CN211713910U - Farmland irrigation and drainage system - Google Patents

Farmland irrigation and drainage system Download PDF

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Publication number
CN211713910U
CN211713910U CN201922495578.XU CN201922495578U CN211713910U CN 211713910 U CN211713910 U CN 211713910U CN 201922495578 U CN201922495578 U CN 201922495578U CN 211713910 U CN211713910 U CN 211713910U
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water
farmland
hole
brick
irrigation
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秦升益
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Renchuang Eco Technology Co ltd
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Renchuang Eco Technology Co ltd
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Abstract

The utility model provides a drainage system is irritated in farmland. The farmland is irritated and is arranged system includes: the water inlet pool is arranged in the farmland and is made of a water filtering material; the water outlet pool is arranged in the farmland and is arranged at intervals with the water inlet pool, water passing holes are formed in the side wall of the water outlet pool, and the water outlet pool is communicated with the farmland through the water passing holes so as to control the preset water level of the farmland through controlling the height of the water passing holes. The technical scheme of the utility model the problem of irrigation and drainage system can't realize automatic irrigation and drainage among the prior art is solved in the farmland.

Description

Farmland irrigation and drainage system
Technical Field
The utility model relates to a row technical field is irritated to the agricultural, particularly, relate to a row system is irritated in farmland.
Background
With the development of agricultural production activities, agricultural non-point source pollution becomes a bottleneck restricting the development of agricultural economy, a farmland irrigation and drainage system in the prior art is usually a concrete pouring ditch, a water inlet and a water outlet are grooved through a ditch or manually controlled by arranging a gate valve, the automatic control of the water level of a farmland cannot be realized, the farmland irrigation water directly enters a water system through the ditch, and the pollution removal function is not realized.
SUMMERY OF THE UTILITY MODEL
A primary object of the present invention is to provide a farmland irrigation and drainage system to solve the problem that the farmland irrigation and drainage system in the prior art can not realize automatic irrigation and drainage.
In order to achieve the above object, according to an aspect of the present invention, there is provided a farmland irrigation and drainage system, comprising: the water inlet pool is arranged in the farmland and is made of a water filtering material; the water outlet pool is arranged in the farmland and is arranged at intervals with the water inlet pool, water passing holes are formed in the side wall of the water outlet pool, and the water outlet pool is communicated with the farmland through the water passing holes so as to control the preset water level of the farmland through controlling the height of the water passing holes.
Furthermore, along the vertical direction, the farmland irrigation and drainage system comprises a plurality of stages of farmlands, wherein each stage of farmlands is provided with a water inlet pool and a water outlet pool; the farmland irrigation and drainage system also comprises a water outlet pipeline which is communicated with a water outlet pool of a higher-level farmland and a water inlet pool of a lower-level farmland.
Further, the farmland irrigation and drainage system also comprises: the first water storage tank is arranged below the lowest farmland, and the first circulating pipeline is communicated with a water outlet tank in the lowest farmland and the first water storage tank; the second reservoir is arranged above the uppermost farmland, and the second circulating pipeline is communicated with the water inlet pool in the uppermost farmland and the second reservoir; the third circulating pipeline is communicated with the first reservoir and the second reservoir; and the water pump is arranged on the third circulating pipeline.
Further, the first water reservoir and/or the second water reservoir are silica sand water reservoirs which are used for purifying irrigation water.
Furthermore, the water outlet pipeline, the first circulating pipeline, the second circulating pipeline and the third circulating pipeline are made of UPVC materials; and/or the outer surfaces of the water outlet pipeline, the first circulation pipeline, the second circulation pipeline and the third circulation pipeline are coated with anticorrosive materials.
Further, the intake pond includes: the brick blocks are provided with water storage cavities, the plurality of brick blocks are built through cement mortar in the vertical direction, and the brick blocks are made of silica sand materials.
Further, the pond of going out includes: the brick blocks are provided with water storage cavities, a plurality of brick blocks are built through cement mortar in the vertical direction, and the brick blocks are made of silica sand materials; the mortar layer, the coating of mortar layer is on the outer peripheral face of a plurality of fragment of brick, the top on mortar layer and the bottom parallel and level in water hole.
