CN114000474A - Siphon type concealed pipe drainage device and communicated concealed pipe drainage device - Google Patents

Siphon type concealed pipe drainage device and communicated concealed pipe drainage device Download PDF

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Publication number
CN114000474A
CN114000474A CN202111312029.XA CN202111312029A CN114000474A CN 114000474 A CN114000474 A CN 114000474A CN 202111312029 A CN202111312029 A CN 202111312029A CN 114000474 A CN114000474 A CN 114000474A
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China
Prior art keywords
water
drainage
pipe
collecting well
water collecting
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CN202111312029.XA
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Chinese (zh)
Inventor
王少丽
陶园
瞿兴业
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China Institute of Water Resources and Hydropower Research
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China Institute of Water Resources and Hydropower Research
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Priority to CN202111312029.XA priority Critical patent/CN114000474A/en
Publication of CN114000474A publication Critical patent/CN114000474A/en
Pending legal-status Critical Current

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    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B11/00Drainage of soil, e.g. for agricultural purposes
    • EFIXED CONSTRUCTIONS
    • E02HYDRAULIC ENGINEERING; FOUNDATIONS; SOIL SHIFTING
    • E02BHYDRAULIC ENGINEERING
    • E02B11/00Drainage of soil, e.g. for agricultural purposes
    • E02B11/005Drainage conduits
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/04Gullies inlets, road sinks, floor drains with or without odour seals or sediment traps
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/20Siphon pipes or inverted siphons
    • EFIXED CONSTRUCTIONS
    • E03WATER SUPPLY; SEWERAGE
    • E03FSEWERS; CESSPOOLS
    • E03F5/00Sewerage structures
    • E03F5/22Adaptations of pumping plants for lifting sewage
    • HELECTRICITY
    • H02GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
    • H02JCIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
    • H02J7/00Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
    • H02J7/34Parallel operation in networks using both storage and other dc sources, e.g. providing buffering
    • H02J7/35Parallel operation in networks using both storage and other dc sources, e.g. providing buffering with light sensitive cells

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  • Engineering & Computer Science (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • General Engineering & Computer Science (AREA)
  • Hydrology & Water Resources (AREA)
  • Public Health (AREA)
  • Water Supply & Treatment (AREA)
  • Health & Medical Sciences (AREA)
  • Agronomy & Crop Science (AREA)
  • Mechanical Engineering (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Power Engineering (AREA)
  • Jet Pumps And Other Pumps (AREA)

Abstract

The invention relates to a siphon type hidden pipe drainage device and a communication type hidden pipe drainage device, belonging to the field of hidden pipe drainage, comprising a water collecting well for storing water; the water collecting pipe is arranged on the side surface of the water collecting well, is communicated with the interior of the water collecting well, and is used for collecting water and guiding the water into the water collecting well; the water suction pump is arranged at the bottom of the water collecting well and used for pumping water in the water collecting well to a drainage ditch through a drainage pipe; one end of the water drainage pipe penetrates through the interior of the water collecting well and is connected with the water suction pump, and the other end of the water drainage pipe is arranged at the drainage ditch and is used for conveying the water body in the water collecting well to the drainage ditch under the driving of the water suction pump; the power supply is connected with the water suction pump and used for supplying power; siphon drainage system, including the siphon, the both ends of siphon insert respectively to the sump pit below the liquid level in escape canal, utilize the siphon principle with the water in the sump pit to carry to the escape canal through the siphon, solved the unbalanced problem between water pump pumping flow and the farmland hidden pipe drainage supply flow, promoted drainage efficiency.

Description

Siphon type concealed pipe drainage device and communicated concealed pipe drainage device
Technical Field
The invention relates to the field of concealed conduit drainage, in particular to a siphon type concealed conduit drainage device and a communication type concealed conduit drainage device.
Background
The underground pipe drainage technology is a drainage technology for removing excess water in field soil by using underground pipes, water is collected to a water collecting pipe from the field underground pipes in a mode of burying the underground pipes in the field, then the water is collected to a water collecting well through the water collecting pipe, and the water is discharged to a drainage ditch through a water pump in the water collecting well, so that the aims of removing the excess water in the soil and reducing the underground water level are fulfilled.
When designing the water pump flow of the concealed conduit drainage system, the dynamic balance between the water pump pumping flow and the farmland concealed conduit drainage supply flow needs to be ensured so as to strive for the lowest cost and the highest drainage efficiency. However, in the existing concealed pipe drainage system, the hourly flow is usually calculated according to the peak sunshine hours according to the daily concealed pipe drainage flow as the designed drainage flow of the water pump, or the hourly flow is obtained according to the daily concealed pipe drainage divided by 24 hours as the designed drainage flow of the water pump, and the concealed pipe drainage system designed by the methods generally has the problems of unbalance between the water pumping flow of the water pump and the farmland concealed pipe drainage supply flow and low drainage efficiency.
