CN213448669U - Rainwater collection and purification system for agricultural irrigation - Google Patents

Abstract

The utility model discloses a clean system is collected to rainwater for agricultural irrigation relates to agricultural technical field. The utility model discloses a collecting plate, collect and take the roof beam, the sump bucket, purification barrel and water catch bowl, the bottom of collecting plate one side is fixed with the pivot, one side overlap joint that the collecting plate kept away from to be fixed with the pivot is collected and is taken the roof beam on, the both sides of collecting and taking the roof beam all are equipped with the collecting plate through the fixture block cover, the bottom that the collecting plate is fixed with pivot one side all is provided with the sump bucket, the inboard one end of sump bucket is all fixed with the restriction piece symmetrically, the one end that the sump bucket is fixed with the restriction piece all is fixed with L shape collecting pipe through the header box, the other end of L shape collecting pipe is all pegged graft inside the purification barrel, the week side of purification barrel has all pegged graft there. The utility model discloses a set up the collecting board, collect and take roof beam, sump bucket, purification bucket and sump tank, solved that the rainwater collection system for agricultural irrigation does not have the problem of purification in big, the inefficiency of loss and the collection of in-process.

Description

Rainwater collection and purification system for agricultural irrigation

Technical Field

The utility model belongs to the technical field of the agricultural, especially, relate to a clean system is collected to rainwater for agricultural irrigation.

Background

Rainwater for agricultural irrigation is collected in the world and collected naturally in hundreds of years by digging ponds and reservoirs according to terrains and the like, rainwater collected in seasons needing irrigation with less rainwater is extracted for irrigation water required for crop production in dry seasons, and then rainwater collection systems for other purposes are created in technical development.

However, the existing rainwater collection system for agricultural irrigation has the following disadvantages:

1. most of existing rainwater collection systems for agricultural irrigation collect rainwater through ponds, reservoirs and the like for gathering, excavating and storing water of terrains, loss is large in the collection process, efficiency is low, and the method is high in land and energy cost caused by agricultural irrigation of gentle slope zones with high terrains.

2. The existing rainwater collection system for agricultural irrigation does not independently purify rainwater when collecting rainwater, is placed in the open, and is not suitable for irrigation of certain crops due to eutrophication of water bodies, increase of microorganisms in water, decrease of oxygen content of water bodies and mass propagation of bacteria under a series of effects of leakage, enrichment and the like.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a clean system is collected to rainwater for agricultural irrigation through setting up the collecting board, collecting and taking roof beam, sump drum, purifying barrel and sump, has solved current rainwater collection system for agricultural irrigation and has collected the problem that the loss is big in the in-process, inefficiency and collection do not purify.

In order to solve the technical problem, the utility model discloses a realize through following technical scheme:

the utility model relates to a rainwater collecting and purifying system for agricultural irrigation, which comprises a collecting plate, a collecting and lapping beam, a water collecting barrel, a purifying barrel and a water collecting tank, wherein the bottom of one side of the collecting plate is fixed with a rotating shaft, one side of the collecting plate, which is far away from the rotating shaft, is lapped on the collecting and lapping beam, both sides of the collecting and lapping beam are sleeved with the collecting plate through a clamping block, the collecting and lapping plates at both sides of the collecting and lapping beam are sleeved and fixed on the ground through the rotating shaft and a sleeve column below the sleeve, the bottom of one side of the collecting plate, which is fixed with the rotating shaft, is provided with the water collecting tank, one end of the inner side of the water collecting tank is symmetrically fixed with a limiting block, one end of the limiting block fixed on the water collecting tank is fixed with an L-shaped collecting pipe through a water collecting box, the other end of the L-shaped collecting pipe is inserted inside the, the rainwater is transported to the purification barrel through the water collecting tank for purification and is transported to the water collecting barrel for collection.

Further, five collecting holes are evenly seted up in one side that the collecting plate is fixed with the pivot, the collecting plate is kept away from one side that is fixed with the pivot and is link up and seted up the card hole, the sleeve has all been cup jointed at the both ends of pivot, telescopic below all is fixed with the cover post, and the collecting plate is fixed on the cover post through the sleeve that the pivot cup jointed.