Furthermore, along the vertical direction, the side wall of the water outlet pool is provided with a water outlet hole which is arranged at an interval with the water passing hole, and the water outlet hole is positioned below the water passing hole; the farmland irrigation and drainage system further comprises: the drainage ditch is dug in the farmland and arranged between the water inlet pool and the water outlet pool; the first end of the drainage pipeline is communicated with the drainage hole, and the second end of the drainage pipeline is communicated with the drainage ditch; the shutoff piece, shutoff piece detachably set up the second end at drainage pipe to through dismantling the shutoff piece and make the water in the farmland pass through drainage pipe and get into out in the basin.
Furthermore, water outlet holes which are arranged at intervals with the water passing holes are formed in the side wall of the water outlet pool along the vertical direction, and the water outlet holes are used for discharging water in the water outlet pool; in the vertical direction, the bottom end of the water outlet hole is lower than the bottom end of the water discharge hole.
Further, the pond of going out includes: the plain concrete cushion layer is arranged in the farmland; the brick is made of silica sand materials, the outer peripheral wall of the brick is arranged in a polygonal shape, and the brick is provided with a water storage cavity and a plurality of accommodating cavities arranged at intervals in the circumferential direction around the water storage cavity; the three bricks are laid on the plain concrete cushion layer through cement mortar in the vertical direction; water passing holes are formed in the side wall of the uppermost brick, and the water passing holes are arranged at intervals around the circumference of the uppermost brick; a drain hole is formed in the side wall of the brick located in the middle; the side walls of the brick at the middle part and the brick at the bottom part are respectively provided with a semicircular hole, and the two semicircular holes are butted to form a water outlet hole; a plurality of stones filled in the accommodation chamber; the mortar layer, the coating of mortar layer is on the outer peripheral face of three fragment of brick, the top on mortar layer and the bottom parallel and level in water hole, and the bottom on mortar layer extends to plain concrete bed course.
By applying the technical scheme of the utility model, the water inlet tank is made of the water filtering material, so that when the irrigation water is introduced into the water inlet tank, the irrigation water is filtered by the water inlet tank and irrigated into the farmland, and the farmland irrigation and drainage system provided by the application has the function of decontamination; in addition, the farmland irrigation and drainage system provided by the application can realize automatic control of the water level of the farmland through the arrangement of the water outlet pool, and when the water level in the farmland is higher than the water through holes, the water in the farmland enters the water outlet pool through the water through holes, so that the water level of the farmland is recovered to the preset water level; according to the water level demand of crops in the farmland, the preset water level of the farmland can be controlled by controlling the height of the water passing holes.
The application provides a farmland drainage and irrigation system can realize automatic drainage and irrigation, has energy-concerving and environment-protective advantage, does not need artifical guard to can liberate the manpower of traditional artifical nurse, and the farmland drainage and irrigation system that this application provided passes through the setting of pipeline, cistern and the intake sump that has permeate water and drainage function, has reached energy-concerving and environment-protective effect.
Drawings
The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 illustrates a schematic diagram of a farmland irrigation and drainage system according to an alternative embodiment of the present invention;
FIG. 2 shows an enlarged schematic view of the structure at A in FIG. 1;
FIG. 3 shows an enlarged schematic view of the structure at B in FIG. 1;
FIG. 4 is a schematic top view of the intake basin of FIG. 3;
FIG. 5 shows a schematic top view of the exit basin of FIG. 2;
FIG. 6 shows a schematic view of the blocks of the outlet basin of FIG. 2 in the middle;
FIG. 7 shows a schematic view of the bottom block of the outlet basin of FIG. 2;
FIG. 8 is a schematic structural diagram showing a partial structure of the farmland irrigation and drainage system of FIG. 1 in the same-grade farmland;
fig. 9 is a schematic structural view showing a partial structure of the agricultural irrigation and drainage system in fig. 1 in a multi-stage agricultural field.
Wherein the figures include the following reference numerals:
10. a water inlet pool; 20. a water outlet pool; 100. a plain concrete cushion; 200. a brick block; 201. a water storage cavity; 202. an accommodating chamber; 203. a semicircular hole; 300. a stone block; 400. a mortar layer; 221. water passing holes; 222. a water outlet hole; 223. a drain hole; 30. a water outlet pipeline; 40. a first reservoir; 50. a first circulation line; 60. a second reservoir; 70. a second circulation line; 80. a third circulation line; 90. a water pump; 91. a drainage ditch; 92. a drain line; 110. building a stone retaining wall; 120. a box-type ecological retaining wall; 130. a slag covering layer; 140. performing reverse filtration; 150. a drain pipe; 1. and (4) a farmland.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
In order to solve the problem that the drainage system is irritated in farmland among the prior art does not have the scrubbing function, the utility model provides a drainage system is irritated in farmland.
