CN115067107B

CN115067107B - Ecological management device and method for preventing water and soil loss of orchard

Info

Publication number: CN115067107B
Application number: CN202210690215.5A
Authority: CN
Inventors: 黄军赣; 聂青青; 许世芳
Original assignee: Jiangxi Xinming Technology Development Co ltd
Current assignee: Jiangxi Xinming Technology Development Co ltd
Priority date: 2022-06-17
Filing date: 2022-06-17
Publication date: 2023-08-29
Anticipated expiration: 2042-06-17
Also published as: CN115067107A

Abstract

The invention relates to an ecological management device and method, in particular to an ecological management device and method for preventing water and soil loss of an orchard. The invention provides an ecological management device and method for preventing water and soil loss of an orchard. The ecological management device for preventing the water and soil loss of the orchard comprises a separation frame, a combination mechanism and a scraping mechanism, wherein the combination mechanism for assembling the ecological management device for preventing the water and soil loss of the orchard is arranged on the separation frame, and the scraping mechanism for scraping the soil is arranged on the upper portion of the separation frame. According to the invention, soil is filled into the barrier frame, plants are planted in the planting frame, water permeates into the soil, and meanwhile, the soil falls into the barrier frame through the filter screen for storage, so that the barrier frame can prevent water and soil loss, and normal growth of the plants is ensured.

Description

Ecological management device and method for preventing water and soil loss of orchard

Technical Field

The invention relates to an ecological management device and method, in particular to an ecological management device and method for preventing water and soil loss of an orchard.

Background

The water and soil loss refers to the phenomenon that water and soil are simultaneously lost due to the influence of natural or artificial factors, such as inability of rainwater to be absorbed in situ, downflow in a homeopathic manner and scouring of soil. Soil productivity is reduced or even lost due to water and soil loss, and soil fertility of soil used in an orchard is general, if water and soil loss is left, a soil cultivation layer is corroded and destroyed, so that soil fertility is gradually depleted, plants are withered, and industrial and agricultural production is seriously influenced.

The inventor provides an ecological management device and method for preventing water and soil loss of an orchard so as to solve the problems.

Disclosure of Invention

The invention aims to provide an ecological treatment device and method for preventing water and soil loss of an orchard, so as to solve the problem of water and soil loss of the orchard.

The technical proposal is as follows: the ecological management device for preventing the water and soil loss of the orchard comprises a separation frame, a combination mechanism and a scraping mechanism, wherein the combination mechanism for assembling the ecological management device for preventing the water and soil loss of the orchard is arranged on the separation frame, and the scraping mechanism for scraping the soil is arranged on the upper portion of the separation frame.

Further, the combined mechanism comprises a sliding block, a filter plate, a planting frame and a filter screen, wherein the front side of the blocking frame is connected with the sliding block, the rear side of the blocking frame is provided with a sliding groove, the left side of the blocking frame is connected with the filter plate, the upper part of the filter plate is connected with four planting frames, and the inner side of the blocking frame is connected with the filter screen for blocking soil.

Further, strike-off mechanism is including first fixed column, a motor, the lead screw, the second fixed column, the scraper blade, slide bar and first connecting rod, block frame right wall upper portion front side and be connected with first fixed column, install the motor on the first fixed column, block frame left wall upper portion front and back both sides all are connected with two second fixed columns, the pivoted is connected with the lead screw between two second fixed columns of front side, the lead screw right-hand member passes through the coupling joint with the motor output shaft, be connected with the slide bar between two second fixed columns of rear side, sliding connection has first connecting rod on the slide bar, threaded connection has first connecting rod on the lead screw, be connected with the scraper blade that is used for striking off earth on the filter between the first connecting rod left end, scraper blade and filter contact.

Further, still including the irrigation mechanism who is used for irrigating the plant, irrigation mechanism is including the leading wheel, the stay cord, the third fixed column, the clamp plate, first linear spring, first raceway, storage water tank and second raceway, filter upper portion is connected with the leading wheel, block spacer right wall upper portion and be connected with the third fixed column, slide-type be connected with the clamp plate that is used for drawing and extrudees water on the third fixed column, be connected with the stay cord between clamp plate top and the scraper blade, the stay cord winds on the leading wheel, be connected with first linear spring between third fixed column and the clamp plate, block spacer right wall lower part is connected with the storage water tank, the clamp plate is connected with the storage water tank slidingly, both sides all are connected with first raceway around between storage water tank right wall lower side and the block spacer right wall lower side, both sides all are connected with the second raceway around the storage water tank bottom, all be connected with the check valve in the second raceway.

Further, the flow limiting mechanism for blocking water backflow comprises a fourth fixing column, blocking rods and second linear springs, the fourth fixing columns are connected inside the two first water conveying pipes, the blocking rods for blocking the first water conveying pipes are connected in the middle of the fourth fixing columns in a sliding mode, the second linear springs are connected between the blocking rods on the front side and the fourth fixing columns on the front side, and the second linear springs are connected between the blocking rods on the rear side and the fourth fixing columns on the rear side.

Further, the utility model provides a rotating mechanism for diversified watering, rotating mechanism is including gag lever post, space cam, second connecting rod and shower nozzle, clamp plate upper portion is connected with two gag lever posts, two equal rotation in second raceway upper portions are connected with space cam, the gag lever post of front side and the space cam contact of front side, the gag lever post of rear side and the space cam contact of rear side, space cam top all is connected with the second connecting rod, all be connected with the shower nozzle that is used for watering on the second connecting rod, the shower nozzle of front side communicates with the space cam of front side, the shower nozzle of rear side communicates with the space cam of rear side.

