CN201976544U - Automatic irrigation and drainage system for farm land - Google Patents

Automatic irrigation and drainage system for farm land Download PDF

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Publication number
CN201976544U
CN201976544U CN2011200609295U CN201120060929U CN201976544U CN 201976544 U CN201976544 U CN 201976544U CN 2011200609295 U CN2011200609295 U CN 2011200609295U CN 201120060929 U CN201120060929 U CN 201120060929U CN 201976544 U CN201976544 U CN 201976544U
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water
water level
level control
irrigation
type concrete
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高胜国
高任翔
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Farmland Irrigation Research Institute of CAAS
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Farmland Irrigation Research Institute of CAAS
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Abstract

The utility model relates to an automatic irrigation and drainage system for farm land. Irrigation water enters a water level control pool through a water level control valve, a float ball drives the water level control valve to regulate the water supply quantity until the water supply is equal to the water consumption, the water level is stabilized on a certain water level below the water supply stop water level h1 of the water level control valve, the irrigation water enters a soil filling region arranged at the upper part in a U-shaped concrete groove from the inner bottom of the U-shaped concrete groove of a douche through a sand-less concrete cover plate and a sand and stone reverse filtering layer, a soil saturation water layer lower than h1 is formed, water of the saturation water layer ascends to a crop root system layer in a capillary water form, the water supply quantity is increased and decreased along with the water consumption quantity, and the self adaptive irrigation is realized. Because h1 is lower than the height h2 of the upper edge of the U-shaped concrete groove, no gravity water seepage occurs. When the soil saturation water layer is higher than h1 due to the rainfall, the water level control valve is closed, and the irrigation is stopped. When the soil saturation water layer is higher than the upper edge of the h2 water level control pool, water overflows out to enter a water accumulation pool to start to discharge water, and the irrigation is recovered until the soil saturation water layer is lower than h1. The full automation is realized on the irrigation and the drainage, the reliability is high, and the durability is good.

Description

The automatic irrigation and drainage system with functions in farmland
Technical field:
The utility model relates to a kind of field irrigation and drainage arrangement, relates in particular to the automatic irrigation and drainage system with functions in a kind of farmland.
Background technology:
Existing automatic irrigation system, need calculate and predict suitable irrigation time and irrigation quantity by the water parameters and the many meteorologic parameters that detect plant physiology parameter, soil, quite loaded down with trivial details, even some detection professional also is difficult to grasp, complex structure, apparatus expensive, the peasant is difficult to accept, and popularizes also very difficult.In addition, existing automatic irrigation system, only lay particular emphasis on decision-making suitable irrigation time and irrigation quantity, and ignored the important field link of pouring water, promptly can not solve the invalid evaporation of irrigating on the ground, can not solve the deep percolation of subsurface irrigation (infiltrating irrigation), because of invalid irrigation and nutrient loss that irrigation method causes, irrigation efficiency fundamentally is not improved.Poor durability, reliability is low, subirrigation system especially, because blockage problem, generally can not surpass 10 years service life, be generally 4~6 years.In too short service life, too high input, operation, maintenance cost make the water-saving benefit far below peasant's expected value, the peasant's of greatly having stabbed use enthusiasm.Irrigation time and irrigation quantity generally are when to pressurize by the control of switch water pump, and how long pressurization realizes, further reduces energy consumption, has the technical obstacle that is difficult to go beyond.At present, irritating the automatic irrigation that row takes into account almost is blank with drainage system.Mankind's activity has destroyed the circulation and the balance of natural ecological environment, enter this century after, greenhouse effect, global warming, progressively aggravation makes unusual extreme weather take place frequently.Big waterlogging also may take place in traditional drought-hit area, and traditional waterlogging district also great drought may take place.Also have the automatic irrigation system that the collection rainwater utilizes again concurrently if having to irritate and can arrange, more can adapt to the variation and the development of current weather situation.
The utility model content:
It is a kind of simple in structure that the purpose of this utility model is to provide, water-saving, energy-conservation, drought can be irritated, waterlogging can be arranged, the row of filling is full-automatic, can suppress the moistening invalid evaporation that causes of soil table, invalid irrigation, the nutrient loss that can avoid underground leakage to cause again, good endurance, the automatic irrigation and drainage system with functions in novel farmland of " fool " formula management that reliability is high.