As shown in fig. 1 to 9, the farmland irrigation and drainage system comprises a water inlet tank 10 and a water outlet tank 20, wherein the water inlet tank 10 is arranged in a farmland 1, the water inlet tank 10 is made of a water filtering material, the water outlet tank 20 is arranged in the farmland 1 and is spaced from the water inlet tank 10, a water through hole 221 is arranged on the side wall of the water outlet tank 20, and the water outlet tank 20 is communicated with the farmland 1 through the water through hole 221 so as to control the predetermined water level of the farmland 1 by controlling the height of the water through hole 221.
In the embodiment, the water inlet tank 10 is made of a water filtering material, so that when irrigation water is introduced into the water inlet tank 10, the irrigation water is filtered by the water inlet tank 10 and then irrigated into the farmland 1, and the farmland irrigation and drainage system provided by the application has a decontamination function; in addition, the farmland irrigation and drainage system provided by the application can realize automatic control of the water level of the farmland through the arrangement of the water outlet pool 20, when the water level in the farmland 1 is higher than the water through holes 221, the water in the farmland 1 enters the water outlet pool 20 through the water through holes 221, so that the water level of the farmland 1 is restored to the preset water level; the predetermined water level of the field 1 can be controlled by controlling the height of the water passing hole 221 according to the water level demand of crops in the field.
As shown in fig. 1 and 9, the farmland irrigation and drainage system comprises a plurality of stages of farmlands 1 in the vertical direction, wherein each stage of farmlands 1 is provided with a water inlet pool 10 and a water outlet pool 20; the farmland irrigation and drainage system also comprises a water outlet pipeline 30, and the water outlet pipeline 30 is communicated with the water outlet pool 20 of the upper farmland 1 and the water inlet pool 10 of the lower farmland 1. Thus, the water holes 221 of the water outlet pool 20 are matched with the water outlet pipeline 30, so that the multi-stage farmland can be irrigated stage by stage. Specifically, the irrigation water is introduced into the farmland 1 at the uppermost stage through the water inlet tank 10 positioned in the farmland at the uppermost stage, when the water level exceeds a predetermined water level, the irrigation water enters the water outlet tank 20 through the water through holes 221, and then is introduced into the water inlet tank 10 in the farmland 1 at the next stage through the water outlet pipeline 30, and by repeating the above process, automatic irrigation of the multistage farmland can be realized, and automatic control can be performed on the predetermined water level in the multistage farmland.
Optionally, the farmland irrigation and drainage system further comprises a reservoir, the lowest stage water outlet pool 20 is communicated with the reservoir through a water outlet pipeline 30, the highest stage water inlet pool 10 is communicated with the reservoir through a water inlet pipeline, and when the irrigation water in the farmland is excessive, the irrigation water can be drained into the reservoir through the water outlet pipeline 30; when insufficient irrigation water exists in the farmland, water in the water storage tank can be drained into the water inlet tank on the uppermost level through the water inlet pipeline, and the farmland is irrigated after being filtered through the water inlet tank 10. Therefore, zero discharge of irrigation water can be realized, recycling of the irrigation water is facilitated, and energy conservation is facilitated.
Optionally, the reservoir has a purification function. Therefore, the decontamination effect of the farmland irrigation and drainage system can be further improved.
As shown in fig. 9, the irrigation and drainage system further includes a first reservoir 40, a first circulation line 50, a second reservoir 60, a second circulation line 70, a third circulation line 80 and a water pump 90, the first reservoir 40 is disposed below the lowermost field 1, the first circulation line 50 communicates the outlet tank 20 and the first reservoir 40 located in the lowermost field 1, the second reservoir 60 is disposed above the uppermost field 1, the second circulation line 70 communicates the inlet tank 10 and the second reservoir 60 located in the uppermost field 1, the third circulation line 80 communicates the first reservoir 40 and the second reservoir 60, and the water pump 90 is disposed on the third circulation line 80. Thus, by providing two stages of reservoirs, it is advantageous to control the amount of irrigation water discharged into the inlet tank 10 in the uppermost field 1.