Further, collect and take the roof beam and be triangular prism shape structure, and collect the cross section of taking the roof beam and be isosceles triangle, collect the both sides of taking the roof beam and the position correspondence of seting up the card hole on the collecting plate and be fixed with the fixture block, collect and take the bottom at roof beam both ends and all be fixed with and take the roof beam pillar, collect and take the roof beam and keep away from one side of pivot with the collecting plate of both sides fixed.

Furthermore, a water collecting fixing column is fixed to the bottom of the water collecting tank close to one end where the limiting block is fixed and one end of the water collecting tank far away from the limiting block, a water collecting box is fixed to the top of the water collecting fixing column close to the front side face of one end where the limiting block is fixed, a water collecting hole is formed in the bottom of the inner side of the water collecting box in a penetrating mode, an L-shaped collecting pipe is fixed to the water collecting box below the water collecting hole, and water collected by the water collecting tank is conveyed into the purification barrel through the L-shaped collecting pipe.

Further, L shape collecting pipe on the water catch bowl is pegged graft fixedly with the water inlet that the purifying barrel seted up through the purifying barrel top, the top of purifying barrel is fixed with sealed lid through the overlap joint of taking the ear and taking the ring, the bottom cover of purifying barrel inboard is equipped with gathers the layer, the purifying barrel is equipped with the outlet pipe through the delivery port cover of seting up in the bottom, gather the layer and be close to the purifying barrel inside of outlet pipe one side and seted up and gather the chamber, gather the inside cover of purifying barrel of layer top and be equipped with in the marble and layer, the inside cover of purifying barrel of layer top is equipped with the microorganism pellicle in the marble, inside each clean water layer of purifying barrel purifies the rainwater layer upon layer and collects in the water catch bowl.

Further, two one end that the purification bucket was kept away from to the outlet pipe is all established to overlap and is fixed inside the water catch bowl, the place ahead cover of water catch bowl all sides is equipped with the aqueduct, the top of water catch bowl is provided with the bung, and the rainwater that the water catch bowl will purify is collected for use.

The utility model discloses following beneficial effect has:

1. the utility model discloses a set up the collecting board, collect and take roof beam, sump bucket, solved current rainwater collection system for agricultural irrigation problem big, the inefficiency of loss in the collection process, the rainwater of collecting the collecting board collection of taking the roof beam both sides all can get into the sump bucket at last for irrigate, collection efficiency is high, and because the distance of process is less, there is almost no loss, still can pass through the rotatory collecting plate of pivot on the collecting plate in fine day, expose ground, do not influence the illumination on ground.

2. The utility model discloses a set up the purification bucket, solved current rainwater collection system for agricultural irrigation bucket and collected the problem that does not purify, through filtering large granule and microorganism at the rainwater that purification bucket upper portion was collected through L shape collecting pipe, the neutralization of the acid material wherein of the big reason stone layer of rethread, at last in collecting the water-collecting bucket, at the in-process of collecting with regard to greatly reduced microorganism wherein, prevent that the water is rotten.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an assembly structure of the present invention;

FIG. 2 is a perspective view of the collecting device of the present invention;

FIG. 3 is a perspective view of the purification barrel of the present invention;

FIG. 4 is a perspective view of the collecting beam of the present invention;

FIG. 5 is a perspective view of the water collection tank of the present invention;

fig. 6 is a perspective view of the collecting plate of the utility model:

FIG. 7 is a perspective view of the sleeve column of the present invention;

in the drawings, the components represented by the respective reference numerals are listed below:

100. a collection plate; 101. a collection well; 102. a rotating shaft; 103. a clamping hole; 200. collecting the lapping beams; 201. a clamping block; 202. a beam-erecting strut; 300. a water collection barrel; 301. a barrel cover; 302. a water conduit; 400. a purifying barrel; 401. a sealing cover; 402. ear building; 403. looping; 404. an asbestos filter screen; 405. a microbial semipermeable membrane; 406. a marble neutralizing layer; 407. a collection layer; 408. a collection chamber; 409. a water outlet; 410. a water inlet; 500. a water outlet pipe; 600. a water collection tank; 601. a limiting block; 602. an L-shaped collecting pipe; 603. a water collecting and fixing column; 604. a water collection box; 605. a water collection hole; 700. sleeving a column; 701. a sleeve.

