CN112262634A - Device based on irrigate improvement saline and alkaline land - Google Patents

Abstract

The invention relates to a device for improving saline-alkali soil based on irrigation, which comprises a new soil module, a new soil module and a new soil module, wherein crops are planted on the new soil module; the modular arrangement is adopted, and irrigation is carried out through a water channel; the saline-alkali soil module is positioned below the new soil module and is stored in a modularized mode, and irrigation water descends to irrigate the saline-alkali soil after passing through the new soil module; the saline-alkali soil treatment device is positioned below the saline-alkali soil module and is used for receiving the irrigation water passing through the saline-alkali soil module; the saline-alkali soil treatment device lifts the saline-alkali soil module to expose the saline-alkali soil module on the water level surface of the site; the loosening device is positioned on the saline-alkali soil treatment device and is used for loosening the saline-alkali soil module; the cleaning device is used for conveying irrigation water stored in the saline-alkali treatment device; and the output device is used for storing the irrigation water flowing out of the saline-alkali treatment device. The invention has reasonable design, compact structure and convenient use.

Description

Device based on irrigate improvement saline and alkaline land

Technical Field

The invention relates to a device for improving saline-alkali soil based on irrigation, which is particularly suitable for an intelligent farmland and realizes the improvement of the saline-alkali soil through irrigation.

Background

The improvement of saline-alkali soil, the prevention and treatment of secondary salinization, and the maintenance and improvement of the land productivity are important contents for maintaining the land productivity in arid regions and the sustainable development of agriculture. As soil salinization directly influences the soil structure, water and gas guiding, water and fertilizer supplying capacity, and plant emergence and growth processes, the researchers of various countries in the world carry out deep research on the saline-alkali soil improvement method.

Saline-alkali soil is a soil which is 'diseased' due to excessive salt content or strong alkalinity. The grading indexes of the saline-alkali soil are as follows: mild salinization, wherein the salt content of the soil is 0.1-0.2%; moderate salinized soil, wherein the salt content of the soil is 0.2-0.4%: the salt content of the heavily salinized soil is 0.4-0.6% (the salt content is calculated by a soil plough layer of 30 cm in most of China). The other index for measuring the saline-alkali soil is pH value which is generally neutral at 7.5, slightly acidic at less than 7.0 and slightly alkaline at more than 7.5.

At present, the soil improvement method mainly comprises water conservancy improvement, chemical improvement, biological improvement and physical improvement. The modes, the effects and the purposes of various improving methods are different, but good water, salt, fertilizer and gas environments are created for the growth of crops, and the continuous utilization of the land is maintained.

The fertilizer is an optimal polymer which absorbs salt and reduces alkali and contains a sodium ion adsorbent, humic acid, fulvic acid and rare earth. The moderate saline-alkali soil is matched with a large amount of applied wheat bran and special fertilizer, and the effect is better.

Saline-alkali soil generally has the characteristics of low temperature, thin soil and poor structure. The organic fertilizer is decomposed and converted into humus through the micro-cattle substances, so that the buffering capacity of the soil is improved, the organic fertilizer can react with sodium carbonate to form sodium humate, and the alkalinity of the soil is reduced. The sodium humate can also stimulate the growth of crops and enhance the salt resistance. The humus can promote the formation of granular structure, thereby increasing the porosity, enhancing the water permeability, facilitating the leaching of salt and inhibiting the salt return. In the decomposition process of the organic matters, a large amount of organic acids are generated, so that on one hand, the alkalinity of soil can be neutralized, on the other hand, the nutrient decomposition can be accelerated, the slow-acting nutrient conversion is promoted, and the phosphorus effectiveness is improved. Therefore, the increased application of organic fertilizer is an important measure for improving saline-alkali soil and improving soil fertility.

The saline-alkali soil mainly has two types, one type is low-level terrain, cool groove shape and beach depression shape which are distributed on the coastal lands of rivers and lakes, and has secondary property; the second saline-alkali soil belongs to soil formed by salt around ancient and recent salt lakes and stratum and severe salt accumulation, and has native properties. The saline-alkali soil formation is a result of combined action of natural and artificial factors, and researches show that the soil matrix, texture, terrain, new structure movement, hydrological conditions, artificial activities and the like are important factors influencing the saline-alkali soil formation.

In the process of utilizing the saline-alkali soil, the saline-alkali soil can be divided into light saline-alkali soil, moderate saline-alkali soil and heavy saline-alkali soil. The light saline-alkali soil has the emergence rate of 70-80% and the salt content of less than three thousandths; the heavy saline-alkali soil has salt content more than six thousandths, and the emergence rate is lower than 50%; the middle part is the moderate saline-alkali soil (the pH value is expressed by that the pH value of the mild saline-alkali soil is 7.1-8.5, the pH value of the moderate saline-alkali soil is 8.5-9.5, and the pH value of the severe saline-alkali soil is more than 9.5).