In a specific embodiment, when the farmland irrigation and drainage system provided by the application is used, collected rainwater or irrigation and drainage water is pumped to the second reservoir 60 of the uppermost paddy field for transfer through the first reservoir 40 at the lowest part, and then is poured to each stage of paddy field step by step, water firstly permeates into the farmland 1 through the water inlet pool 10 formed by stacking silica sand integrated well bricks (without mortar), and the bricks 200 have the functions of water permeation and water filtration, and can purify rainwater and farmland irrigation water with non-point source pollution. After getting into farmland 1, after the surface of water highly surpassed the normal 5cm water level of rice, in the water hole 221 that crosses of play pond 20 gets into play pond 20 in the pipeline flows into next level farmland 1, the pipeline adopts the UPVC material, in order to guarantee the service life, the antiseptic is paintd to the outside, each level farmland 1 carries out the paddy field irrigation through intake pond 10 and play pond 20, the water pipe of farmland 1 of the lowest level collects the first cistern 40 that gets into the terminal, can realize the zero release of irrigation water, then the water of collecting is purified the back through first cistern 40, promote the second cistern 60 of the superiors transfer in paddy field once more, thereby can realize the comprehensive cycle of irrigation rainwater and use, reach the water conservation, the purpose of water purification.
Optionally, the first reservoir 40 and/or the second reservoir 60 are silica sand reservoirs, which can purify irrigation water, and facilitate further improvement of the decontamination effect of the farmland irrigation and drainage system.
Optionally, the outlet line 30, the first circulation line 50, the second circulation line 70, and the third circulation line 80 are made of UPVC material. The UPVC material is not easy to rust and meets the requirement of environmental protection, can be used in farmland, and avoids the pollution to irrigation water.
Optionally, the outer surfaces of the water outlet line 30, the first circulation line 50, the second circulation line 70, and the third circulation line 80 are coated with a corrosion-resistant material. Therefore, the service life of the pipeline can be prolonged, the service life of the farmland irrigation and drainage system is ensured, and the maintenance time interval is prolonged.
Optionally, the anticorrosive material is chlorinated rubber finish paint, the chlorinated rubber finish paint is anticorrosive paint taking chlorinated rubber resin as a main film forming material, and the chlorinated rubber finish paint has the advantages of good corrosion resistance, fast drying, simplicity in construction, good water resistance, capability of well protecting pipelines and prolonging the service life of the pipelines.
As shown in fig. 3 and 4, the intake pool 10 includes bricks 200, the bricks 200 having water storage cavities 201, a plurality of the bricks 200 being constructed in a vertical direction by cement mortar, the bricks 200 being made of silica sand material. Like this, intake pool 10 adopts concatenation, the technology of piling up to make, only needs a small amount of cement mortar to build by laying bricks or stones, compares with concrete placement's irrigation canals and ditches among the prior art, and construction period is difficult for receiving construction weather influence, has that construction period is short, with low costs, construction is convenient, the operation degree of difficulty is low, is difficult for receiving the advantage that external conditions such as road influence. Because brick 200 has the function of permeating water, drainage, let in irrigation water in water storage chamber 201, get into farmland 1 after filtering through the brick wall of brick 200.
As shown in fig. 2 and 5 to 7, the pool 20 includes blocks 200 and a mortar layer 400, the blocks 200 have water storage cavities 201, a plurality of blocks 200 are constructed in a vertical direction by cement mortar, the blocks 200 are made of silica sand material, the mortar layer 400 is coated on the outer circumferential surfaces of the blocks 200, and the top ends of the mortar layer 400 are flush with the bottom ends of the water through holes 221. Like this, utilize mortar bed 400 to prevent that the water in the water storage chamber 201 from permeating to farmland 1 through fragment of brick 200 in, when the water level in farmland 1 was higher than mortar bed 400, the water in farmland 1 passed through water hole 221 and gets into in the pool 20 to control the water level in farmland 1.
As shown in fig. 2, in the vertical direction, the side wall of the water outlet pool 20 is provided with a water outlet hole 223 spaced from the water passing hole 221, and the water outlet hole 223 is located below the water passing hole 221; as shown in fig. 8, the farmland irrigation and drainage system further comprises a drainage ditch 91 and a drainage pipeline 92, the drainage ditch 91 is dug in the farmland 1, the drainage ditch 91 is arranged between the water inlet tank 10 and the water outlet tank 20, a first end of the drainage pipeline 92 is communicated with the drainage hole 223, and a second end of the drainage pipeline 92 is communicated with the drainage ditch 91; a blocking piece which is detachably arranged at the second end of the drainage pipeline 92 so as to enable water in the farmland 1 to enter the water outlet pool 20 through the drainage pipeline 92 by detaching the blocking piece. Thus, in rainy season or when the water in the farmland 1 needs to be drained, the blocking piece is detached, and the water in the farmland 1 flows into the water outlet pool 20 through the drainage ditch 91 and the drainage pipeline 92, and then enters the next-stage farmland through the water outlet pipeline 30 or enters the first reservoir 40 through the first circulation pipeline 50.