The purpose of this utility model is achieved in that
The automatic irrigation and drainage system with functions in a kind of farmland comprises: cistern, water level control pond, plash, delivery main, collecting pipe, irrigator is some, cistern is positioned at the top of water level control pond and plash, the peak level that plash is allowed to is lower than the upper edge that water level is controlled the pond pool wall, and several irrigators are communicated with by collecting pipe delivery main and water level control pond, several irrigators vertically are parallel to each other and leave suitable spacing and are connected with collecting pipe is vertical, be co-located under the crop root layer on the same horizontal plane, guaranteeing under the prerequisite that the crop root layer effectively supplies water, increase this horizontal plane as far as possible and be positioned at the degree of depth under the crop root layer, to reduce soil table invalid evaporation, soil is fine and close more, and capillarity is strong more, and the degree of depth is big more, clay loam is greater than loam, loam in the place that differential settlement might take place, can increase the irrigator of cross connection greater than sandy loam, form the irrigator net, irrigator consists of the following components: water fender before the U type concrete pit, U type concrete pit, water fender behind the U type concrete pit, the non-fine concrete cover plate, sandstone loaded filter, U type concrete pit opening are placed perpendicular to horizontal plane up, the built-in tension reinforcement of U type concrete pit bottom concrete, that end that U type concrete pit leads to collecting pipe is provided with the preceding water fender of U type concrete pit, the other end is provided with water fender behind the U type concrete pit, and middle and lower part horizontal positioned non-fine concrete cover plate in the U type concrete pit groove is laid the sandstone loaded filter on the non-fine concrete cover plate, earthing consistent indifference contact with crop root layer soil on the sandstone loaded filter to ground, the non-fine concrete cover plate is irritated drainage channel and soil and is carried out water and exchange and undertaken by non-fine concrete cover plate and sandstone loaded filter for irritating drainage channel in the cavity down in the U type concrete pit groove, only allows water to move and does not allow solid particle such as soil to move, water level control pond is provided with filters and water-level control apparatus, comprise: filter grid, feed pipe, filter, altitude valve, the altitude valve swing handle, ball float, the upper end of feed pipe communicates with cistern, the water inlet of feed pipe is provided with filter grid, the middle part of feed pipe is provided with filter, and altitude valve is installed in the lower end of feed pipe, and the altitude valve swing handle connects ball float, altitude valve adopts rotary ceramic plate valve core valve, h1 is that water level is closed in altitude valve water supply, and h2 is that water level is overflowed in water level control pond, and the cell wall upper edge of the pool wall upper edge in h2 and water level control pond and the U type concrete pit of irrigator is contour, h1 is lower than h2, ball float moves up and down with water level control pool water level, drives the altitude valve swing handle and rotates, and water level control pool water level descends, ball float moves down, the altitude valve aperture increases, and water supply speed strengthens, and water level control pool water level rises, move on the ball float, the altitude valve aperture reduces, and water supply speed lowers, if water level control pool water level rises to h1, then altitude valve is closed, water supply stops, and plash is provided with drainage arrangement and discharge level control device, and drainage arrangement comprises: immersible pump, drainpipe, immersible pump is fixed on the place at the bottom of the plash bottom is higher than the pond, and the water that immersible pump is extracted out is imported cistern by drainpipe, and the discharge level control device comprises: water-level float, the float guide rod, tongue tube is often opened in last water level contact, the normally closed tongue tube in following water level contact, and the float guide rod is with non-ferromagnetic tube of material such as stainless steel or nylon, perpendicular to horizontal plane, two ends are fixed on the plash sidewall up and down, and h3 is a plash draining upper limit water level, and h4 is a plash draining lower limit water level, h3 is lower than water level control pond and overflows water level h2, h4 is higher than the immersible pump water inlet, often opens tongue tube with high-power contact and is sealed in that h3 highly locates in the tubular float guide rod, often opens tongue tube as last water level contact, be sealed in the normally closed tongue tube in high-power contact that h4 highly locates in the tubular float guide rod, as the normally closed tongue tube in following water level contact, water-level float is an annular, built-in annular magnet, be placed on the float guide rod, water-level float is followed the plash fluctuation in stage and is moved up and down along the float guide rod, highly locates the annular magnet in the water-level float when water-level float rises to h3, make the last water level contact that is sealed in the float guide rod often open the reed switch contact closure, start immersible pump and draw water, highly locate, the annular magnet in the water-level float when water-level float drops to h4 to cistern, the normally closed reed switch contact in following water level contact that is sealed in the float guide rod is opened, stop immersible pump and draw water.
Irrigation water in the cistern, under action of gravity, filter through grating, tentatively behind the foreign material that the filtering volume is bigger, enter feed pipe, enter filter downwards, impurity in the further filtering water, pass through altitude valve, enter water level control pond, along with the water yield that enters increases, the water level in water level control pond is raised gradually, irrigation water enters the bottom intake tunnel in the U type concrete pit groove of several irrigators that communicate with it by the delivery main collecting pipe, before U type concrete pit behind water fender and the U type concrete pit under the stopping of water fender, the irrigation water that water level continues to raise, by non-fine concrete cover plate and sandstone loaded filter, enter the zone of banketing of U type concrete pit groove internal upper part, meanwhile, ball float with the rising of water level control pool water level, drive the rotation of altitude valve swing handle, reduce output gradually, equate with water consumption speed up to water supply speed, stable level is being lower than on certain height of h1, water level enters dynamic balance state, the zone of banketing of the U type concrete pit groove internal upper part below the dynamic balance state water level, form the soil saturation water layer, be lower than the cell wall upper edge height h2 of U type concrete pit because of h1, the gravitational water of soil saturation water layer is bound in the groove of U type concrete pit, can not produce the gravitational water seepage loss, under soil capillarity, the water of soil saturation water layer in the U type concrete pit groove, form with capillary water, rise to the crop root layer, the a spot of water of depolarization can continue to rise to outside the evaporation of soil table, the water of the overwhelming majority, after arriving the crop root layer, because soil, plant, the effect of the water potential energy difference of atmosphere, finally the form with the transpiration of plant plant is delivered in the atmosphere, if the water consumption of certain period increases or reduces, the soil saturation water layer descends or rises, causing water level control pool water level descends or rises, ball float drives the rotation of altitude valve swing handle, strengthen or the minimizing output, equate with water consumption speed that until water supply speed water level is stabilized on certain height that is lower than h1 again, water level enters dynamic balance state once more.Make how much water of material consumption, just for how much water, output increases and decreases with water consumption, and self adaptation need not human intervention and artificial external energy, has realized irrigation automation cheaply.