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. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention relates to a rainwater collecting and purifying system for agricultural irrigation, which comprises a collecting plate 100, a collecting beam 200, a water collecting tank 300, a purifying tank 400 and a water collecting tank 600, wherein a rotating shaft 102 is fixed at the bottom of one side of the collecting plate 100, the rotating shaft 102 is sleeved with a sleeve 701 fixed above a sleeve column 700, the collecting plate 100 is connected with the sleeve 701 through the rotating shaft 102, the sleeve 701 is sleeved and connected with the ground, one side of the collecting plate 100 away from the rotating shaft 102 is overlapped on the collecting beam 200, the collecting beam 200 overlaps one side of the collecting plate 100 away from the rotating shaft 102, so that the collecting plate 100 has a water collecting function, the collecting plate 100 is sleeved at both sides of the collecting beam 200 through a fixture block 201, so that both sides of the collecting beam 200 have a rainwater collecting function, the water collecting tank 600 is arranged at the bottom of one side of the collecting plate 100 where the rotating shaft 102 is fixed, the water collecting tank 600 guides, the limiting blocks 601 are symmetrically fixed to one ends of the inner sides of the water collecting grooves 600, the limiting blocks 601 limit the outflow width of rainwater flowing out of the water collecting grooves 600 when rainwater is collected, the L-shaped collecting pipes 602 are fixed to one ends, where the limiting blocks 601 are fixed to the water collecting grooves 600, of the water collecting grooves 600 through the water collecting boxes 604, the other ends of the L-shaped collecting pipes 602 are all plugged inside the purification barrel 400, the L-shaped collecting pipes 602 transport water led out of the water collecting grooves 600 to the inside of the purification barrel 400 for purification, water outlet pipes 500 are all plugged to the peripheral sides of the purification barrel 400, the other ends of the water outlet pipes 500 are all plugged inside the water collecting barrel 300, and the purified water is led out of the purification barrel 400 into the water collecting.

Wherein as shown in fig. 1, 6, 7, five collecting holes 101 have been evenly seted up to one side that collecting plate 100 is fixed with pivot 102, collecting hole 101 leads the rainwater of collecting on collecting plate 100 to the water catch bowl 600, collecting plate 100 keeps away from one side that is fixed with pivot 102 and link up and has seted up card hole 103, card hole 103 with collecting plate 100 keep away from one side overlap joint that is fixed with pivot 102 on collecting bridging 200, sleeve 701 has all been cup jointed at the both ends of pivot 102, the diameter of pivot 102 equals with the diameter of sleeve 701 inner chamber, sleeve 701's below all is fixed with set post 700, set post 700 cup joints whole collecting plate 100 and the structure of its top and fixes in the ground top.

Wherein as shown in fig. 1, 2, 4, collect and take roof beam 200 to be triangular prism shape structure, and collect the cross section of taking roof beam 200 and be isosceles triangle, collect the both sides of taking roof beam 200 and collect the position correspondence that has seted up card hole 103 on the board 100 and be fixed with fixture block 201, fixture block 201 when with collect board 100 overlap joint, with the setting of pegging graft of card hole 103 on the board 100, with collect board 100 overlap joint on collecting and taking roof beam 200, the bottom of collecting and taking roof beam 200 both ends all is fixed with and takes roof beam pillar 202, it is higher than the height of cover post 700 that the height on the ground of roof beam pillar 202, make the rainwater assemble the one side that is fixed with pivot 102 on collect board 100.

As shown in fig. 1, 2 and 5, a water collecting fixing column 603 is fixed at the bottom of one end of the water collecting tank 600 close to the fixed limiting block 601 and at one end of the water collecting tank far from the fixed limiting block 601, a water collecting box 604 is fixed at the top of the front side surface of the water collecting fixing column 603 close to one end of the fixed limiting block 601, the water collecting box 604 receives rainwater collected in the water collecting tank 600, a water collecting hole 605 is formed at the bottom of the inner side of the water collecting box 604 in a penetrating manner, an L-shaped collecting pipe 602 is fixed on the water collecting box 604 below the water collecting hole 605, and the rainwater received in the water collecting box 604 is guided into the L-shaped collecting pipe 602 by.