In the prior art, the saline-alkali soil improvement method generally comprises the following steps: 1. And (5) washing salt. The salt washing is that water is poured into the saline-alkali soil to dissolve the salt in the soil, the soluble salt and alkali in the surface soil layer are drained into the deep soil or washed out through infiltration, and the soluble salt and alkali are laterally infiltrated into a drainage ditch to be removed. 2. And (5) leveling the land. The land leveling can ensure that the water is uniformly infiltrated, improve the effects of rain and salt leaching and irrigation salt washing, and prevent the spot salinization of the soil. Deep ploughing and deep turning. The distribution condition of salinity in soil is that the topsoil is many, and the lower floor is few, and through ploughing, can buckle the salinity in the top soil below the plough layer, the soil that the lower floor contains less salt is ploughed to the surface. The plowing can loosen the plough layer, cut off the soil capillary, weaken the water evaporation of the soil and effectively control the salt return of the soil. The plowing time of the saline-alkali soil is preferably spring and autumn. Spring and autumn are seasons with heavy salt return. The autumn ploughing is particularly beneficial to killing pest eggs, removing weeds, deeply burying root stubbles, enhancing organic matter decomposition and release of slow-acting nutrients, so that the method is worthy of advocating. 3. Harrowing the land at proper time. The harrowing can loosen the surface soil, cut off the capillary water of the soil to convey salt to the surface, and play a role in preventing salt return. Harrowing should be timely, should be done in shallow spring, first-lying, early autumn, dry and wet. 4. And organic fertilizer is additionally applied, and chemical fertilizer is reasonably applied. Saline-alkali soil generally has the characteristics of low temperature, thin soil and poor structure. The organic fertilizer is decomposed and converted by microorganisms to form humus, so that the buffering capacity of the soil can be improved, and the organic fertilizer can react with sodium carbonate to form sodium humate and reduce the alkalinity of the soil. The sodium humate can also stimulate the growth of crops and enhance the salt resistance. The humus can promote the formation of granular structure, thereby increasing the porosity, enhancing the water permeability, facilitating the leaching of salt and inhibiting the salt return. In the decomposition process of the organic matters, a large amount of organic acids are generated, so that on one hand, the alkalinity of soil can be neutralized, on the other hand, the nutrient decomposition can be accelerated, the slow-acting nutrient conversion is promoted, and the phosphorus effectiveness is improved. Therefore, the increased application of organic fertilizer is an important measure for improving saline-alkali soil and improving soil fertility. In addition, the effect of the fertilizer on improving the saline-alkali soil is also paid attention by people, the fertilizer adds nitrogen, phosphorus and potassium into the soil, the growth of crops is promoted, and the salt tolerance of the crops is improved. The application of the fertilizer can change the salt composition of soil and inhibit the adverse effect of salt on plants. The inorganic fertilizer can increase the crop yield, increase the yield of the straw, enlarge the organic fertilizer source and promote the organic fertilizer by the inorganic fertilizer. Of course, when applying fertilizer to saline-alkali soil, it is preferable to avoid applying alkaline fertilizer such as ammonia water, ammonium bicarbonate, lime nitrogen, calcium magnesium phosphate fertilizer, etc., and neutral and acidic fertilizer are preferable. The potassium sulfate compound fertilizer is a subacid fertilizer, is suitable for being applied to saline-alkali soil, and has a good effect of improving the saline-alkali soil.

However, the improvement of the saline-alkali soil in the prior art needs a lot of manpower, material resources and financial resources, and the improvement effect is not satisfactory.

Disclosure of Invention

The invention aims to solve the technical problem of providing a device for improving saline-alkali soil based on irrigation.

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a device for improving saline-alkali soil based on irrigation comprises

A fresh soil module on which crops are planted; the modular arrangement is adopted, and irrigation is carried out through a water channel;

the saline-alkali soil module is positioned below the new soil module and is stored in a modularized mode, and irrigation water descends to irrigate the saline-alkali soil after passing through the new soil module;

the saline-alkali soil treatment device is positioned below the saline-alkali soil module and is used for receiving the irrigation water passing through the saline-alkali soil module; the saline-alkali soil treatment device lifts the saline-alkali soil module to expose the saline-alkali soil module on the water level surface of the site;

the loosening device is positioned on the saline-alkali soil treatment device and is used for loosening the saline-alkali soil module;

the cleaning device is used for conveying irrigation water stored in the saline-alkali treatment device;

and the output device is used for storing the irrigation water flowing out of the saline-alkali treatment device.

As a further improvement of the above technical solution:

the new soil module comprises a plurality of new soil net cages which are prefabricated and store new soil for planting crops;

a new soil outer side inclined plane is arranged at the bottom of the outer side wall of the new soil net cage, a new soil lower insertion cone is arranged at the bottom of the new soil net cage, a new soil hanging lug part is arranged on the new soil net cage, and a new soil film bracket with a film covering the new soil is arranged on the new soil net cage;

the film on the new soil film support is provided with an opening for exposing growing crops, and the edge of the opening is provided with a new soil opening involutory clamping sleeve;

the periphery of the new soil net cage is provided with a new soil water passage underdrain, the edges of two sides of the new soil net cage are provided with new soil male sloping plates, and the new soil male sloping plates are connected with new soil male L-shaped frames;

the new soil mother L frames are arranged at the edges of the other two sides of the new soil net cage, and the new soil mother L frames are connected with new soil mother inclined planes;

a dead space is arranged at the dead space right angle of the fresh soil net cage, and a fresh soil water inlet channel is arranged at the dead space; the irrigation water enters the neutral position through the new soil water inlet channel;

the neutral position, the new soil male inclined plate and the new soil female L are erected above the new soil water passage underdrain;

and the irrigation water in the new soil water underdrain enters the new soil net box.