General farmland is the hypsography low-lying farmland particularly, after the rainfall, if the soil saturation water layer floods the crop root layer, because of impeded drainage, can not in time drop to below the crop root layer, and damage caused by waterlogging will take place, and the lighter causes the underproduction, and weight person causes crop death and has no harvest.In farmland, automatic irrigation and drainage system with functions place, farmland of the present invention, in case because of rainfall, the soil saturation water layer is higher than h1, the gravitational water of soil saturation water layer will be by sandstone loaded filter and non-fine concrete cover plate, enter into the drainage channel of U type concrete pit groove inner bottom part, after collecting pipe through being attached thereto compiles, enter water level control pond by delivery main, the water level in water level control pond also is higher than h1 thereupon, ball float will drive the rotation of altitude valve swing handle, close altitude valve, the irrigation water that stops in the cistern enters water level control pond, ended the irrigation process, if the soil saturation water layer is higher than h2, the gravitational water of soil saturation water layer will be by sandstone loaded filter and non-fine concrete cover plate, enter into the bottom discharge passage in the U type concrete pit groove, after collecting pipe through being attached thereto compiles, enter water level control pond by delivery main, the water level in water level control pond also is higher than h2 thereupon, begun drainage procedure, water overflows from water level control pond, enter plash, if the plash water level has risen to h3, follow the water-level float that the plash water level rises along the float guide rod, also risen to h3, annular magnet in the water-level float, make the last water level contact that is sealed in the float guide rod often open the reed switch contact closure, A.C. contactor gets, the closing of contact enters the self-sustaining state, immersible pump is activated, ponding is through drainpipe suction cistern in the plash, when the plash water level depression has arrived h4, follow the water-level float that the plash water level descends along the float guide rod, also dropped to h4, annular magnet in the water-level float, the normally closed reed switch contact in following water level contact that is sealed in the float guide rod is opened, the A.C. contactor dead electricity, the contact disconnects, remove A.C. contactor self-sustaining state, immersible pump stops pumping, repeat above-mentioned drainage procedure, drop to h2 until the soil saturation water layer, finish drainage procedure, because of the crop water consumption, the soil saturation water layer continues to descend, when the soil saturation water layer is lower than h1, the water level in water level control pond is also followed and is lower than h1, and ball float will drive the rotation of altitude valve swing handle, reopen altitude valve, make the irrigation water in the cistern enter water level control pond, recovered the irrigation process.The row of filling is conversion automatically, need not human intervention.
The utlity model has following good effect:
What common infiltrating irrigation was adopted is that the intermittent water application of pressure mode is arranged, because water is a kind of elastomer, when stopping to supply water, pressure oscillation is violent, is easy to negative pressure occur at apopore, sucks soil particle, causes apopore to stop up.The intermittent water application mode also is the major reason that crop root stops up apopore, because root system of plant hydrotropism growth characteristics, the back ground moistening scope that stops to supply water is shunk to apopore gradually, because the existence of soil moisture gradient, root system of plant is also being followed to the apopore extension in order to obtain moisture, finally stops up apopore.And the automatic irrigation and drainage system with functions in farmland of the present invention, no matter be to irrigate or draining, flowing of water is very slow, under the effect of loaded filter and non-fine concrete, soil particle can not move, and can not take place to stop up and alluvial.There is the soil saturation water layer in the automatic irrigation and drainage system with functions in farmland of the present invention, even there is root system to enter the soil saturation water layer, does not lose the direction of growth because of there being the soil moisture gradient, can not pass through the soil saturation water layer and enter loaded filter, and the root system blockage problem takes place.
Common infiltrating irrigation is except physics stops up, and the most unreasonable dissolving salt that surely belongs to is separated out chemistry obstruction and the biological obstruction of bacterium class, does not have good way to solve so far.And the automatic irrigation and drainage system with functions in farmland of the present invention, the non-fine concrete plate of employing, sandstone loaded filter can not find out dissolving salt and separate out the record that chemistry stops up, bacterium class biology stops up in existing document.According to one's analysis, possible reason is: non-fine concrete, the distinctive hole of sandstone loaded filter are circuitous dendritic stereochemical structure, can gang up mutually after moisture enters, so even most of hole is blocked, still can keep suitable water penetration.The automatic irrigation and drainage system with functions in farmland of the present invention, the U-shaped concrete pit, non-fine concrete plate, the sandstone loaded filter that adopt, river constructions such as ball float (float) formula water-level control apparatus are commonly used, draw materials easily, cost is not high, it is convenient to build, and key is that its reliability and durability are confirmed by the long-term practice of river construction.Control appliance is simple, and is not fragile, and the maintenance threshold is low, and general at village level electrician can both be competent at.