Disclosure of Invention
The invention aims to provide a siphon type hidden pipe drainage device and a communication type hidden pipe drainage device, which are used for solving the problem of unbalance between the pumping flow of a water pump and the drainage supply flow of a hidden pipe of a farmland and improving the drainage efficiency of a system.
In order to achieve the purpose, the invention provides the following scheme:
in one aspect, the present invention provides a siphonic concealed conduit drainage device, comprising:
the water collecting well is used for storing water bodies;
the water collecting pipe is arranged on the side surface of the water collecting well, is communicated with the interior of the water collecting well, and is used for collecting water and guiding the water into the water collecting well;
the water suction pump is arranged at the bottom of the water collecting well and used for pumping water in the water collecting well to a drainage ditch through a drainage pipe;
one end of the drainage pipe penetrates through the interior of the water collecting well and is connected with the water suction pump, and the other end of the drainage pipe is arranged at the drainage ditch and is used for conveying the water body in the water collecting well to the drainage ditch under the driving of the water suction pump;
the power supply is connected with the water suction pump and used for supplying power to the water suction pump;
siphon drainage system, including the siphon, the both ends of siphon insert respectively to the sump pit with below the liquid level of escape canal, siphon drainage system is used for working as water level is higher than in the sump pit during water level, utilizes the siphon principle will water in the sump pit warp the siphon is continuous automatic transport extremely in the escape canal.
Optionally, the siphon drainage system further comprises a three-way pipe, an air inlet pipe, a check valve, a vacuum pump and a water outlet pipe;
one end of the air inlet pipe is connected with the siphon pipe through the three-way pipe, and the other end of the air inlet pipe is connected with an air inlet of the vacuum pump;
the check valve is arranged on the air inlet pipe;
the water outlet pipe is connected with the water outlet of the vacuum pump.
Optionally, the siphon inserts the one end of escape canal is provided with first check valve, first check valve is used for working as the water level of escape canal is higher than during the sump pit, prevent that the water from taking place the refluence.
Optionally, the power supply is a solar photovoltaic power generation power supply;
the solar photovoltaic power generation power supply comprises a solar cell panel and an inverter; the solar cell panel is connected with the water pump through the inverter; the solar cell panel is used for receiving solar radiation and converting light energy into direct current electric energy, and the inverter is used for converting the direct current electric energy into alternating current electric energy and supplying power to the water suction pump.
Optionally, the inverter has a water level control function, where the water level control function means that when a distance between a water level in the water collection well and a siphon pipe orifice inserted into the water collection well reaches a preset threshold, the inverter stops supplying power to the water pump.
Optionally, the vacuum pump is a water ring vacuum pump with a minimum power of 0.81KW, and the pumping rate is 450L/min.
In another aspect, the present invention provides a communication type hidden pipe drainage device, including:
the water collecting well is used for storing water bodies;
the water collecting pipe is arranged on the side surface of the water collecting well, is communicated with the interior of the water collecting well, and is used for collecting water and guiding the water into the water collecting well;
the water suction pump is arranged at the bottom of the water collecting well and used for pumping water in the water collecting well to a drainage ditch through a drainage pipe;
one end of the drainage pipe penetrates through the interior of the water collecting well and is connected with the water suction pump, and the other end of the drainage pipe is arranged at the drainage ditch and is used for conveying the water body in the water collecting well to the drainage ditch under the driving of the water suction pump;
the power supply is connected with the water suction pump and used for supplying power to the water suction pump;
the communicating pipe is horizontally arranged, one end of the communicating pipe penetrates through the side face of the water collecting well and extends into the water body in the water collecting well, and the other end of the communicating pipe penetrates through the side face of the drainage ditch and extends into the water body in the drainage ditch; and the communicating pipe is used for continuously and automatically conveying the water body in the water collecting well to the drainage ditch when the water level of the water body in the water collecting well is higher than that of the water body in the drainage ditch.
Optionally, the communicating pipe stretches into the one end of escape canal is provided with the second check valve, the second check valve is used for working as the water level of escape canal is higher than during the sump pit, prevent that the water from taking place the refluence.
Optionally, the power supply is a solar photovoltaic power generation power supply;
the solar photovoltaic power generation power supply comprises a solar cell panel and an inverter; the solar cell panel is connected with the water pump through the inverter; the solar cell panel is used for receiving solar radiation and converting light energy into direct current electric energy, and the inverter is used for converting the direct current electric energy into alternating current electric energy and supplying power to the water suction pump.
Optionally, the distance between one end of the communicating pipe located in the water collecting well and the wellhead of the water collecting well is 3.0 m.