Optionally, the drainage ditch 91 is a soil ditch.
As shown in fig. 2, in the vertical direction, the sidewall of the outlet basin 20 is provided with an outlet hole 222 spaced from the water passing hole 221, and the outlet hole 222 is used for discharging water in the outlet basin 20; in the vertical direction, the bottom end of the water outlet hole 222 is lower than the bottom end of the water discharge hole 223. Thus, water entering the outlet basin 20 through the water passing hole 221 and the water discharging hole 223 can be discharged out of the outlet basin 20 through the water outlet hole 222.
Alternatively, the diameters of the water passing hole 221, the water discharge hole 223, and the water outlet hole 222 are gradually increased.
Alternatively, the diameter of the water passing hole 221 is 50 mm; one side close to the ridge is not provided with a water through hole 221; alternatively, 1 or 2 water passing holes 221 are provided on one side.
Optionally, the top brick 200 around the outside of the outlet pool 20 is below 15cm to the bottom and all 1: 2, plastering the mortar, and specifically adjusting according to the field condition.
Optionally, the drain hole 223 has a diameter of 100 mm.
Optionally, the diameter of the water outlet hole 222 is 200 mm.
Optionally, the outer peripheral wall of the brick 200 is polygonal, so as to be conveniently attached to the masonry stone retaining wall 110.
Optionally, the outlet conduit 30 includes straight tubes and elbows.
Alternatively, the joint between the drain line 92 and the effluent tank 20 is filled with mortar and the joint between the drain line 92 and the effluent tank 20 is filled with mortar.
In the specific embodiment shown in fig. 2, the effluent pool 20 comprises a plain concrete cushion 100, bricks 200, stones 300 and a mortar bed 400, the plain concrete cushion 100 is arranged in the farmland 1, the bricks 200 are made of silica sand material, the outer peripheral walls of the bricks 200 are arranged in a polygon shape, and the bricks 200 are provided with a water storage cavity 201 and a plurality of accommodating cavities 202 arranged at intervals around the circumference of the water storage cavity 201; the three bricks 200 are laid on the plain concrete cushion 100 through cement mortar in the vertical direction; as shown in fig. 2 and 5, water through holes 221 are formed in the side wall of the uppermost brick 200, and the water through holes 221 are spaced around the uppermost brick 200 in the circumferential direction; a drain hole 223 is formed on the side wall of the brick 200 positioned in the middle; as shown in fig. 6 and 7, a semicircular hole 203 is respectively formed in the side walls of the brick 200 located in the middle and the brick 200 located at the bottom, two semicircular holes 203 are butted to form a water outlet hole 222, a plurality of stones 300 are filled in the accommodating cavity 202, the mortar layer 400 is coated on the outer peripheral surfaces of the three bricks 200, the top end of the mortar layer 400 is flush with the bottom end of the water outlet hole 221, and the bottom end of the mortar layer 400 extends to the plain concrete cushion 100. The plain concrete cushion 100 has a leveling function, so that the subsequent building of bricks 200 is facilitated; the stone block 300 has a filtering function for allowing only water to pass through gaps between the plurality of stone blocks 300 for preventing foreign materials having a large size from passing therethrough.
Optionally, the block 200 to which the present application relates is a silica sand integrated well block.
Alternatively, the intake basin 10 and the outtake basin 20 are each constructed by 3 silica sand integrated well bricks laid against the masonry retaining wall 110 by M7.5 mortar.
Optionally, the stone block 300 is crushed stone.
Alternatively, the field 1 is a paddy field and the predetermined water level is 5cm above the surface of the field. Therefore, the effective depth of the paddy field is the most suitable depth for the growth of the rice, which is beneficial to the growth of the rice. Specifically, when the height of the water surface exceeds 5cm, the water automatically enters the water outlet pool 20 and then enters the next stage of paddy field through the water outlet pipeline 30, and the water outlet pool 20 can realize automatic control of the preset water level of the paddy field without other equipment and manual management.