It all is to utilize the water potential energy difference and the capillarity of soil, plant, atmosphere to irrigate that automatic irrigation and drainage system with functions in farmland of the present invention and negative pressure are irrigated, and is most effective up to now irrigation method.The irrigation process is carried out automatically, need not to carry out the decision-making of irrigation time and irrigation volume, how much water just to supply how much water with.The negative pressure irrigated soil do not have gravitational water, deep percolation can not take place.The automatic irrigation and drainage system with functions in farmland of the present invention, though soil has gravitational water---the soil saturation water layer, but be bound in the U type concrete pit, there are not the deep percolation that common infiltrating irrigation may occur and the situation of nutrient loss, the evaporation of soil table is also very limited, the height of water use efficiency is that any other irrigation method institute is inaccessible.The energy consumption of the water potential energy difference of soil, plant, atmosphere is come to solar radiant energy, and energy-saving and environmental protecting have really entered the thin noiseless desirable condition of moisting all things on earth.But negative pressure is irrigated and to be implemented very difficulty, the one, the sealing of water-carriage system there is very strict requirement, and can not leak gas, in case under ground portion bad seals is especially searched and keeped in repair very difficult; The 2nd, the gas that is dissolved under negative pressure condition in the water will be separated out, if untimely processing will produce cutout.Therefore, need regularly exhaust, and exhaust process complicated and trouble very, it is consuming time to require great effort, and has also increased managerial difficulty simultaneously; The 3rd, it is too small that negative pressure irrigator its specific structure (precondition of negative pressure irrigator and soil water exchange is that outer wall energy forms permeable air-locked moisture film) makes it water yield, ground moistening is limited in scope, can only be by increasing the method that the negative pressure irrigator is arranged density or increased single negative pressure irrigator water supply face, improve the moistening uniformity, making to drop into increases, and safeguards difficulty more; The 4th, the negative pressure irrigator is different with the soil texture, and discontinuous, the not of uniform size interface that causes of tangible hole is arranged, and whether unobstructed, also will depend on the tightness degree that the negative pressure irrigator contacts with soil if supplying water, have certain uncertainty.And the automatic irrigation and drainage system with functions in farmland of the present invention, atmospheric pressure supplies water down, soil saturation water layer in the irrigator and its top soil texture that supplied water is the same, hole is consistent continuously, soil capillarity has performed to ultimate attainment, and it is unobstructed to supply water, and feedwater is sufficient, under the situation of the same moistening uniformity, can reduce the layout density of irrigator.Water delivery need not additional seal, also need not to be provided with special exhaust apparatus, for the management of " fool " formula provides possibility.
The automatic irrigation and drainage system with functions in farmland of the present invention, in the time of water drainage, also the invalid rainwater of a part is collected, putting into cistern utilizes again, the availability of water is higher than the system that irrigation function is only arranged, adopt the continuous water supply mode again, greatly reduced water supply flow (unit interval output), can be without the big open channel of water flow, using the little aqueduct of water flow instead imbeds underground, save taking of ploughing, do not had open channel water delivery evaporation, seepage loss, significantly reduced remote water delivery expense.
Because supplying water, the present invention adopted law of connected vessels, the head unanimity, and according to Darcy's law, soil saturation water layer height is also consistent, and the water supply uniformity is very high.Even and common infiltrating irrigation has been installed flow regulating equipment additional and also can't have been reached so high water supply uniformity.
The underground plastic delivery hose of common infiltrating irrigation road suffers damaged by rats easily.And groundwater supply device of the present invention, there is the soil saturation water layer on top as barrier, and bottom and side are concrete, and mouse has no interest, and also gnaws motionless.
Common automatic irrigation system, the field generally will be placed crops such as comprising soil moisture content, plant physiology, meteorology and be needed water yield allotment facility and sensors such as water detecting sensor and water level, flow, electric gate valve, need build special-purpose control room and join the special messenger and nurse and operate, however, field equipments such as sensor are stolen or destroyed also to happen occasionally, and operation, maintenance cost is very high.And the automatic irrigation and drainage system with functions in farmland of the present invention, it is underground that capital equipment is placed in, and need not special messenger's nurse and operation, solved headachy antitheft, tamper-proof problem preferably, significantly reduced operation, maintenance cost.
In a word, the automatic irrigation and drainage system with functions in farmland of the present invention, drought can be irritated, and waterlogging can be arranged, and irritates, arranges automatically, can suppress the moistening invalid evaporation that causes of soil table, invalid irrigation, the nutrient loss that can avoid underground leakage to cause again, water-saving, obvious energy conservation; The reliability height, good endurance, service life is other irrigation system head and shoulders above.There are not equipment such as complexity, expensive need special messenger operation, the calculator of safeguarding, sensor, the management of " fool " formula; Drop into (expenses such as construction, operation, maintenance) if share by service life, reduce at double than other automatic irrigation system, benefit significantly improves.
Description of drawings:
Fig. 1 is the schematic diagram of the automatic irrigation and drainage system with functions in farmland.
Fig. 2 is the A-A profile among Fig. 1.
Fig. 3 is the embodiment control circuit figure of the automatic irrigation and drainage system with functions in farmland.
