
- 2017-03-02 CN CN201720195393.5U patent/CN206682610U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110686163A (en) * | 2019-10-12 | 2020-01-14 | 江西省水利厅工程建设稽察事务中心 | Hydraulic device capable of automatically taking and delivering water and use method thereof |
CN110686163B (en) * | 2019-10-12 | 2021-11-26 | 江西省水利厅工程建设稽察事务中心 | Hydraulic device capable of automatically taking and delivering water and use method thereof |
CN114754293A (en) * | 2022-04-28 | 2022-07-15 | 广船国际有限公司 | Passenger ship volume pump flow control system and method and passenger ship |
CN114754293B (en) * | 2022-04-28 | 2024-02-06 | 广船国际有限公司 | Passenger ship volumetric pump flow control system and method and passenger ship |
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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: 20171128 Termination date: 20200302 |
|
CF01 | Termination of patent right due to non-payment of annual fee |