According to the specific embodiment provided by the invention, the invention discloses the following technical effects:
the invention provides a siphon type hidden pipe drainage device and a communication type hidden pipe drainage device, which have the same design principle and realize drainage by utilizing a positive water level difference between a water collecting well and a drainage ditch. The siphon-type hidden pipe drainage device can be used for upgrading and reconstructing a built hidden pipe drainage system, and a siphon drainage system is additionally arranged to be combined with a solar photovoltaic water pump drainage system for drainage; the communicated type concealed pipe drainage device can be used when a concealed pipe drainage system is newly built, the mode of arranging the communicating pipes is adopted, the communicating pipe drainage is combined with the solar photovoltaic water suction pump drainage system for drainage, so that the overall drainage performance and the diversity of drainage modes of the system can be improved, the problem of unbalance between the solar photovoltaic water suction pump drainage flow and the farmland concealed pipe drainage supply flow can be effectively solved, and the drainage efficiency of the concealed pipe drainage device is remarkably improved.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts. The following drawings are not necessarily to scale, emphasis instead being placed upon illustrating the principles of the invention.
FIG. 1 is a schematic structural view of a siphonic concealed pipe drainage device provided in embodiment 1 of the present invention;
fig. 2 is a schematic structural view of a siphon drainage system provided in embodiment 1 of the present invention;
fig. 3 is a schematic structural diagram of a communication type concealed pipe drainage device provided in embodiment 2 of the present invention.
Description of reference numerals:
1-a water collecting well; 2-a water collecting pipe; 3, a water pump; 4-a drain pipe; 5-solar photovoltaic power generation power supply; 51-solar panel; 52-an inverter; 6-siphon drainage system; 61-siphon; 62-a tee pipe; 63-air inlet pipe; 64-check valve; 65-vacuum pump; 66-a water outlet pipe; 67-a first check valve; 7-communicating pipe; 8-a second check valve; 9-a drainage ditch.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.
As used in this disclosure and in the claims, the terms "a," "an," "the," and/or "the" are not intended to be inclusive in the singular, but rather are inclusive in the plural, unless the context clearly dictates otherwise. In general, the terms "comprises" and "comprising" merely indicate that steps and elements are included which are explicitly identified, that the steps and elements do not form an exclusive list, and that a method or apparatus may include other steps or elements.
Although the present invention makes various references to certain modules in a system according to embodiments of the present invention, any number of different modules may be used and run on a user terminal and/or server. The modules are merely illustrative and different aspects of the systems and methods may use different modules.
Flow charts are used in the present invention to illustrate the operations performed by a system according to embodiments of the present invention. It should be understood that the preceding or following operations are not necessarily performed in the exact order in which they are performed. Rather, the various steps may be processed in reverse order or simultaneously, as desired. Meanwhile, other operations may be added to the processes, or a certain step or several steps of operations may be removed from the processes.
The photovoltaic water pump system is also called as a solar photoelectric water pump system, and is characterized in that a photovoltaic module array is utilized to directly convert solar energy into electric energy, and a driving motor drives a water pump to work to extract water at water sources such as rivers, wells, ponds and the like. The photovoltaic water pump system can be widely applied to regions such as pastures, grasslands, frontier sentries, agriculture and the like, provides drinking water for people and livestock and irrigation water for grasslands, pastures or other crops, and is still in the starting stage of application in the aspect of farmland drainage.
Most of the existing hidden pipe drainage devices are devices combining a hidden pipe drainage system and a solar photoelectric water pump system. The solar photoelectric water pump system is a photovoltaic pumping system which utilizes electric power generated by a photovoltaic array to drive a water pump to work, and mainly comprises a solar cell panel, a solar inverter and a water pump, wherein the solar cell panel receives solar radiation and converts light energy into direct current electric energy, and the inverter is used for inverting the direct current into alternating current to be used as a power source to drive the water pump to normally operate. The concealed pipe drainage system collects water from field concealed pipes to the water collecting pipes, then collects the water into the water collecting wells through the water collecting pipes, and discharges the water into the drainage ditches through the water pumps in the water collecting wells. When the solar photovoltaic concealed pipe drainage system is designed, due drainage flow is guaranteed, and the power of a water pump cannot be required to be too high, so that the solar photovoltaic concealed pipe drainage system is free from being provided with more solar panels, occupies a large area and is high in cost.
The invention aims to provide a siphon type hidden pipe drainage device and a communication type hidden pipe drainage device, which are used for solving the problem of unbalance between the pumping flow of a water pump and the drainage supply flow of a hidden pipe of a farmland and improving the drainage efficiency of a system.
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.
Example 1
As shown in fig. 1, the present embodiment provides a siphon-type concealed pipe drainage device, which can be directly upgraded and improved on the basis of the existing and established concealed pipe drainage system without destroying the existing concealed pipe drainage system.