Embodiment:
The automatic irrigation and drainage system with functions in a kind of farmland is as Fig. 1, Fig. 2, shown in Figure 3, comprising: cistern 1, water level control pond 2, plash 3, delivery main 4, collecting pipe 5, irrigator 6 is some, and cistern 1 is positioned at the top of water level control pond 2 and plash 3, the peak level that plash 3 is allowed to, be lower than the upper edge of water level control pond 2 pool walls, several irrigators 6 are controlled pond 2 by collecting pipe 5 delivery mains 4 and water level and are communicated with, and several irrigators 6 vertically are parallel to each other and leave suitable spacing and 5 vertical connections of collecting pipe, are co-located under the crop root layer on the same horizontal plane, guaranteeing under the prerequisite that the crop root layer effectively supplies water, increase this horizontal plane as far as possible and be positioned at the degree of depth under the crop root layer, to reduce soil table invalid evaporation, soil is fine and close more, capillarity is strong more, the degree of depth is big more, and clay loam is greater than loam, and loam is greater than sandy loam, in the place that differential settlement might take place, can increase the irrigator 6 of cross connection, form the irrigator net, irrigator 6 consists of the following components: U type concrete pit 19, water fender 20 before the U type concrete pit, water fender 21 behind the U type concrete pit, non-fine concrete cover plate 22, sandstone loaded filter 23, U type concrete pit 19 openings are placed perpendicular to horizontal plane up, that end that the built-in tension reinforcement of U type concrete pit 19 bottom concrete, U type concrete pit 19 lead to collecting pipe 5 is provided with water fender 20 before the U type concrete pit, and the other end is provided with water fender 21 behind the U type concrete pit, middle and lower part horizontal positioned non-fine concrete cover plate 22 in U type concrete pit 19 grooves, lay sandstone loaded filter 23 on the non-fine concrete cover plate 22, earthing consistent indifference contact with crop root layer soil on the sandstone loaded filter 23 to ground, 22 times cavities of non-fine concrete cover plate are for irritating drainage channel in U type concrete pit 19 grooves, filling drainage channel and soil carry out the water exchange and are undertaken by non-fine concrete cover plate 22 and sandstone loaded filter 23, only allow water to move and do not allow solid particle such as soil to move, water level control pond 2 is provided with filters and water-level control apparatus, comprising: filter grid 7, feed pipe 8, filter 9, altitude valve 10, altitude valve swing handle 11, ball float 12, the upper end of feed pipe 8 communicates with cistern 1, and the water inlet of feed pipe 8 is provided with filter grid 7, and the middle part of feed pipe 8 is provided with filter 9, altitude valve 10 is installed in the lower end of feed pipe 8, altitude valve swing handle 11 connects ball float 12, and altitude valve 10 adopts rotary ceramic plate valve core valve, and h1 is that water level is closed in altitude valve 10 water supply, h2 is that water level is overflowed in water level control pond 2, the cell wall upper edge of the pool wall upper edge in h2 and water level control pond 2 and the U type concrete pit 19 of irrigator 6 is contour, and h1 is lower than h2, and ball float 12 moves up and down with water level control pond 2 water levels, driving altitude valve swing handle 11 rotates, water level control pond 2 water level depression, ball float 12 moves down, and altitude valve 10 apertures increase, water supply speed strengthens, water level control pond 2 water levels rise, and move on the ball float 12, and altitude valve 10 apertures reduce, water supply speed lowers, if water level control pond 2 water levels rise to h1, then altitude valve 10 is closed, and water supply stops, plash 3 is provided with drainage arrangement and discharge level control device, drainage arrangement comprises: immersible pump 13, drainpipe 14, immersible pump 13 are fixed on the place at the bottom of plash 3 bottoms are higher than the pond, the water that immersible pump 13 is extracted out is by drainpipe 14 input cisterns 1, the discharge level control device comprises: water-level float 15, and float guide rod 16, tongue tube 17 is often opened in last water level contact, the normally closed tongue tube 18 in following water level contact, non-ferromagnetic tube of material such as float guide rod 16 usefulness stainless steels or nylon, perpendicular to horizontal plane, two ends are fixed on plash 3 sidewalls up and down, h3 is plash 3 a draining upper limit water levels, h4 is plash 3 draining lower limit water levels, and h3 is lower than water level control pond 2 and overflows water level h2, and h4 is higher than immersible pump 13 water inlets, often open tongue tube with high-power contact and be sealed in that h3 highly locate in the tubular float guide rod 16, often open tongue tube 17 as last water level contact, be sealed in tubular float guide rod 16 interior h4 with the normally closed tongue tube in high-power contact and highly locate, as the normally closed tongue tube 18 in following water level contact, water-level float 15 is an annular, built-in annular magnet is placed on the float guide rod 16, and water-level float 15 is followed plash 3 fluctuations in stage and moved up and down along float guide rod 16, when rising to h3, water-level float 15 highly locates, annular magnet in the water-level float 15 makes the last water level contact that is sealed in the float guide rod 16 often open tongue tube 17 closings of contact, starts immersible pump 13 and draws water to cistern 1, when dropping to h4, water-level float 15 highly locates, annular magnet in the water-level float 15 opens normally closed tongue tube 18 contacts, following water level contact that are sealed in the float guide rod 16, stops immersible pump 13 and draws water.