The saline-alkali soil module comprises a saline-alkali soil net cage for storing saline-alkali soil to be improved; saline-alkali soil seepage holes and saline-alkali soil loosening holes are distributed on the saline-alkali soil net cage;

the saline-alkali soil net cage receives irrigation water flowing out of the new soil water underdrain and/or the new soil net cage;

saline-alkali soil seepage holes for irrigation water falling through the saline-alkali soil net cage;

saline-alkali soil loosening holes are used for the irrigation water of the falling saline-alkali soil net cage and used for inserting the ejector rods to loosen the soil of the saline-alkali soil.

The saline-alkali treatment device comprises a bottom support frame with an n-shaped or square-shaped section; a through hole is arranged on the bottom support frame, and irrigation water falls from the saline-alkali soil net cage; a bottom guide channel is vertically arranged on the bottom support frame; a bottom lifting guide rod is arranged in the bottom guide channel, and a bottom limiting step is arranged on the bottom lifting guide rod;

the bottom limiting steps are arranged on the upper side and the lower side of the bottom guide channel;

a bottom upper top step is arranged on the bottom lifting guide rod, and a bottom upper plug is arranged at the upper end of the bottom upper top step; the plug on the bottom is used for lifting in the saline-alkali soil loosening hole to loosen soil in the saline-alkali soil;

the bottom is provided with a top step, and the top is intermittently arranged on the lower surface of the saline-alkali soil net cage;

a process sink groove is formed in the bottom guide channel to accommodate the top step at the bottom; the lower end of the bottom lifting guide rod is provided with a bottom lower top cambered surface;

the bottom lower top cambered surface is used for contacting with the driving piece.

The loosening device comprises a plurality of loosening driving rollers arranged in the bottom supporting frame and a loosening eccentric cam arranged on the loosening driving rollers and is used for pushing the bottom of the loosening driving rollers upwards and pushing the cambered surface downwards;

the loosening driving rollers are in transmission connection through a cleaning linkage belt;

the cleaning device comprises a cleaning linkage belt which is arranged in the bottom support frame and is in synchronous transmission connection with the loosening device; the cleaning linkage belt is connected with a cleaning driving shaft; the cleaning driving shaft is connected with the cleaning conveying belt; cleaning circulating stirring scrapers are distributed on the cleaning conveyor belt and used for outputting and storing irrigation water in a centralized manner.

The output device comprises an output feeding guide plate used for inputting irrigation water fed by stirring the scraper in a cleaning cycle; an output storage heating pool of the ground water level surface is arranged at the output end of the output feeding guide plate;

an output auger is arranged in the output storage heating pool, an output artificial solar/heat collector is arranged above the output storage heating pool, and an evaporation channel is arranged above the output storage heating pool; the output artificial solar/heat collector is used for irradiating the output storage heating pool.

A device for improving saline-alkali soil based on irrigation comprises a water absorption device arranged above a new soil module;

the water absorption device comprises a water absorption frame, a water absorption central shaft vertically arranged on the water absorption frame, a water absorption lower support arranged at the lower part of the water absorption central shaft, a water absorption swing rod with the lower end hinged on the water absorption lower support, a water absorption lower driving arm with the root arranged on the water absorption central shaft, a water absorption sliding sleeve sliding on the water absorption swing rod and hinged on the end part of the water absorption lower driving arm, a water absorption sliding sleeve movable on the water absorption central shaft, a water absorption lower mast arranged between the water absorption sliding sleeve and the upper end part of the water absorption lower swing rod, a water absorption ascending and descending seat in key connection and ascending and descending manner above the water absorption central shaft and connected with the water absorption sliding sleeve through a water absorption connecting frame, a water absorption upper driving arm and a water absorption upper mast with the root respectively hinged on the water absorption upper lifting seat, a water absorption fiber arranged between the water absorption lower mast and the water absorption upper mast, a water absorption upper root hinged on the water absorption upper lifting seat and the lower end, The water absorption upper sliding sleeve is sleeved on the water absorption upper swing rod and is hinged with the end part of the water absorption upper driving arm, and the water absorption lower rotating gear rotates on the water absorption central shaft and is connected with the water absorption lower support.

A method for improving saline-alkali land based on irrigation, which is assisted by a device for improving saline-alkali land based on irrigation, and comprises the following steps;

s1, firstly, measuring the water level line of the saline-alkali soil area to be improved and demarcating the area; then, excavating the region by using an excavator to take out saline-alkali soil, screening the saline-alkali soil, and putting the screened saline-alkali soil into a saline-alkali soil net cage for later use; secondly, subpackaging the fresh soil into a fresh soil net cage for later use; thirdly, raising the bottom surface of the excavation region above the local water level line;

s2, firstly, arranging a saline-alkali treatment device, a loosening device and an output device in an excavation area; then, sequentially arranging a saline-alkali soil module and a new soil module above the saline-alkali treatment device, wherein a new soil male sloping plate, a new soil male L frame, an adjacent new soil female sloping surface and an adjacent new soil female L frame are in staggered lap joint, and a new soil lower insertion cone is inserted into saline-alkali soil of the saline-alkali soil module; secondly, covering a new soil film support on the new soil net cage, opening the film according to the growth position of crops, and closing the new soil opening by a closing clamping sleeve to engage the film opening;

s3, firstly, irrigation water enters a neutral position through a new soil water inlet channel and enters a new soil net cage through a new soil water passing underdrain; then, the irrigation water falls and flows out