As shown in fig. 1, the farmland irrigation and drainage system further comprises a block stone retaining wall 110 and a box-type ecological retaining wall 120, wherein the block stone retaining wall 110 is arranged on the periphery side of the same-stage farmland, the water inlet pool 10 and the water outlet pool 20 are oppositely arranged and are both attached to the block stone retaining wall 110, the water outlet pool 20 is arranged close to the next-stage farmland, and the box-type ecological retaining wall 120 is arranged on the transition surface between the two stages of farmlands. The block stone retaining wall 110 is arranged to contain irrigation water and prevent the irrigation water from flowing out, so that the preset water level of the irrigation water can be controlled; set up box ecological barricade 120 and facilitate the installation, can reduce construction period, reduce the construction degree of difficulty. The application provides a irrigation and drainage system in farmland is applicable to and uses when carrying out the reclamation at mountain region abrupt slope, hilly land piece and building the farmland.
As shown in fig. 1, the agricultural irrigation and drainage system further comprises a reverse filter pack 140 and a drainage pipe 150, wherein the drainage pipe 150 is arranged in the block stone retaining wall 110, the reverse filter pack 140 is arranged at one end of the drainage pipe 150 far away from the water inlet tank 10, and the reverse filter pack 140 is used for preventing the drainage pipe 150 from being blocked.
As shown in fig. 1, the farmland irrigation and drainage system further comprises a slag cushion layer 130, wherein the masonry retaining wall 110 and the plain concrete cushion layer 100 are arranged on the slag cushion layer 130, and the slag cushion layer 130 has a leveling effect.
The existing farmland irrigation and drainage system mainly comprises concrete poured open channels, wherein the channel pouring needs moulding, in-situ pouring, maintenance and the like, the requirements on weather (climate, season), field, road conditions and the like are high, and the construction process is limited by the conditions; meanwhile, the concrete construction cost is high, the construction difficulty of the project of reclaiming the paddy field in the hilly abrupt slope and the hilly land is higher, and the construction period is relatively long. And the application provides a farmland irrigation and drainage system, the intake pond 10 and the play pond 20 that form by integral type well brick pile has the water permeability, drainage function, no longer adopt concrete placement, do not have the model making, maintenance scheduling problem, through the system between the UPVC pipe connection upper and lower field piece, intake pond 10 purifies irrigation water, play pond 20 upper end trompil automatic control field piece water level, field escape canal 91 increases the drainage in heavy rain and harvesting period, and then the realization carries out automatic control to the irrigation and drainage in sponge type paddy field. The application provides a drainage system is irritated in farmland walks water through the field, can realize the nearly 100% utilization of irrigation water, has high-efficient water conservation function. The integrated shaft brick is not easily influenced by weather, fields, roads and the like, is made of a formed material, is quick to construct, is low in cost, can effectively control quality, can shorten the construction period, and can promote the progress of engineering.
The application provides a drainage system is irritated in farmland is synthesized field and is walked water, pipeline drainage and irrigated water purification integrative farmland and irritate drainage system. The application provides a drainage system is irritated in farmland is applicable to different areas, can solve irrigation problem, solve the drainage problem in rainy season in dry season, still has ecological interception and scrubbing function. The utility model provides a water intake pool 10 adopts the integrative well brick of permeating water, drainage function to build by laying bricks or stones and forms, realizes cutting dirty and the edulcoration function of irrigation water, and it is few to have the cement quantity, simple process, low cost, facilitate promotion, advantage that external influence is little.
The water inlet tank 10 and the water outlet tank 20 are built by adopting integrated well bricks with water permeating and filtering functions, so that pollutants in farmland irrigation rainwater can be effectively intercepted, and agricultural non-point source pollution can be reduced; the construction process is splicing and stacking, the preparation method is simple, and the consumption of auxiliary materials is small. The construction difficulty is small on the whole, the cost is low, the construction is convenient, the construction period is short, and the influence of external conditions such as climate, roads and the like is avoided; the brick 200 on the uppermost layer of the water outlet pool 20 is provided with a hole at the position of 5cm high of the paddy field surface so as to ensure that the effective depth of the paddy field is about 5cm which is most suitable for the growth of paddy rice, and when the height of the water surface exceeds 5cm, the water automatically enters the water outlet pool and enters the next-stage paddy field through the water outlet pipeline 30; meanwhile, a drainage ditch 91 is formed between the water inlet pool 10 and the water outlet pool 20, the bottom of the ditch side of the water outlet pool 20 is communicated with the drainage ditch 91 through a drainage pipeline 92 with a plugging piece, so that the drainage is accelerated during heavy rain and heavy rain, and the water in the paddy field is drained completely during the harvest period, the automatic control of the water level of the paddy field can be realized, and other equipment and manual management are not needed; the application provides a row's system is irritated in farmland realizes the comprehensive cycle of water and uses, and the irrigation water of collecting, rainwater get into the cistern of low reaches most, promote to the superiors paddy field then down irrigate step by step after the cistern purifies, collect through lower floor paddy field at last and get into the cistern to realize the cycle of water and use, realize the water conservation function.