As shown in fig. 1 and 3, an L-shaped collecting pipe 602 on a water collecting tank 600 is inserted and fixed with a purifying barrel 400 through a water inlet 410 formed at the top of the purifying barrel 400, the L-shaped collecting pipe 602 guides rainwater in the water collecting tank 600 into the purifying barrel 400 for purification, a sealing cover 401 is fixed at the top of the purifying barrel 400 through the lap joint of a lug 402 and a lap ring 403, the sealing cover 401 seals the water in the purifying barrel 400 to prevent the water in the purifying barrel 400 from overflowing, a collecting layer 407 is sleeved at the bottom of the inner side of the purifying barrel 400, a water outlet pipe 500 is sleeved on the purifying barrel 400 through a water outlet 409 formed at the bottom of the purifying barrel 400, a collecting cavity 408 is formed inside the purifying barrel 400 at one side of the collecting layer 407 close to the water outlet pipe 500, a marble neutralizing layer 406 is sleeved inside the purifying barrel 400 above the collecting layer 407, a microorganism semipermeable membrane 405 is sleeved inside the purifying barrel 400 above the marble neutralizing layer 406, and an asbestos filter, the asbestos filter screen 404 filters large particles in the collected rainwater, then the microorganism is filtered by the microorganism semipermeable membrane 405, the acidic substances in the rainwater are neutralized by the marble neutralizing layer 406, and finally the acidic substances are collected by the collecting layer 407 and seep into the collecting cavity 408 formed in the collecting layer 407, and the acidic substances are guided into the water collecting barrel 300 by the water outlet pipe 500 sleeved in the collecting cavity 408 on the purifying barrel 400.

As shown in fig. 1, one end of each of the two water outlet pipes 500 far from the purification barrel 400 is sleeved and fixed inside the water collection barrel 300, the water purified by the purification barrel 400 is guided into the water collection barrel 300 by the water outlet pipes 500, a water guide pipe 302 is sleeved in front of the peripheral side surface of the water collection barrel 300, the water guide pipe 302 is connected with an irrigation system, water in the water collection barrel 300 is used for irrigation, a barrel cover 301 is arranged at the top of the water collection barrel 300, and the barrel cover 301 prevents water in the water collection barrel 300 from being polluted by dust and the like.

The utility model discloses a theory of operation does: the two end faces of the collecting bridge 200 are isosceles triangles, the two sides above the collecting bridge 200 are both fixed with the fixture blocks 201, the collecting bridge 200 is fixed on the ground through the bridge supports 202 fixed below the two ends, the two sides above the collecting bridge are both clamped with the fixture holes 103 on the collecting plate 100 through the fixture blocks 201, one side of the collecting plate 100 is lapped above the collecting bridge, one side of the collecting plate 100 far away from the collecting bridge 200 is both fixed with the rotating shaft 102, the rotating shaft 102 is supported on the ground through the sleeve 701 sleeved at the top of the sleeve column 700 fixed on the ground, when rainwater needs to be collected, the collecting plate 100 is rotated through the rotating shaft 102 to enable the collecting plate 100 to be lapped on the collecting bridge 200, the rotating shaft 102 is rotated after the rainwater stops, the collecting plate 100 is rotated away from the collecting bridge 200 to reduce the space occupied by the collecting plate 100, one side of the collecting plate 100 close to the rotating shaft 102 is provided with the collecting hole 101, the water collecting groove 600 fixed through the water collecting fixing column 603 is, the collecting plate 100 is conveyed into the water collecting box 604 through the water collecting groove 600 by the rainwater which is inclined and collected above the collecting hole 101, the collected rainwater is guided into the purifying barrel 400 which is communicated and fixed at the other side of the L-shaped collecting pipe 602 through the water collecting hole 605 and the L-shaped collecting pipe 602 below the water collecting box 604, the large particles in the rainwater are filtered by the asbestos filtering net 404 in the purifying barrel 400, then the microorganism semi-permeable membrane 405 separates the microorganism to prevent the collected rainwater from deteriorating due to long-term storage, then the marble neutralization layer 406 purifies the acidic substances in the rainwater through reaction, and finally the acidic substances are collected in the collection cavity 408 through the collection layer 407, and is transported into the water collecting barrel 300 through the water outlet pipe 500 sleeved at the water outlet 409, the top of the water collecting barrel 300 is provided with a barrel cover 301 to prevent dust leakage of the water collecting barrel 300, and the water guiding pipe 302 which is fixedly arranged below the water collecting barrel 300 conveys water in the water collecting barrel 300 to an irrigation system.