S4, firstly, the irrigation water of S2 falls into a saline-alkali soil net box to absorb saline and alkali in the saline-alkali soil to form saline-alkali water; then, saline-alkali water flows out of the saline-alkali soil seepage holes and the saline-alkali soil loosening holes to the bottom support frame;

s5, firstly, driving a loosening eccentric cam by a loosening driving roller, and pushing the bottom of an upper top and pushing a cambered surface downwards; then, in the travel range limited by the bottom limiting step, the bottom lifting guide rod is lifted in the bottom guide channel, the plug on the bottom is lifted in the saline-alkali soil loosening hole to loosen the saline-alkali soil, and the top step on the bottom intermittently pushes the lower surface of the saline-alkali soil net cage to vibrate the saline-alkali soil net cage integrally;

s6, at the same time of S5, firstly, the cleaning linkage belt drives the cleaning conveyor belt to rotate through the cleaning driving shaft; then, cleaning and conveying drive cleaning circulation to stir the scraper plate to rotate, and output and intensively store irrigation water in an output storage heating pool;

s7, firstly, heating the output storage heating pool and/or outputting artificial solar energy/heat collector to irradiate the output storage heating pool, so as to evaporate water in the output storage heating pool, and make the solution become saturated solution and precipitate; then, the output auger outputs the precipitate.

A method for improving saline-alkali soil based on irrigation comprises the following steps that when air humidity is larger than a set threshold value, firstly, a water absorption lower sliding sleeve drives a water absorption mast to swing outwards in a horizontal state through a water absorption lower sliding sleeve and a water absorption lower swing rod, and meanwhile, a water absorption upper lifting seat slides on a water absorption central shaft; then, the water absorption upper driving arm swings through the water absorption upper sliding sleeve and the water absorption upper swing rod to enable the water absorption upper mast to swing outwards in a horizontal state, so that the water absorption fibers are unfolded to absorb water in the air;

when the air humidity is lower than a set threshold value, firstly, the water absorption lower sliding sleeve drives the water absorption mast to swing and gather together through the water absorption lower sliding sleeve and the water absorption lower swing rod, and meanwhile, the water absorption upper lifting seat slides on the water absorption central shaft; then, the water absorption upper driving arm swings and gathers through the water absorption upper sliding sleeve and the water absorption upper swing rod, and the water absorption lower rotating gear drives the water absorption lower mast to rotate, so that a plurality of water absorption fibers are wound on the water absorption connecting frame and squeeze water through winding; the extruded water falls into the new soil water inlet channel.

The invention has the advantages of reasonable design, low cost, firmness, durability, safety, reliability, simple operation, time and labor saving, capital saving, compact structure and convenient use.

Drawings

Fig. 1 is a schematic diagram of the use structure of the invention.

Fig. 2 is a schematic structural view of the new soil module of the present invention.

FIG. 3 is a schematic diagram of the structure of the saline-alkali earth module of the present invention.

FIG. 4 is a schematic structural view of the saline-alkali treatment device of the present invention.

Fig. 5 is a schematic view of the use structure of the loosening device of the present invention.

FIG. 6 is a schematic view of the cleaning apparatus of the present invention.

Wherein: 1. a fresh soil module; 2. a saline alkali soil module; 3. a saline-alkali treatment device; 4. a loosening device; 5. a cleaning device; 6. an output device; 7. a new soil net cage; 8. a new soil outer side inclined plane; 9. inserting a cone under the new soil; 10. hanging ear parts with new soil; 11. a new soil film support; 12. the new soil is opened and the clamping sleeve is closed; 13. carrying out water passage on new soil; 14. a new soil male sloping plate; 15. l-shaped new earthwork corps; 16. l-shaped new soil mother frames; 17. a new soil mother slope; 18. a new soil right angle; 19. a new soil water inlet channel; 20. saline-alkali soil net cages; 21. saline-alkali soil seepage holes; 22. saline-alkali soil loosening holes; 23. a bottom support frame; 24. a bottom guide channel; 25. a bottom lifting guide rod; 26. the bottom is provided with a top step; 27. a plug is arranged at the bottom; 28. a bottom limiting step; 29. a bottom lower top cambered surface; 30. loosening the driving roller; 31. loosening the eccentric cam; 32. cleaning the linkage belt; 33. cleaning the linkage belt; 34. cleaning and circularly stirring the scraper; 35. outputting and feeding the material into a guide plate; 36. outputting a storage heating pool; 37. an output auger; 38. outputting artificial solar/heat collector; 39. an evaporation channel; 40. a water absorbing device; 41. a water-absorbing central shaft; 42. a water-absorbing lower support; 43. an underwater swing rod is sucked; 44. a water-absorbing lower driving arm; 45. an underwater suction sliding sleeve; 46. a water-absorbing lower mast; 47. an underwater suction sliding sleeve; 48. a water absorption connecting frame; 49. an upper water suction lifting seat; 50. a water-absorbing upper swing rod; 51. a water-absorbing upper driving arm; 52. a water-absorbing upper sliding sleeve; 53. a water-absorbing upper mast; 54. a water-absorbing fiber; 55. the gear is rotated under the suction water.