Alternatively, in the same grade of farm, only the intake basin 10 or the outtake basin 20 may be included. The water inlet tank 10 has the functions of filtering water and permeating water, can remove dirt from irrigation water, avoids non-point source pollution, and the water outlet tank 20 has the function of controlling the water level, so that after the water level exceeds the preset water level, the water automatically enters the next level to realize automatic irrigation and drainage.
It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments according to the present application. As used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, and it should be understood that when the terms "comprises" and/or "comprising" are used in this specification, they specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof, unless the context clearly indicates otherwise.
Unless specifically stated otherwise, the relative arrangement of the components and steps, the numerical expressions, and numerical values set forth in these embodiments do not limit the scope of the present invention. Meanwhile, it should be understood that the sizes of the respective portions shown in the drawings are not drawn in an actual proportional relationship for the convenience of description. Techniques, methods, and apparatus known to those of ordinary skill in the relevant art may not be discussed in detail but are intended to be part of the specification where appropriate. In all examples shown and discussed herein, any particular value should be construed as merely illustrative, and not limiting. Thus, other examples of the exemplary embodiments may have different values. It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, further discussion thereof is not required in subsequent figures.
In the description of the present invention, it should be understood that the orientation or positional relationship indicated by the orientation words such as "front, back, up, down, left, right", "horizontal, vertical, horizontal" and "top, bottom" etc. are usually based on the orientation or positional relationship shown in the drawings, and are only for convenience of description and simplification of description, and in the case of not making a contrary explanation, these orientation words do not indicate and imply that the device or element referred to must have a specific orientation or be constructed and operated in a specific orientation, and therefore, should not be interpreted as limiting the scope of the present invention; the terms "inner and outer" refer to the inner and outer relative to the profile of the respective component itself.
Spatially relative terms, such as "above … …," "above … …," "above … …," "above," and the like, may be used herein for ease of description to describe one device or feature's spatial relationship to another device or feature as illustrated in the figures. It will be understood that the spatially relative terms are intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if a device in the figures is turned over, devices described as "above" or "on" other devices or configurations would then be oriented "below" or "under" the other devices or configurations. Thus, the exemplary term "above … …" can include both an orientation of "above … …" and "below … …". The device may be otherwise variously oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.
It should be noted that the terms "first," "second," and the like in the description and claims of this application and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the application described herein are capable of operation in sequences other than those illustrated or described herein.
The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A system for irrigation and drainage in a field, comprising:
the water inlet pool (10) is arranged in the farmland (1), and the water inlet pool (10) is made of a water filtering material;
go out pond (20), go out pond (20) set up in farmland (1) and with intake pond (10) interval sets up, be equipped with on the lateral wall of play pond (20) and cross water hole (221), go out pond (20) through cross water hole (221) with farmland (1) intercommunication, with through control the altitude control of crossing water hole (221) the predetermined water level in farmland (1).
2. The agricultural irrigation and drainage system of claim 1,
along the vertical direction, the farmland irrigation and drainage system comprises a plurality of stages of farmlands (1), wherein the water inlet pool (10) and the water outlet pool (20) are arranged in each stage of farmlands (1);
the farmland irrigation and drainage system also comprises a water outlet pipeline (30), wherein the water outlet pipeline (30) is communicated with a water outlet pool (20) of the upper farmland (1) and a water inlet pool (10) of the lower farmland (1).
3. The system of claim 2, further comprising:
a first water reservoir (40) and a first circulation pipeline (50), wherein the first water reservoir (40) is arranged below the lowest farmland (1), and the first circulation pipeline (50) is communicated with the water outlet pool (20) in the lowest farmland (1) and the first water reservoir (40);
a second reservoir (60) and a second circulation pipe (70), the second reservoir (60) being disposed above the uppermost field (1), the second circulation pipe (70) communicating the inlet reservoir (10) and the second reservoir (60) located in the uppermost field (1);
a third circulation conduit (80), said third circulation conduit (80) communicating said first reservoir (40) and said second reservoir (60);
a water pump (90), the water pump (90) being disposed on the third circulation line (80).