Irrigation water in the cistern 1, under action of gravity, filter through grating 7, tentatively behind the foreign material that the filtering volume is bigger, enter feed pipe 8, enter filter 9 downwards, impurity in the further filtering water, by altitude valve 10, enter water level control pond 2, along with the water yield that enters increases, the water level in water level control pond 2 is raised gradually, irrigation water enters the bottom intake tunnel in U type concrete pit 19 grooves of several irrigators 6 that communicate with it by delivery main 4 collecting pipes 5, before U type concrete pit behind water fender 20 and the U type concrete pit under the stopping of water fender 21, the irrigation water that water level continues to raise, by non-fine concrete cover plate 22 and sandstone loaded filter 23, enter the zone of banketing of U type concrete pit 19 groove internal upper parts, meanwhile, ball float 12 with the 2 water levels rising of water level control pond, drive 11 rotations of altitude valve swing handle, reduce output gradually, equate with water consumption speed up to water supply speed, stable level is being lower than on certain height of h1, water level enters dynamic balance state, the zone of banketing of the U type concrete pit 19 groove internal upper parts below the dynamic balance state water level, form the soil saturation water layer, be lower than the cell wall upper edge height h2 of U type concrete pit 19 because of h1, the gravitational water of soil saturation water layer is bound in the groove of U type concrete pit 19, can not produce the gravitational water seepage loss, under soil capillarity, the water of soil saturation water layer in U type concrete pit 19 grooves, form with capillary water, rise to the crop root layer, the a spot of water of depolarization can continue to rise to outside the evaporation of soil table, the water of the overwhelming majority, after arriving the crop root layer, because soil, plant, the effect of the water potential energy difference of atmosphere, finally the form with the transpiration of plant plant is delivered in the atmosphere, if the water consumption of certain period increases or reduces, the soil saturation water layer descends or rises, cause water level control pond 2 water level depression or rising, ball float 12 drives 11 rotations of altitude valve swing handle, strengthen or the minimizing output, equate with water consumption speed until water supply speed, water level is stabilized on certain height that is lower than h1 again, and water level enters dynamic balance state once more.Make how much water of material consumption, just for how much water, output increases and decreases with water consumption, and self adaptation need not human intervention and artificial external energy, has realized irrigation automation cheaply.
General farmland is the hypsography low-lying farmland particularly, after the rainfall, if the soil saturation water layer floods the crop root layer, because of impeded drainage, can not in time drop to below the crop root layer, and damage caused by waterlogging will take place, and the lighter causes the underproduction, and weight person causes crop death and has no harvest.In farmland, automatic irrigation and drainage system with functions place, farmland of the present invention, in case because of rainfall, the soil saturation water layer is higher than h1, the gravitational water of soil saturation water layer will be by sandstone loaded filter 23 and non-fine concrete cover plate 22, enter into the drainage channel of U type concrete pit 19 groove inner bottom parts, after collecting pipe 5 through being attached thereto compiles, enter water level control pond 2 by delivery main 4, the water level in water level control pond 2 also is higher than h1 thereupon, ball float 12 will drive 11 rotations of altitude valve swing handle, close altitude valve 10, the irrigation water that stops in the cistern 1 enters water level control pond 2, ended the irrigation process, if the soil saturation water layer is higher than h2, the gravitational water of soil saturation water layer will be by sandstone loaded filter 23 and non-fine concrete cover plate 22, enter into the bottom discharge passage in U type concrete pit 19 grooves, after collecting pipe 5 through being attached thereto compiles, enter water level control pond 2 by delivery main 4, the water level in water level control pond 2 also is higher than h2 thereupon, begun drainage procedure, water overflows from water level control pond 2, enter plash 3, if plash 3 water levels have risen to h3, follow the water-level float 15 that plash 3 water levels rise along float guide rod 16, also risen to h3, annular magnet in the water-level float 15, make the last water level contact that is sealed in the float guide rod 16 often open tongue tube 17 closings of contact, A.C. contactor CJ gets, the closing of contact enters the self-sustaining state, immersible pump 13 is activated, ponding is through drainpipe 14 suction cisterns 1 in the plash 3, when plash 3 water level depression have arrived h4, follow the water-level float 15 that plash 3 water levels descend along float guide rod 16, also dropped to h4, annular magnet in the water-level float 15, normally closed tongue tube 18 contacts, following water level contact that are sealed in the float guide rod 16 are opened, A.C. contactor CJ dead electricity, the contact disconnects, remove A.C. contactor CJ self-sustaining state, immersible pump 13 stops pumping, repeat above-mentioned drainage procedure, drop to h2 until the soil saturation water layer, finish drainage procedure, because of the crop water consumption, the soil saturation water layer continues to descend, when the soil saturation water layer is lower than h1, the water level in water level control pond 2 is also followed and is lower than h1, ball float 12 will drive 11 rotations of altitude valve swing handle, reopen altitude valve 10, make the irrigation water in the cistern 1 enter water level control pond 2, recovered the irrigation process.The row of filling is conversion automatically, need not human intervention.