Detailed Description

As shown in FIGS. 1-6, the device for improving saline-alkali soil based on irrigation of the embodiment comprises

A fresh soil module 1 on which crops are planted; the modular arrangement is adopted, and irrigation is carried out through a water channel;

the saline-alkali soil module 2 is positioned below the new soil module 1 and is stored in a modularized mode, and irrigation water descends to irrigate saline-alkali soil after passing through the new soil module 1;

the saline-alkali soil treatment device 3 is positioned below the saline-alkali soil module 2 and is used for receiving the irrigation water passing through the saline-alkali soil module 2; the saline-alkali soil treatment device 3 lifts the saline-alkali soil module 2 to expose the saline-alkali soil module on the water level surface of the site;

the loosening device 4 is positioned on the saline-alkali soil treatment device 3 and is used for loosening the saline-alkali soil module 2;

the cleaning device 5 is used for conveying irrigation water stored in the saline-alkali treatment device 3;

and the output device 6 is used for storing the irrigation water flowing out of the saline-alkali treatment device 3.

The new soil module 1 comprises a plurality of new soil net cages 7 in which new soil for planting crops is prefabricated;

a new soil outer side inclined plane 8 is arranged at the bottom of the outer side wall of the new soil net cage 7, a new soil lower insertion cone 9 is arranged at the bottom of the new soil net cage 7, a new soil hanging lug part 10 is arranged on the new soil net cage 7, and a new soil film bracket 11 with a film covering the new soil is arranged on the new soil net cage 7;

the film on the new soil film bracket 11 is provided with an opening for exposing growing crops, and the edge of the opening is provided with a new soil opening involutory clamping sleeve 12;

a new soil water passage underdrain 13 is arranged around the new soil net cage 7, new soil swash plates 14 are arranged at the edges of two sides of the new soil net cage 7, and a new soil male L frame 15 is connected to the new soil swash plates 14;

the new soil mother L-shaped frame 16 is arranged on the edges of the other two sides of the new soil net cage 7, and a new soil mother inclined plane 17 is connected to the new soil mother L-shaped frame 16;

a dead space is arranged at a dead space right angle 18 of the fresh soil net cage 7, and a fresh soil water inlet channel 19 is arranged at the dead space; irrigation water enters the neutral position through the new soil water inlet channel 19;

the neutral position, the new soil male sloping plate 14 and the new soil female L frame 16 are arranged above the new soil water underdrain 13;

the irrigation water in the new soil water underdrain 13 enters the new soil net cage 7.

The saline-alkali soil module 2 comprises a saline-alkali soil net cage 20 for storing saline-alkali soil to be improved; saline-alkali soil seepage holes 21 and saline-alkali soil loosening holes 22 are distributed on the saline-alkali soil net cage 20;

the saline-alkali soil net cage 20 receives irrigation water flowing out of the new soil water underdrain 13 and/or the new soil net cage 7;

saline-alkali soil seepage holes 21 for irrigation water falling through the saline-alkali soil net cage 20;

saline-alkali soil loosening holes 22 are used for the irrigation water of the falling saline-alkali soil net cage 20 and used for inserting the ejector rods to loosen the soil of the saline-alkali soil.

The saline-alkali treatment device 3 comprises a bottom support frame 23 with an n-shaped or square-shaped section; a through hole is arranged on the bottom support frame 23, and irrigation water falls from the saline-alkali soil net cage 20; a bottom guide channel 24 is vertically arranged on the bottom support frame 23; a bottom lifting guide rod 25 is arranged in the bottom guide channel 24, and a bottom limiting step 28 is arranged on the bottom lifting guide rod 25;

the bottom limiting steps 28 are arranged on the upper side and the lower side of the bottom guide channel 24;

a bottom upper top step 26 is arranged on the bottom lifting guide rod 25, and a bottom upper plug 27 is arranged at the upper end of the bottom upper top step 26; the upper plug 27 at the bottom is used for lifting in the saline-alkali soil loosening hole 22 to loosen soil in the saline-alkali soil;

a bottom upper top step 26 intermittently arranged on the lower surface of the saline-alkali soil net cage 20;

a process sink is provided in the bottom guide channel 24 to accommodate the bottom upper top step 26; the lower end of the bottom lifting guide rod 25 is provided with a bottom lower top cambered surface 29;

the bottom lower top cambered surface 29 is used for contacting with the driving piece.

The loosening device 4 comprises a plurality of loosening driving rollers 30 arranged in the bottom supporting frame 23 and a loosening eccentric cam 31 arranged on the loosening driving rollers 30 and used for pushing up the bottom part and pushing down the arc surface 29;

the loosening driving rollers 30 are in transmission connection through a cleaning linkage belt 32;

the cleaning device 5 comprises a cleaning linkage belt 33 which is arranged in the bottom support frame 23 and is in synchronous transmission connection with the loosening device 4; the cleaning linkage belt 33 is connected with a cleaning driving shaft; the cleaning driving shaft is connected with the cleaning conveying belt; cleaning circulation stirring scrapers 34 are distributed on the cleaning conveyor belt and used for outputting and intensively storing irrigation water.

The output device 6 comprises an output feeding guide plate 35 for inputting irrigation water fed by the cleaning circulation stirring scraper 34; an output storage heating pool 36 of the ground water level surface is arranged at the output end of the output feeding guide plate 35;

an output auger 37 is arranged in the output storage heating pool 36, an output artificial solar/heat collector 38 is arranged above the output storage heating pool 36, and an evaporation channel 39 is arranged above the output storage heating pool 36; an output artificial solar/thermal collector 38 is used to illuminate the output storage heating reservoir 36.