The device specifically includes:
the water collecting well 1 is used for storing water bodies, the water bodies mainly comprise field water bodies such as crop water, soil water, underground water and the like, and when the device is used in other scenes, the water bodies can be water bodies of other types.
And the water collecting pipe 2 is arranged on the side surface of the water collecting well 1, is communicated with the inside of the water collecting well 1, is used for collecting water and guides the water into the water collecting well 1.
And the water suction pump 3 is arranged at the bottom of the water collecting well 1 and used for pumping the water body in the water collecting well 1 to the drainage ditch 9 through the drainage pipe 4.
Drain pipe 4, one end is passed inside sump pit 1 and with suction pump 3 is connected, the other end set up in 9 departments in escape canal, be used for under the drive of suction pump 3 will water in the sump pit 1 is carried extremely in the escape canal 9.
And the power supply is connected with the water suction pump 3 and used for supplying power to the water suction pump 3.
Siphon drainage system 6, including siphon 61, the both ends of siphon 61 insert respectively to the sump 1 with the below the liquid level of escape canal 9, wherein, siphon 61 inserts the one end of sump 1 is siphon 61 water inlet, inserts the one end of escape canal 9 is siphon 61 delivery port. The water inlet of the siphon 61 is close to the bottom of the water collecting well 1, but needs to be kept a certain distance away from the bottom of the water collecting well 1 to ensure that the water body smoothly enters the siphon 61. The siphon drainage system 6 is used for conveying the water in the water collecting well 1 to the drainage ditch 9 through the siphon 61 by utilizing the siphon principle when the water level in the water collecting well 1 is higher than the water level in the drainage ditch 9.
In this embodiment, siphon 61 water inlet is in the position below the sump 1 water level all the time, and siphon 61 water inlet can adopt the filter screen parcel to prevent that debris from getting into siphon 61 and causing the influence to the drainage process, guarantee siphon drainage system 6's normal operating.
As shown in fig. 1 and 2, the siphon drainage system 6 includes, in addition to the siphon 61, a tee pipe 62, an inlet pipe 63, a check valve 64, a vacuum pump 65, an outlet pipe 66, and a first check valve 67.
One end of the air inlet pipe 63 is connected with the siphon 61 through the tee pipe 62, and the other end is connected with an air inlet of the vacuum pump 65. The check valve 64 is provided on the intake pipe 63. The water outlet pipe 66 is connected with the water outlet of the vacuum pump 65. Siphon 61 inserts the one end of escape canal 9 is provided with first check valve 67, first check valve 67 is used for working as 9's in escape canal water level is higher than during 1 interior water level of sump pit, prevent that the water from taking place the refluence.
It should be noted that the ground length and the direction of the siphon 61 in this embodiment can be determined by itself according to actual conditions, the siphon 61 can be buried about 10cm underground, and the buried depth can also be other values. The diameter of siphon 61 may be determined based on the proximity of siphon discharge flow to the sump 1 control area discharge design flow.
In this embodiment, the vacuum pump 65 is preferably a water-ring vacuum pump 65 with a minimum power of 0.81KW, the pumping rate is 450L/min, and under normal conditions, the water-ring vacuum pump 65 can pump air in the siphon 61 completely within 1 minute, and is rapid in pumping and response speed, so that the drainage efficiency of the system is higher.
It is understood that the vacuum pump 65 in the present embodiment may also adopt other types, powers and pumping rates of the vacuum pump 65, which can be determined according to the specific situation.
In this embodiment, the power is solar photovoltaic power generation 5, drives suction pump 3 and draws water the work, realizes continuously incessantly drawing water.
When the power supply is a solar photovoltaic power generation power supply 5, the solar photovoltaic power generation power supply 5 comprises a solar cell panel 51 and an inverter 52. The solar panel 51 is connected to the water pump 3 via the inverter 52. The solar panel 51 is configured to receive solar radiation and convert light energy into direct current electric energy, and the inverter 52 is configured to convert the direct current electric energy into alternating current electric energy to supply power to the water pump 3.
In this embodiment, the siphon drainage mode and the water pump 3 drainage mode are alternately operated day and night. Specifically, in the water discharge mode of the water suction pump 3, which is operated alone in the daytime, the solar cell panel 51 supplies alternating current to the water suction pump 3 through the inverter 52, and the water suction pump 3 discharges the water in the water collection well 1 into the water discharge ditch 9 through the water discharge pipe 4. And at night, the solar photovoltaic power generation power supply 5 does not supply power to the water suction pump 3, the water discharge mode of the water suction pump 3 does not operate, the siphon 61 is vacuumized through the vacuum pump 65 at the moment, when the water outlet pipe 66 connected with the water outlet of the vacuum pump 65 can completely discharge water flow (namely no gas exists in the discharged water flow), the check valve 64 on the air inlet pipe 63 is turned off at the moment, the vacuum pump 65 is controlled to stop working, so that the water body in the water collecting well 1 can be directly discharged into the drainage ditch 9 through the siphon 61, the vacuum pump 65 and the water outlet pipe 66 can be directly pulled out at the moment, and the water suction pump is connected into the water collecting well when used next time.