In the description herein, references to the description of "one embodiment," "an example," "a specific example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (6)

1. The utility model provides a clean system is collected to rainwater for agricultural irrigation, includes collecting plate (100), collects and takes roof beam (200), water catch bowl (300), purification bucket (400) and water catch bowl (600), its characterized in that: a rotating shaft (102) is fixed at the bottom of one side of the collecting plate (100), one side of the collecting plate (100) far away from the side fixed with the rotating shaft (102) is lapped on a collecting lap beam (200), the two sides of the collecting beam (200) are sleeved with collecting plates (100) through clamping blocks (201), the bottom of the collecting plate (100) fixed with the rotating shaft (102) is provided with a water collecting tank (600), one end of the inner side of the water collecting tank (600) is symmetrically fixed with a limiting block (601), one end of the water collecting tank (600) fixed with the limiting block (601) is fixed with an L-shaped collecting pipe (602) through a water collecting box (604), the other end of the L-shaped collecting pipe (602) is inserted in the purifying barrel (400), the peripheral side surface of the purification barrel (400) is inserted with a water outlet pipe (500), and the other end of the water outlet pipe (500) is inserted inside the water collecting barrel (300).

2. The rainwater collecting and purifying system for agricultural irrigation according to claim 1, wherein five collecting holes (101) are uniformly formed in one side of the collecting plate (100) where the rotating shaft (102) is fixed, a clamping hole (103) is formed in one side of the collecting plate (100) away from the side where the rotating shaft (102) is fixed, sleeves (701) are sleeved at two ends of the rotating shaft (102), and sleeve columns (700) are fixed below the sleeves (701).

3. The rainwater collecting and purifying system for agricultural irrigation according to claim 1, wherein the collecting bridge (200) is of a triangular prism-shaped structure, the cross section of the collecting bridge (200) is isosceles triangle-shaped, the two sides of the collecting bridge (200) are fixed with the fixture blocks (201) corresponding to the positions of the collecting plates (100) provided with the fixture holes (103), and the bottoms of the two ends of the collecting bridge (200) are fixed with the bridge pillars (202).

4. The rainwater collecting and purifying system for agricultural irrigation according to claim 1, wherein a water collecting fixing column (603) is fixed to the bottom of one end of the water collecting tank (600) close to the fixed limiting block (601) and one end of the water collecting tank far away from the fixed limiting block (601), a water collecting box (604) is fixed to the top of the front side surface of one end of the water collecting fixing column (603) close to the fixed limiting block (601), a water collecting hole (605) is formed in the bottom of the inner side of the water collecting box (604) in a penetrating mode, and an L-shaped collecting pipe (602) is fixed to the water collecting box (604) below the water collecting hole (605).

5. The rainwater collecting and purifying system for agricultural irrigation as claimed in claim 1, wherein the L-shaped collecting pipe (602) on the water collecting tank (600) is inserted and fixed with the purifying barrel (400) through a water inlet (410) formed in the top of the purifying barrel (400), the top of the purifying barrel (400) is fixed with a sealing cover (401) through the overlapping of a lug (402) and a lug ring (403), the bottom of the inner side of the purifying barrel (400) is sleeved with a gathering layer (407), the purifying barrel (400) is sleeved with a water outlet pipe (500) through a water outlet (409) formed in the bottom, the gathering layer (407) is provided with a gathering cavity (408) inside the purifying barrel (400) close to one side of the water outlet pipe (500), the purifying barrel (400) above the gathering layer (407) is sleeved with a marble neutralizing layer (406), the purifying barrel (400) above the marble neutralizing layer (406) is sleeved with a microorganism semipermeable membrane (405), the inside cover of purification bucket (400) above the microorganism semipermeable membrane (405) is equipped with asbestos filter screen (404).

6. The rainwater collecting and purifying system for agricultural irrigation according to claim 1, wherein one end of each of the two water outlet pipes (500) far away from the purifying barrel (400) is fixedly sleeved inside the water collecting barrel (300), a water guiding pipe (302) is sleeved in front of the peripheral side surface of the water collecting barrel (300), and a barrel cover (301) is arranged at the top of the water collecting barrel (300).

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