The device for improving the saline-alkali soil based on irrigation comprises a water absorption device 40 arranged above a new soil module 1;

the water absorption device 40 comprises a water absorption frame, a water absorption central shaft 41 vertically arranged on the water absorption frame, a water absorption lower support 42 arranged at the lower part of the water absorption central shaft 41, a water absorption swing rod 43 with the lower end hinged on the water absorption lower support 42, a water absorption lower driving arm 44 with the root part arranged on the water absorption central shaft 41, a water absorption sliding sleeve 45 sliding on the water absorption swing rod 43 and hinged on the end part of the water absorption lower driving arm 44, a water absorption sliding sleeve 47 moving on the water absorption central shaft 41, a water absorption lower mast 46 arranged between the water absorption lower sliding sleeve 47 and the upper end part of the water absorption lower swing rod 43, a water absorption ascending and descending seat 49 in key connection and ascending and descending above the water absorption central shaft 41 and connected with the water absorption sliding sleeve 47 through a water absorption connecting frame 48, a water absorption upper driving arm 51 and a water absorption upper mast 53 with the root part respectively hinged on the water absorption ascending and descending seat 49, and descending fibers 54 arranged between the water, The upper root part is hinged on the water absorption lifting seat 49, the lower end part is arranged on a water absorption upper swing rod 50 of the water absorption upper mast 53, a water absorption upper sliding sleeve 52 which is sleeved on the water absorption upper swing rod 50 and is hinged with the end part of the water absorption upper driving arm 51, and a water absorption lower rotating gear 55 which rotates on the water absorption central shaft 41 and is connected with the water absorption lower support 42.

The saline-alkali land improving method based on irrigation of the embodiment is assisted by an apparatus for improving saline-alkali land based on irrigation, and comprises the following steps;

s1, firstly, measuring the water level line of the saline-alkali soil area to be improved and demarcating the area; then, excavating the region by using an excavator to take out saline-alkali soil, screening the saline-alkali soil, and putting the screened saline-alkali soil into the saline-alkali soil net cage 20 for later use; secondly, the fresh soil is subpackaged into a fresh soil net cage 7 for standby; thirdly, raising the bottom surface of the excavation region above the local water level line;

s2, firstly, arranging a saline-alkali treatment device 3, a loosening device 4 and an output device 6 in an excavation area; then, sequentially arranging a saline-alkali soil module 2 and a new soil module 1 above the saline-alkali soil treatment device 3, wherein a new soil male sloping plate 14, a new soil male L-shaped frame 15, an adjacent new soil female sloping surface 17 and an adjacent new soil female L-shaped frame 16 are in staggered lap joint, and a new soil lower insertion cone 9 is inserted into saline-alkali soil of the saline-alkali soil module 2; secondly, covering a new soil film bracket 11 on the new soil net cage 7, opening the film according to the growth position of the crops, and closing the new soil opening closing sleeve 12 to close the film opening;

s3, firstly, irrigation water enters the neutral position through the new soil water inlet channel 19 and enters the new soil net cage 7 through the new soil water passing underdrain 13; then, the irrigation water falls and flows out

S4, firstly, the irrigation water of S2 falls into the saline-alkali soil net cage 20 to absorb saline and alkali in the saline-alkali soil to form saline-alkali water; then, the saline-alkali water flows out of the saline-alkali soil seepage holes 21 and the saline-alkali soil loosening holes 22 to the bottom support frame 23;

s5, firstly, the loosening driving roller 30 drives the loosening eccentric cam 31 to push the bottom of the upper top to push the cambered surface 29 downwards; then, in the travel range limited by the bottom limiting step 28, the bottom lifting guide rod 25 is lifted in the bottom guide channel 24, the plug 27 on the bottom is lifted in the saline-alkali soil loosening hole 22 to loosen the saline-alkali soil, and the bottom upper top step 26 intermittently pushes the lower surface of the saline-alkali soil net cage 20 to vibrate the saline-alkali soil net cage 20 integrally;

s6, at the same time of S5, firstly, the cleaning linkage belt 33 drives the cleaning conveyor belt to rotate through the cleaning driving shaft; then, cleaning transmission drives a cleaning circulation stirring scraper 34 to rotate, and irrigation water is output and concentrated to be stored in an output storage heating pool 36;

s7, firstly, heating the output storage heating pool 36 and/or irradiating the output storage heating pool 36 by the output artificial solar/heat collector 38 to evaporate the moisture in the output storage heating pool 36 so that the solution becomes saturated solution and precipitates; then, the output auger 37 outputs the precipitate.

In the method for improving saline-alkali soil based on irrigation of the embodiment, when the air humidity is greater than the set threshold, firstly, the underwater suction sliding sleeve 47 drives the underwater suction mast 46 to swing out horizontally through the underwater suction sliding sleeve 45 and the underwater suction swinging rod 43, and meanwhile, the water suction lifting seat 49 slides on the water suction central shaft 41; then, the water absorption upper driving arm 51 swings through the water absorption upper sliding sleeve 52 and the water absorption upper swing rod 50, so that the water absorption upper mast 53 swings out in a horizontal state, and the water absorption fiber 54 is unfolded to absorb water in the air;

when the air humidity is lower than the set threshold, firstly, the water absorption lower mast 46 is driven by the water absorption lower sliding sleeve 47 through the water absorption lower sliding sleeve 45 and the water absorption lower swing rod 43 to swing and gather together, and meanwhile, the water absorption upper lifting seat 49 slides on the water absorption central shaft 41; then, the water absorption upper driving arm 51 swings and gathers through the water absorption upper sliding sleeve 52 and the water absorption upper swing rod 50, and the water absorption lower rotating gear 55 drives the water absorption lower mast 46 to rotate, so that a plurality of water absorption fibers 54 are wound on the water absorption connecting frame 48, and water is squeezed through winding; the squeeze water falls down into the fresh soil intake passage 19.