Based on field observation, the water level of a water collecting well 1 in the existing solar energy hidden pipe drainage system at night rises and is restored to be close to the peripheral underground water level, the water level of the water collecting well 1 is higher than the water level of a drainage ditch 9, so that a forward water level difference is formed between the water collecting well 1 and the drainage ditch 9, at the moment, in order to improve the drainage efficiency, auxiliary drainage at night is feasible by adopting a siphon drainage mode, the drainage efficiency can be higher, and compared with a mode of paving a power line or adding a storage battery for the continuous drainage of a water suction pump 3, the method for auxiliary drainage at night by adopting the siphon drainage mode has lower drainage cost.
In this embodiment, can also add the battery on solar photovoltaic power generation 5's basis, charge for the battery through solar cell panel 51, the battery can last for the suction pump 3 power supply to solve the problem that solar photovoltaic power generation 5 can not supply power when night or cloudy. Or, an electric wire can be directly erected to supply power to the water suction pump 3, and continuous operation of the water suction pump 3 can be achieved.
It should be noted that, on the premise of considering system cost and volume, adding a storage battery or erecting an electric wire can increase the system cost, and adding a storage battery can also obviously increase the system volume, so that the multiple drainage setting modes can be selected and flexibly used according to actual conditions, and different drainage effects can be achieved.
In this embodiment, the inverter 52 may further have a water level control function, and the water level control function sets a water level control command for the water pump 3 in the inverter 52 to ensure that the orifice (i.e., the water inlet) of the siphon 61 is submerged in water all the time. When the water level in the water collecting well 1 and the distance between the pipe orifices of the siphon pipes 61 inserted into the water collecting well 1 reach the preset threshold value, the inverter 52 stops supplying power to the water suction pump 3, the siphon drainage system 6 is prevented from stopping working after the water level of the water collecting well 1 is lower than the pipe orifices of the siphon pipes 61, and the siphon drainage mode is invalid, so that the siphon drainage system 6 can continuously and stably run, and the integral drainage efficiency of the device is ensured.
In this embodiment, the preset threshold is preferably 0.5m, that is, when the distance between the water level of the water collecting well 1 and the orifice of the siphon 61 reaches 0.5m, the water pumping mode of the water pump 3 fails to work, so as to ensure the stable operation of the siphon water pumping mode, and after the water level of the water body injected into the water collecting well 1 by the water collecting pipe 2 increases, the water pump 3 is started to perform water pumping. It is easy to understand that even if the water level of the water collecting well 1 is lower than the orifice of the siphon pipe 61 to cause the siphon drainage system 6 to be ineffective, after the water level is up, the air in the siphon pipe 61 can be pumped by the vacuum pump 65, and the siphon drainage mode is opened again.
It should be noted that the preset threshold in this embodiment is set to 0.5m, which is only a preferred value, and is not fixed and unique, and may also be set to a value of 0.4m, or a value of 0.8m, 1.0m, etc., and any value corresponding to the specific value of the preset threshold should be within the protection scope of the present invention.
This embodiment has provided a hydrocone type hidden pipe drainage device, the forward water head that exists between water collecting well 1 and escape canal 9 is utilized, adopt the mode of addding siphon drainage system 6, combine two kinds of modes of siphon drainage mode and suction pump 3 drainage mode to carry out the drainage, the drainage performance of hidden pipe drainage system and the variety of drainage mode have been improved, the problem of unbalanced between water pump flow and the farmland hidden pipe drainage supply flow has been solved, hidden pipe drainage device's drainage efficiency has effectively been promoted.
Example 2
As shown in fig. 3, the present embodiment provides a communication type hidden pipe drainage apparatus, which can be implemented when building a hidden pipe drainage system, and according to the principle of a communicating vessel, a section of communicating pipe 7 is provided between the water collecting well 1 and the drainage ditch 9, which is the same as the principle of using the forward water head between the water collecting well 1 and the drainage ditch 9 in embodiment 1, and through the forward water head between the water collecting well 1 and the drainage ditch 9, and in combination with the communication flow guiding effect of the communicating pipe 7, the self-flowing continuous drainage of the water body in the water collecting well 1 to the drainage ditch 9 is realized.
The device specifically includes:
the water collecting well 1 is used for storing water bodies, the water bodies mainly comprise field water bodies such as crop water, soil water, underground water and the like, and when the device is used in other scenes, the water bodies can be water bodies of other types.
And the water collecting pipe 2 is arranged on the side surface of the water collecting well 1, is communicated with the inside of the water collecting well 1, is used for collecting water and guides the water into the water collecting well 1.