4. The system of claim 3, wherein the first reservoir (40) and/or the second reservoir (60) is a silica sand reservoir.
5. The agricultural irrigation and drainage system of claim 3,
the water outlet line (30), the first circulation line (50), the second circulation line (70) and the third circulation line (80) are made of UPVC material; and/or
The outer surfaces of the water outlet pipeline (30), the first circulation pipeline (50), the second circulation pipeline (70) and the third circulation pipeline (80) are coated with anticorrosive materials.
6. An agricultural irrigation and drainage system according to any one of claims 1 to 5, characterized in that the intake basin (10) comprises:
the brick block (200) is provided with a water storage cavity (201), a plurality of brick blocks (200) are built through cement mortar along the vertical direction, and the brick blocks (200) are made of silica sand materials.
7. An agricultural irrigation and drainage system according to any one of claims 1 to 5, characterized in that the outlet basin (20) comprises:
the brick (200), the brick (200) is provided with a water storage cavity (201), a plurality of bricks (200) are laid by cement mortar along the vertical direction, and the bricks (200) are made of silica sand materials;
the mortar layer (400), the coating of mortar layer (400) is in a plurality of on the outer peripheral face of fragment of brick (200), the top of mortar layer (400) with the bottom parallel and level of water hole (221) cross.
8. The farmland irrigation and drainage system as claimed in any one of claims 1 to 5, wherein a drain hole (223) is formed on the side wall of the water outlet pool (20) in the vertical direction and is spaced from the water through hole (221), and the drain hole (223) is positioned below the water through hole (221); the farmland irrigation and drainage system further comprises:
the drainage ditch (91) is dug in the farmland (1), and the drainage ditch (91) is arranged between the water inlet pool (10) and the water outlet pool (20);
a drain line (92), a first end of the drain line (92) being in communication with the drain hole (223), a second end of the drain line (92) being in communication with the drain ditch (91);
a blocking piece which is detachably arranged at the second end of the drainage pipeline (92) so as to enable water in the farmland (1) to enter the water outlet pool (20) through the drainage pipeline (92) by detaching the blocking piece.
9. The farmland irrigation and drainage system as claimed in claim 8, wherein the side wall of the outlet basin (20) is provided with a water outlet hole (222) spaced from the water passing hole (221) along the vertical direction, and the water outlet hole (222) is used for discharging water in the outlet basin (20); in the vertical direction, the bottom end of the water outlet hole (222) is lower than the bottom end of the water discharge hole (223).
10. The system of claim 9, wherein the effluent tank (20) comprises:
a plain concrete cushion layer (100), the plain concrete cushion layer (100) being disposed in the farm field (1);
the brick (200) is made of silica sand materials, the outer peripheral wall of the brick (200) is arranged in a polygonal shape, and the brick (200) is provided with a water storage cavity (201) and a plurality of accommodating cavities (202) which are arranged around the circumferential direction of the water storage cavity (201) at intervals; the three bricks (200) are laid on the plain concrete cushion layer (100) through cement mortar in the vertical direction; the side wall of the uppermost brick (200) is provided with the water through holes (221), and the water through holes (221) are arranged at intervals around the circumference of the uppermost brick (200); the side wall of the brick block (200) positioned in the middle is provided with the drainage hole (223); the side walls of the brick (200) positioned in the middle and the brick (200) positioned at the bottom are respectively provided with a semicircular hole (203), and the two semicircular holes (203) are butted to form the water outlet hole (222);
a block of stone (300), a plurality of said blocks of stone (300) being filled in said housing cavity (202); the mortar layer (400), coating of mortar layer (400) is three on the outer peripheral face of fragment of brick (200), the top of mortar layer (400) with the bottom parallel and level of crossing water hole (221), the bottom of mortar layer (400) extends to plain concrete bed course (100).
CN201922495578.XU 2019-12-31 2019-12-31 Farmland irrigation and drainage system Active CN211713910U (en)

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CN201922495578.XU CN211713910U (en) 2019-12-31 2019-12-31 Farmland irrigation and drainage system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201922495578.XU CN211713910U (en) 2019-12-31 2019-12-31 Farmland irrigation and drainage system

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110965535A (en) * 2019-12-31 2020-04-07 仁创生态环保科技股份有限公司 Farmland irrigation and drainage system

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110965535A (en) * 2019-12-31 2020-04-07 仁创生态环保科技股份有限公司 Farmland irrigation and drainage system

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