The invention is particularly suitable for areas with high humidity, such as basins, seasides and rivers, for example, areas such as Peru in south America. The new soil module 1 realizes planting improvement, the saline-alkali soil module 2 realizes washing through irrigation water, the whole is divided into parts through the module so as to be rapidly replaced, an acid-alkali detector, a moisture detector and the like are arranged in the module, the saline-alkali soil is too high by the saline-alkali treatment device 3, the loosening device 4 realizes loosening soil and rapidly releasing moisture, the cleaning device 5 concentrates saline-alkali soil, the output device 6 realizes crystal precipitation output, the outer inclined plane 8 of the new soil generates neutral space so as to store water, of course, a ox horn belt can be adopted for replacing the belt, the new soil is rapidly fixed by the inserting cone 9 under the new soil, the hanging part 10 of the new soil is conveniently hung, the thin film bracket 11 of the new soil realizes support and avoids damage, the opening of the new soil is closed to the clamping sleeve 12 to avoid opening tearing, the replacement can be reminded according to a circuit, the water channel 13 of the new soil avoids moisture evaporation, the new soil common inclined, the L-shaped frame 16 of the new soil mother, the slope 17 of the new soil mother avoids the gap between sundries, stones and soil, and the disassembly and the assembly are inconvenient, the right angle 18 of the new soil is utilized to realize the water passing of a new soil water inlet channel 19, the saline-alkali soil net cage 20 is modularly stored, saline-alkali soil seepage holes 21 flow out step by step, the bottom lifting guide rod 25 realizes the guide, the top step 26 on the bottom does not contact with meshes at the descending end point, the plug 27 on the bottom adopts the arc manufacturability good, the bottom top cambered surface 29 is convenient to guide, the loosening driving roller 30 realizes the drive, the lifting drive is realized through the loosening eccentric cam 31, the cleaning linkage belt 32 realizes the transmission, the cleaning linkage belt 33 realizes the synchronization, the cleaning circulation stirs the scraper 34 to quickly concentrate the water, the output is sent into the guide plate 35 to shield sundries, the output storage heating pool 36 realizes the heating drying, the output auger 37 realizes the, the evaporation channel 39 increases the evaporation area, and when raining, the water absorption device 40 realizes the opening of the fibers to absorb water through connection and then gathers and squeezes water for irrigation by passing through a cover plate or an automatic upper cover.

The present invention has been described in sufficient detail for clarity of disclosure and is not exhaustive of the prior art.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; it is obvious as a person skilled in the art to combine several aspects of the invention. And such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (7)

1. The utility model provides a device based on irrigate improvement saline and alkaline land which characterized in that: comprises that

A fresh soil module (1) on which crops are planted; the modular arrangement is adopted, and irrigation is carried out through a water channel;

the saline-alkali soil module (2) is positioned below the new soil module (1) and is stored in a modularized mode, and irrigation water descends after passing through the new soil module (1) to irrigate saline-alkali soil;

the saline-alkali soil treatment device (3) is positioned below the saline-alkali soil module (2) and is used for receiving irrigation water passing through the saline-alkali soil module (2); the saline-alkali soil treatment device (3) lifts the saline-alkali soil module (2) to expose on the water level surface of the site;

the loosening device (4) is positioned on the saline-alkali soil treatment device (3) and is used for loosening the saline-alkali soil module (2);

the cleaning device (5) is used for conveying irrigation water stored in the saline-alkali treatment device (3);

and the output device (6) is used for storing irrigation water flowing out of the saline alkali treatment device (3).

2. The apparatus for improving saline and alkaline land based on irrigation as claimed in claim 1, wherein: the new soil module (1) comprises a plurality of new soil net cages (7) which are prefabricated and stored with new soil for planting crops;

a new soil outer side inclined plane (8) is arranged at the bottom of the outer side wall of the new soil net cage (7), a new soil lower insertion cone (9) is arranged at the bottom of the new soil net cage (7), a new soil hanging lug part (10) is arranged on the new soil net cage (7), and a new soil film support (11) with a film covering the new soil is arranged on the new soil net cage (7);

the film on the new soil film bracket (11) is provided with an opening for exposing growing crops, and the edge of the opening is provided with a new soil opening involutory clamping sleeve (12) which is involutory;

a new soil water passage underdrain (13) is arranged around the new soil net cage (7), new soil common inclined plates (14) are arranged at the edges of two sides of the new soil net cage (7), and a new soil common L-shaped frame (15) is connected to the new soil common inclined plates (14);

the edges of the other two sides of the new soil net cage (7) are provided with new soil mother L frames (16), and new soil mother inclined planes (17) are connected to the new soil mother L frames (16);

a dead space is arranged at a fresh soil right angle (18) of the fresh soil net cage (7), and a fresh soil water inlet channel (19) is arranged at the dead space; irrigation water enters a neutral position through a new soil water inlet channel (19);

the neutral position, the new soil male sloping plate (14) and the new soil female L frame (16) are arranged above the new soil water covered channel (13);

the irrigation water in the new soil water underdrain (13) enters the new soil net cage (7).