And the water suction pump 3 is arranged at the bottom of the water collecting well 1 and used for pumping the water body in the water collecting well 1 to the drainage ditch 9 through the drainage pipe 4.
Drain pipe 4, one end is passed inside sump pit 1 and with suction pump 3 is connected, the other end set up in 9 departments in escape canal, be used for under the drive of suction pump 3 will water in the sump pit 1 is carried extremely in the escape canal 9.
And the power supply is connected with the water suction pump 3 and used for supplying power to the water suction pump 3.
And the communicating pipe 7 is arranged horizontally as much as possible, one end of the communicating pipe 7 penetrates through the side surface of the water collecting well 1 and extends into the water body in the water collecting well 1, and the other end of the communicating pipe 7 penetrates through the side surface of the drainage ditch 9 and extends into the water body in the drainage ditch 9. And the communicating pipe 7 is used for automatically discharging the water body in the water collecting well 1 to the drainage ditch 9 when the water level of the water body in the water collecting well 1 is higher than the water level of the water body in the drainage ditch 9.
In this embodiment, the one end that communicating pipe 7 is located sump pit 1 is 7 water inlets communicating pipe, the construction process of 7 water inlets communicating pipe is the same with collector pipe 2, sump pit 1 can adopt the concrete prefabrication, in the time of the construction, can process on the wall of a well of sump pit 1 and chisel out a hole that supplies communicating pipe 7 to pass, stretch into to sump pit 1 inside after passing this hole communicating pipe 7, communicating pipe 7 uses waterproof glue sealed with the position of hole contact, prevent that the water in the sump pit 1 from leaking. The drainage ditch 9 is of a soil slope structure in general, and the other end of the communicating pipe 7 penetrates through the slope body of the drainage ditch 9 and extends into the drainage ditch 9 to discharge the water body of the water collecting well 1.
In this embodiment, communicating pipe 7 stretches into 9 one end in escape canal is provided with second check valve 8, second check valve 8 is used for working as 9 water levels in escape canal are higher than during the water level of the water body in sump pit 1, block 9 water in escape canal's water body and prevent the water body refluence.
Similarly, in this embodiment, the power is solar photovoltaic power generation power supply 5, drives suction pump 3 and draws water the work, realizes continuously incessantly drawing water.
When the power supply is a solar photovoltaic power generation power supply 5, the solar photovoltaic power generation power supply 5 comprises a solar cell panel 51 and an inverter 52. The solar panel 51 is connected to the water pump 3 via the inverter 52. The solar panel 51 is configured to receive solar radiation and convert light energy into direct current electric energy, and the inverter 52 is configured to convert the direct current electric energy into alternating current electric energy to supply power to the water pump 3.
In this embodiment, communicating pipe 7 is located one end in the sump well 1 with the distance between the well head of sump well 1 is 3.0m, and communicating pipe 7 and the degree of depth of sump pipe 2 can keep unanimous, should not be too dark, avoids increasing the degree of difficulty of construction, should not too shallow yet, otherwise the water of sump well 1 bottom can't discharge in escape canal 9 through communicating pipe 7. It is easy to understand that this value is only a preferred value, and can be set to other values, and the value is set according to the actual situation.
Similarly, in the communication type concealed pipe drainage device in the embodiment, the communication drainage mode and the drainage mode of the water suction pump 3 are alternately operated day and night to reduce the drainage cost. For the alternate operation, the water is drained in a drainage mode of the water suction pump 3 in the daytime, the solar cell panel 51 supplies alternating current to the water suction pump 3 through the inverter 52, and the water suction pump 3 discharges the water in the water collection well 1 into the drainage ditch 9 through the drainage pipe 4. At night, the solar photovoltaic power generation power supply 5 stops working, under the water replenishing effect of the water collecting pipe 2, the water level of the water body in the water collecting well 1 rises rapidly to be close to the height of the underground water level nearby and higher than the water level of the drainage ditch 9, and under the water level difference effect, the water body in the water collecting well 1 automatically flows into the drainage ditch 9 through the communicating pipe 7. Daytime solar photovoltaic power generation 5 during operation, under the continuous drainage effect of suction pump 3, the water level in the sump pit 1 descends, at this moment, the water level in 9 escape canals can be higher than the water level in the sump pit 1, close second check valve 8, guarantee that the water in 9 escape canals can not flow backward in the sump pit 1, through the day night alternate operation between two modes of intercommunication drainage mode and 3 drainage modes of suction pump, last drainage when can reduce the drainage cost, guarantee drainage efficiency.
Similarly, in this embodiment, the storage battery can be additionally arranged on the basis of the solar photovoltaic power generation power supply 5, the storage battery is charged through the solar cell panel 51, and the storage battery can continuously supply power for the water suction pump 3, so that the problem that the solar photovoltaic power generation power supply 5 cannot supply power at night or in cloudy days is solved. Or, an electric wire can be directly erected to supply power to the water suction pump 3, and continuous operation of the water suction pump 3 can be achieved.