The embodiment control circuit as shown in Figure 3; HK is a battery main switch; employing has the air switch of overcurrent and creepage protection function; RJ is a hot protective relay; the open-phase protection that is used for immersible pump 13; RD is the fuse protection device; B is the 50W control transformer of elementary 380V level 36V; ZJ is for there being 2 groups of normally opened contact ZK1; the JDZ1 AC intermediate relay of the coil voltage 36V of ZK2; CJ is an A.C. contactor; be used to control immersible pump 13 and start or stop, QA is the manual actuation of button that often open the contact, is used to manually boot immersible pump 13; TA is the normally closed manual stop button in contact; be used for manually stopping immersible pump 13, tongue tube 17 is often opened in last water level contact, often opens tongue tube with high-power contact and is sealed in that h3 highly locate in the tubular float guide rod 16.The normally closed tongue tube 18 in following water level contact is sealed in tubular float guide rod 16 interior h4 with the normally closed tongue tube in high-power contact and highly locates, and this control circuit need not conversion manually, automatically, handles very skillfully, and is safe and reliable.

Claims (2)

1. automatic irrigation and drainage system with functions in farmland, it is characterized in that: comprise cistern (1), water level control pond (2), plash (3), delivery main (4), collecting pipe (5), irrigator (6) is some, cistern (1) is positioned at the top of water level control pond (2) and plash (3), the peak level that plash (3) is allowed to, be lower than the upper edge of water level control pond (2) pool wall, several irrigators (6) are communicated with water level control pond (2) by collecting pipe (5) delivery main (4), several irrigators (6) vertically are parallel to each other and leave suitable spacing and vertical connection of collecting pipe (5), be co-located under the crop root layer on the same horizontal plane, irrigator (6) consists of the following components: U type concrete pit (19), water fender (20) before the U type concrete pit, water fender (21) behind the U type concrete pit, non-fine concrete cover plate (22), sandstone loaded filter (23), U type concrete pit (19) opening is placed perpendicular to horizontal plane up, the built-in tension reinforcement of U type concrete pit (19) bottom concrete, that end that U type concrete pit (19) leads to collecting pipe (5) is provided with the preceding water fender (20) of U type concrete pit, the other end is provided with water fender (21) behind the U type concrete pit, middle and lower part horizontal positioned non-fine concrete cover plate (22) in U type concrete pit (19) groove, non-fine concrete cover plate (22) is gone up and is laid sandstone loaded filter (23), sandstone loaded filter (23) is gone up earthing consistent indifference contact with crop root layer soil to ground, non-fine concrete cover plate (22) is the filling drainage channel in the cavity down in U type concrete pit (19) groove, water level control pond (2) is provided with filters and water-level control apparatus, comprise: filter grid (7), feed pipe (8), filter (9), altitude valve (10), altitude valve swing handle (11), ball float (12), the upper end of feed pipe (8) communicates with cistern (1), the water inlet of feed pipe (8) is provided with filter grid (7), the middle part of feed pipe (8) is provided with filter (9), altitude valve (10) is installed in the lower end of feed pipe (8), and altitude valve swing handle (11) connects ball float (12), and h1 is that water level is closed in altitude valve (10) water supply, h2 is that water level is overflowed in water level control pond (2), the cell wall upper edge of the pool wall upper edge in h2 and water level control pond (2) and the U type concrete pit (19) of irrigator (6) is contour, and h1 is lower than h2, and plash (3) is provided with drainage arrangement and discharge level control device, drainage arrangement comprises: immersible pump (13), drainpipe (14), immersible pump (13) are fixed on the place at the bottom of plash (3) bottom is higher than the pond, and the water that immersible pump (13) is extracted out is by drainpipe (14) input cistern (1), the discharge level control device comprises: water-level float (15), float guide rod (16), tongue tube (17) is often opened in last water level contact, the normally closed tongue tube in following water level contact (18), float guide rod (16) is with non-ferromagnetic tube of material such as stainless steel or nylon, perpendicular to horizontal plane, two ends are fixed on plash (3) sidewall up and down, and h3 is plash (a 3) draining upper limit water level, h4 is plash (a 3) draining lower limit water level, h3 is lower than water level control pond (2) and overflows water level h2, and h4 is higher than immersible pump (13) water inlet, often opens tongue tube with high-power contact and is sealed in the interior h3 of tubular float guide rod (16) and highly locates, often open tongue tube (17) as last water level contact, be sealed in the interior h4 of tubular float guide rod (16) with the normally closed tongue tube in high-power contact and highly locate, as the following normally closed tongue tube in water level contact (18), water-level float (15) is an annular, built-in annular magnet is placed on the float guide rod (16).
2. the automatic irrigation and drainage system with functions in a kind of farmland according to claim 1 is characterized in that: described altitude valve (10) adopts rotary ceramic plate valve core valve.