3. The apparatus for improving saline and alkaline land based on irrigation as claimed in claim 1, wherein: the saline-alkali soil module (2) comprises a saline-alkali soil net cage (20) for storing saline-alkali soil to be improved; saline-alkali soil seepage holes (21) and saline-alkali soil loosening holes (22) are distributed on the saline-alkali soil net cage (20);

the saline-alkali soil net box (20) receives irrigation water flowing out of the new soil water underdrain (13) and/or the new soil net box (7);

saline-alkali soil seepage holes (21) for irrigation water falling through the saline-alkali soil net cage (20);

saline-alkali soil loosening holes (22) for the irrigation water of the falling saline-alkali soil net box (20) and for inserting the ejector rods to loosen the soil of the saline-alkali soil.

4. The apparatus for improving saline and alkaline land based on irrigation as claimed in claim 1, wherein: the saline-alkali treatment device (3) comprises a bottom support frame (23) with an n-shaped or square-shaped section; a through hole is arranged on the bottom support frame (23) and used for irrigating water falling from the saline-alkali soil net cage (20); a bottom guide channel (24) is vertically arranged on the bottom support frame (23); a bottom lifting guide rod (25) is arranged in the bottom guide channel (24), and a bottom limiting step (28) is arranged on the bottom lifting guide rod (25);

the bottom limiting steps (28) are arranged on the upper side and the lower side of the bottom guide channel (24);

a bottom upper top step (26) is arranged on the bottom lifting guide rod (25), and a bottom upper plug (27) is arranged at the upper end of the bottom upper top step (26); the upper plug (27) at the bottom is used for lifting in the saline-alkali soil loosening hole (22) to loosen the saline-alkali soil;

the bottom is provided with an upper step (26), and the upper part intermittently pushes the lower surface of the saline-alkali soil net box (20);

a process sink groove is arranged on the bottom guide channel (24) to accommodate the bottom upper top step (26); the lower end of the bottom lifting guide rod (25) is provided with a bottom lower top cambered surface (29);

the bottom lower top cambered surface (29) is used for contacting with the driving piece.

5. The apparatus for improving saline and alkaline land based on irrigation as claimed in claim 1, wherein: the loosening device (4) comprises a plurality of loosening driving rollers (30) arranged in the bottom supporting frame (23) and a loosening eccentric cam (31) arranged on the loosening driving rollers (30) and used for pushing the bottom of the loosening driving rollers upwards and pushing the cambered surface (29) downwards;

the loosening driving rollers (30) are in transmission connection through a cleaning linkage belt (32);

the cleaning device (5) comprises a cleaning linkage belt (33) which is arranged in the bottom support frame (23) and is synchronously connected with the loosening device (4) in a transmission way; the cleaning linkage belt (33) is connected with a cleaning driving shaft; the cleaning driving shaft is connected with the cleaning conveying belt; cleaning circulating stirring scrapers (34) are distributed on the cleaning conveyor belt and used for outputting and storing irrigation water in a centralized manner.

6. The apparatus for improving saline and alkaline land based on irrigation as claimed in claim 1, wherein: the output device (6) comprises an output feeding guide plate (35) for inputting irrigation water fed by the cleaning circulating stirring scraper (34); an output storage heating pool (36) of the ground water level surface is arranged at the output end of the output feeding guide plate (35);

an output auger (37) is arranged in the output storage heating pool (36), an output artificial solar/heat collector (38) is arranged above the output storage heating pool (36), and an evaporation channel (39) is arranged above the output storage heating pool (36); an output artificial solar/thermal collector (38) is used to illuminate the output storage heating pool (36).

7. The utility model provides a device based on irrigate improvement saline and alkaline land which characterized in that: comprises a water absorption device (40) arranged above the fresh soil module (1);

the water absorption device (40) comprises a water absorption frame, a water absorption central shaft (41) vertically arranged on the water absorption frame, a water absorption lower support (42) arranged at the lower part of the water absorption central shaft (41), a water absorption lower swing rod (43) with the lower end hinged on the water absorption lower support (42), a water absorption lower driving arm (44) with the root arranged on the water absorption central shaft (41), a water absorption lower sliding sleeve (45) sliding on the water absorption lower swing rod (43) and hinged on the end part of the water absorption lower driving arm (44), a water absorption lower sliding sleeve (47) moving on the water absorption central shaft (41), a water absorption upper lifting seat (49) movably arranged between the water absorption lower sliding sleeve (47) and the upper end part of the water absorption lower swing rod (43), a water absorption upper driving arm (51) and a water absorption upper mast (53) with the root respectively hinged on the water absorption upper lifting seat (49) and connected above the water absorption central shaft (41) through a water absorption connecting frame (48), The water absorption device comprises a water absorption fiber (54) arranged between a water absorption lower mast (46) and a water absorption upper mast (53), a water absorption upper swing rod (50) with the upper root part hinged on a water absorption upper lifting seat (49) and the lower end part arranged on the water absorption upper mast (53), a water absorption upper sliding sleeve (52) sleeved on the water absorption upper swing rod (50) and hinged with the end part of a water absorption upper driving arm (51), and a water absorption lower rotating gear (55) which rotates on a water absorption central shaft (41) and is connected with a water absorption lower support (42).

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