It should be noted that, on the premise of considering system cost and volume, adding a storage battery or erecting an electric wire can increase the system cost, and adding a storage battery can also obviously increase the system volume, so that the multiple drainage setting modes can be automatically and flexibly adopted according to actual conditions, and different drainage effects can be achieved.
This embodiment has provided a intercommunication formula hidden pipe drainage device, utilize the forward water head that exists between sump pit 1 and the escape canal 9, adopt the mode of addding communicating pipe 7 between sump pit 1 and escape canal 9, couple together sump pit 1 and escape canal 9, combine the cooperation with two kinds of modes of intercommunication drainage mode and suction pump 3 drainage mode to carry out the drainage, the drainage performance of hidden pipe drainage system and the variety of drainage mode have been improved, unbalanced problem between the water pump flow of drawing water and the farmland hidden pipe drainage supply flow has been solved, hidden pipe drainage device's drainage efficiency has effectively been promoted.
The siphon type concealed pipe drainage device proposed in embodiment 1 and the communication type concealed pipe drainage device proposed in embodiment 2 may be selectively installed, wherein the siphon type concealed pipe drainage device is upgraded and modified on the basis of an existing concealed pipe drainage system, and the communication type concealed pipe drainage device is preferred when a concealed pipe drainage system is newly built.
If a method of adding a storage battery on the basis of the solar cell panel 51 is adopted, assuming that the pumping power of the water pump 3 is 2.2KW and the reduction coefficient is 0.65, the required output power of the solar cell panel 51 is about 3.4 KW. The sunlight irradiation time is 8 hours, if a siphon drainage mode or a communication drainage mode is adopted, the operation is carried out from 20 nights to 6 morning in the next morning, the operation is carried out for 10 hours totally, the operation is calculated according to the configuration of a storage battery for 10 hours, a 2.2KW water suction pump 3 consumes 2.2 degrees of electricity when operating for 1 hour, 22 degrees of electricity is consumed when operating for 10 hours, the storage battery with 24V100Ah has the storage capacity of 2.4 degrees, then 24V91.7Ah is required when operating for 2.2 degrees, 24V122.3Ah is actually required when operating for 2.2 degrees, and 24V1223Ah is required when operating for 10 hours, and the storage battery with the nominal capacity of 0.75 is taken as the actual capacity (considering the discharge depth). The actual output power of the 1KW solar panel 51 is 0.65KW, and when calculated according to 8 hours running time, the power generation amount is 5.2 degrees per day, and the 22-degree power generation amount needs to be additionally provided with about 4.2KW solar panels, so that it can be seen that the cost of laying the solar panel 51 is increased by at least 1.2 times, and in addition, the cost of the storage battery needs to be considered. Therefore, the drain cost for adding the storage battery is significantly increased. Obviously, although the method of adding a storage battery or installing an electric wire can improve the overall drainage efficiency, compared with the method of auxiliary drainage in the siphon drainage mode proposed in embodiment 1 or self-flowing drainage in the connected drainage mode proposed in embodiment 2, the method of the present invention is obviously superior in technical and economic cost, has lower cost and higher drainage efficiency, and is also beneficial to environmental protection.
The invention provides a siphon type hidden pipe drainage device and a communication type hidden pipe drainage device, which have the same principle, and realize automatic or self-flowing continuous drainage by utilizing a positive water level difference between a water collecting well 1 and a drainage ditch 9 and by a mode of additionally arranging a siphon drainage system 6 (aiming at an established pump station) or arranging a communicating pipe 7 (aiming at a newly-built pump station), thereby achieving the purpose of improving the drainage efficiency.
Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.
The foregoing is illustrative of the present invention and is not to be construed as limiting thereof. Although a few exemplary embodiments of this invention have been described, those skilled in the art will readily appreciate that many modifications are possible in the exemplary embodiments without materially departing from the novel teachings and advantages of this invention. Accordingly, all such modifications are intended to be included within the scope of this invention as defined in the claims. It is to be understood that the foregoing is illustrative of the present invention and is not to be construed as limited to the specific embodiments disclosed, and that modifications to the disclosed embodiments, as well as other embodiments, are intended to be included within the scope of the appended claims. The invention is defined by the claims and their equivalents.