CN2011200609295U 2011-03-10 2011-03-10 Automatic irrigation and drainage system for farm land Expired - Lifetime CN201976544U (en)

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Cited By (17)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102144524A (en) * 2011-03-10 2011-08-10 中国农业科学院农田灌溉研究所 Automatic irrigation-drainage system for farmland
CN102499031A (en) * 2011-12-20 2012-06-20 鸡西市天合科技有限公司 Automatic water control system for field irrigation
CN102839639A (en) * 2012-09-12 2012-12-26 中国科学院南京土壤研究所 Rice field ecological irrigation and drainage community based on sustainable utilization
CN102986482A (en) * 2012-12-12 2013-03-27 中国农业大学 Greenhouse crop irrigation system and method with ideal regulation and control effect
CN103444495A (en) * 2013-09-06 2013-12-18 山东农业大学 Cross shaft hydraulic self-control multidirectional intermittent irrigation device
CN103477951A (en) * 2013-09-30 2014-01-01 无锡同春新能源科技有限公司 Device for using water lifting pump to lift water from rainwater collection tank to water trees and with power supply through lithium ion battery
CN103924562A (en) * 2014-04-10 2014-07-16 常熟市新靓文辅亚农艺发展有限公司 Novel drainage system
CN103953007A (en) * 2014-05-21 2014-07-30 河海大学 Farmland water recession retention purification time automatic regulating and control device
CN104488668A (en) * 2014-12-16 2015-04-08 杨立军 Buoyancy switch and automatic paddy field irrigation mechanism comprising buoyancy switch
RU2561436C1 (en) * 2014-06-03 2015-08-27 Михаил Иванович Голубенко Double-acting irrigation system
CN105230451A (en) * 2015-10-16 2016-01-13 西北农林科技大学 Automatic irrigation forecasting device for water shortage of field crops
CN106416954A (en) * 2016-07-26 2017-02-22 任叶飞 Irrigator capable of automatically switching water flow direction
CN107750917A (en) * 2017-11-14 2018-03-06 郑州宇恒环保技术有限公司 Plant automatic irrigation and automatic drain system
CN108061791A (en) * 2017-12-18 2018-05-22 安徽省(水利部淮河水利委员会)水利科学研究院(安徽省水利工程质量检测中心站) A kind of farm field irrigation drainage tests automatic control system
CN108417136A (en) * 2018-03-30 2018-08-17 河海大学 A kind of water delivery engineering water loss apparatus for demonstrating
RU2679690C1 (en) * 2018-06-01 2019-02-12 Вадим Михайлович Голубенко Combined irrigation system
CN109440895A (en) * 2018-10-31 2019-03-08 张立新 A kind of paddy field automatic plumbing equipment

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CN102144524A (en) * 2011-03-10 2011-08-10 中国农业科学院农田灌溉研究所 Automatic irrigation-drainage system for farmland
CN102499031A (en) * 2011-12-20 2012-06-20 鸡西市天合科技有限公司 Automatic water control system for field irrigation
CN102839639A (en) * 2012-09-12 2012-12-26 中国科学院南京土壤研究所 Rice field ecological irrigation and drainage community based on sustainable utilization
CN102839639B (en) * 2012-09-12 2014-10-08 中国科学院南京土壤研究所 Rice field ecological irrigation and drainage community based on sustainable utilization
CN102986482A (en) * 2012-12-12 2013-03-27 中国农业大学 Greenhouse crop irrigation system and method with ideal regulation and control effect
CN102986482B (en) * 2012-12-12 2014-09-24 中国农业大学 Greenhouse crop irrigation system and method with ideal regulation and control effect
CN103444495B (en) * 2013-09-06 2014-08-06 山东农业大学 Cross shaft hydraulic self-control multidirectional intermittent irrigation device
CN103444495A (en) * 2013-09-06 2013-12-18 山东农业大学 Cross shaft hydraulic self-control multidirectional intermittent irrigation device
CN103477951A (en) * 2013-09-30 2014-01-01 无锡同春新能源科技有限公司 Device for using water lifting pump to lift water from rainwater collection tank to water trees and with power supply through lithium ion battery
CN103924562A (en) * 2014-04-10 2014-07-16 常熟市新靓文辅亚农艺发展有限公司 Novel drainage system
CN103953007A (en) * 2014-05-21 2014-07-30 河海大学 Farmland water recession retention purification time automatic regulating and control device
RU2561436C1 (en) * 2014-06-03 2015-08-27 Михаил Иванович Голубенко Double-acting irrigation system
CN104488668A (en) * 2014-12-16 2015-04-08 杨立军 Buoyancy switch and automatic paddy field irrigation mechanism comprising buoyancy switch
CN105230451A (en) * 2015-10-16 2016-01-13 西北农林科技大学 Automatic irrigation forecasting device for water shortage of field crops
CN105230451B (en) * 2015-10-16 2018-08-07 西北农林科技大学 A kind of field-crop water shortage irrigation automatic forecasting device
CN106416954A (en) * 2016-07-26 2017-02-22 任叶飞 Irrigator capable of automatically switching water flow direction
CN107750917A (en) * 2017-11-14 2018-03-06 郑州宇恒环保技术有限公司 Plant automatic irrigation and automatic drain system
CN108061791A (en) * 2017-12-18 2018-05-22 安徽省(水利部淮河水利委员会)水利科学研究院(安徽省水利工程质量检测中心站) A kind of farm field irrigation drainage tests automatic control system
CN108417136A (en) * 2018-03-30 2018-08-17 河海大学 A kind of water delivery engineering water loss apparatus for demonstrating
RU2679690C1 (en) * 2018-06-01 2019-02-12 Вадим Михайлович Голубенко Combined irrigation system
CN109440895A (en) * 2018-10-31 2019-03-08 张立新 A kind of paddy field automatic plumbing equipment

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