Claims (10)

1. A siphonic concealed conduit drainage device, comprising:
the water collecting well is used for storing water bodies;
the water collecting pipe is arranged on the side surface of the water collecting well, is communicated with the interior of the water collecting well, and is used for collecting water and guiding the water into the water collecting well;
the water suction pump is arranged at the bottom of the water collecting well and used for pumping water in the water collecting well to a drainage ditch through a drainage pipe;
one end of the drainage pipe penetrates through the interior of the water collecting well and is connected with the water suction pump, and the other end of the drainage pipe is arranged at the drainage ditch and is used for conveying the water body in the water collecting well to the drainage ditch under the driving of the water suction pump;
the power supply is connected with the water suction pump and used for supplying power to the water suction pump;
siphon drainage system, including the siphon, the both ends of siphon insert respectively to the sump pit with below the liquid level of escape canal, siphon drainage system is used for working as water level is higher than in the sump pit during water level, utilizes the siphon principle will water in the sump pit warp the siphon is carried extremely in the escape canal.
2. The siphonic hidden pipe drainage device according to claim 1, wherein the siphonic drainage system further comprises a three-way pipe, an air inlet pipe, a check valve, a vacuum pump and an outlet pipe;
one end of the air inlet pipe is connected with the siphon pipe through the three-way pipe, and the other end of the air inlet pipe is connected with an air inlet of the vacuum pump;
the check valve is arranged on the air inlet pipe;
the water outlet pipe is connected with the water outlet of the vacuum pump.
3. The siphonic hidden pipe drainage device according to claim 1, wherein one end of the siphon pipe inserted into the drainage ditch is provided with a first check valve, and the first check valve is used for preventing water from flowing backwards when the water level of the drainage ditch is higher than the water collecting well.
4. The siphonic, concealed conduit drainage device according to claim 1, wherein the power source is a solar photovoltaic power source;
the solar photovoltaic power generation power supply comprises a solar cell panel and an inverter; the solar cell panel is connected with the water pump through the inverter; the solar cell panel is used for receiving solar radiation and converting light energy into direct current electric energy, and the inverter is used for converting the direct current electric energy into alternating current electric energy and supplying power to the water suction pump.
5. The siphonic hidden pipe drainage device according to claim 4, wherein the inverter has a water level control function, and the water level control function means that the inverter stops supplying power to the suction pump when the distance between the water level in the water collection well and the siphon pipe orifice inserted into the water collection well reaches a preset threshold value.
6. The siphonic concealed pipe drainage device according to claim 2, wherein the vacuum pump is a water ring vacuum pump with a minimum power of 0.81KW and a pumping rate of 450L/min.
7. A kind of connected hidden pipe drainage, characterized by that, comprising:
the water collecting well is used for storing water bodies;
the water collecting pipe is arranged on the side surface of the water collecting well, is communicated with the interior of the water collecting well, and is used for collecting water and guiding the water into the water collecting well;
the water suction pump is arranged at the bottom of the water collecting well and used for pumping water in the water collecting well to a drainage ditch through a drainage pipe;
one end of the drainage pipe penetrates through the interior of the water collecting well and is connected with the water suction pump, and the other end of the drainage pipe is arranged at the drainage ditch and is used for conveying the water body in the water collecting well to the drainage ditch under the driving of the water suction pump;
the power supply is connected with the water suction pump and used for supplying power to the water suction pump;
the communicating pipe is horizontally arranged, one end of the communicating pipe penetrates through the side face of the water collecting well and extends into the water body in the water collecting well, and the other end of the communicating pipe penetrates through the side face of the drainage ditch and extends into the water body in the drainage ditch; and the communicating pipe is used for conveying the water body in the water collecting well to the drainage ditch when the water level of the water body in the water collecting well is higher than the water level of the water body in the drainage ditch.
8. The communication type concealed pipe drainage device according to claim 7, wherein one end of the communication pipe extending into the drainage ditch is provided with a second check valve, and the second check valve is used for preventing water from flowing backwards when the water level of the drainage ditch is higher than that of the water collecting well.
9. The communication type hidden pipe drainage device of claim 7, wherein the power supply is a solar photovoltaic power generation power supply;
the solar photovoltaic power generation power supply comprises a solar cell panel and an inverter; the solar cell panel is connected with the water pump through the inverter; the solar cell panel is used for receiving solar radiation and converting light energy into direct current electric energy, and the inverter is used for converting the direct current electric energy into alternating current electric energy and supplying power to the water suction pump.
10. The communication type hidden pipe drainage device as claimed in claim 7, wherein the distance between one end of the communication pipe in the water collecting well and the wellhead of the water collecting well is 3.0 m.
CN202111312029.XA 2021-11-08 2021-11-08 Siphon type concealed pipe drainage device and communicated concealed pipe drainage device Pending CN114000474A (en)

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CN115362777A (en) * 2022-08-31 2022-11-22 宁夏农林科学院农业资源与环境研究所(宁夏土壤与植物营养重点实验室) System and method for removing saline and alkaline by soil irrigation infiltration method

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CN207974129U (en) * 2017-12-27 2018-10-16 中建三局第二建设工程有限责任公司 A kind of foundation pit energy-saving drainage system
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Application publication date: 20220201