Further, the device also comprises a sewage discharging mechanism for discharging sediment at the bottom in the separation frame, the sewage discharging mechanism comprises a sewage discharging pipe and a separation pipe, the front side and the rear side of the lower side of the right wall of the separation frame are respectively connected with the sewage discharging pipe for discharging sediment at the bottom in the separation frame, the sewage discharging pipes are respectively connected with the separation pipe in a sliding mode, and through holes are respectively formed in the separation pipes.

An ecological management method for preventing water and soil loss of an orchard comprises the following steps:

s1, filling soil into a barrier frame, and planting plants into a planting frame;

s2, watering plants regularly, wherein water permeates into soil and falls into the barrier frame through the filter screen, so that the barrier frame can prevent water and soil loss and ensure normal growth of the plants;

s3, when raining, rainwater can wash out surrounding soil onto the filter plate, fine silt in rainwater and soil enters the baffle frame through the filter plate, after raining, the soil attached to the lower end of the filter plate is scraped through the scraping plate, and meanwhile people can collect and utilize the scraped soil.

The invention has the advantages that:

1. according to the invention, soil is filled into the barrier frame, plants are planted into the planting frame, water permeates into the soil, and meanwhile, the soil falls into the barrier frame through the filter screen for storage, so that the barrier frame can prevent water and soil loss, and normal growth of the plants is ensured;

2. according to the invention, the pressing plate presses the water in the barrier frame, so that the water is sprayed out through the second water delivery pipe to spray water to plants, and the water collected in the barrier frame can be fully utilized;

3. according to the invention, the first water delivery pipe is blocked by rightward movement of the blocking rod, so that water in the water storage tank is prevented from flowing back into the blocking frame through the first water delivery pipe;

4. according to the invention, the spacing rod moves downwards, so that the space cam, the second connecting rod and the spray head are driven to rotate reversely, water entering the second water pipe is sprayed out through the spray head, and thus, the spray head rotates and sprays water to carry out multidirectional irrigation;

5. the invention is communicated with the blow-down pipe through the through hole, so that water and sediment at the bottom in the separation frame are discharged through the blow-down pipe, thereby being convenient for people to clean and collect the water and sediment in the separation frame.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of a partial perspective structure of the present invention.

Fig. 3 is a schematic perspective view of a first part of the combination mechanism of the present invention.

Fig. 4 is a schematic perspective view of a second part of the combination mechanism of the present invention.

Fig. 5 is a schematic perspective view of a scraping mechanism according to the present invention.

FIG. 6 is a schematic perspective view of a first portion of an irrigation mechanism according to the present invention.

FIG. 7 is a schematic perspective view of a second portion of the irrigation mechanism of the present invention.

Fig. 8 is a schematic perspective view of a flow restrictor of the present invention.

Fig. 9 is an enlarged perspective view of the present invention at a.

Fig. 10 is a schematic perspective view of a rotating mechanism according to the present invention.

FIG. 11 is a schematic perspective view of a sewage disposal mechanism according to the present invention.

In the reference numerals: 1-baffle frame, 2-combined mechanism, 21-slider, 22-spout, 23-filter, 24-planting frame, 25-filter screen, 3-scraping mechanism, 31-first fixed column, 32-motor, 33-lead screw, 34-second fixed column, 35-scraper, 36-slide bar, 37-first connecting rod, 4-irrigation mechanism, 41-leading wheel, 42-stay cord, 43-third fixed column, 44-clamp plate, 45-first straight line spring, 46-first water pipe, 47-water storage tank, 48-second water pipe, 5-current limiting mechanism, 51-fourth fixed column, 52-baffle rod, 53-second straight line spring, 6-rotating mechanism, 61-limit rod, 62-space cam, 63-second connecting rod, 64-shower nozzle, 7-blowdown mechanism, 71-blowdown pipe, 72-baffle pipe, 73-through hole.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

Example 1

1-5, including block frame 1, combined mechanism 2 and striking off mechanism 3, be equipped with combined mechanism 2 on block frame 1, combined mechanism 2 is used for a plurality of this ecological management devices that prevent orchard soil erosion and water loss assemble, block frame 1 upper portion is equipped with striking off mechanism 3, striking off mechanism 3 is used for striking off earth.

Referring to fig. 3-4, the combined mechanism 2 comprises a sliding block 21, a filter plate 23, a planting frame 24 and a filter screen 25, wherein the sliding block 21 is connected to the front side of the blocking frame 1, a sliding groove 22 is formed in the rear side of the blocking frame 1, the filter plate 23 is connected to the left side of the blocking frame 1, four planting frames 24 are connected to the upper portion of the filter plate 23, the filter screen 25 is connected to the inner side of the blocking frame 1, and the filter screen 25 is used for blocking soil.

Referring to fig. 5, the scraping mechanism 3 includes a first fixing column 31, a motor 32, a screw rod 33, a second fixing column 34, a scraping plate 35, a sliding rod 36 and a first connecting rod 37, wherein the front side of the upper part of the right wall of the baffle frame 1 is connected with the first fixing column 31, the motor 32 is installed on the first fixing column 31, the front side and the rear side of the upper part of the left wall of the baffle frame 1 are both connected with two second fixing columns 34, the screw rod 33 is rotatably connected between the two second fixing columns 34 on the front side, the right end of the screw rod 33 is connected with an output shaft of the motor 32 through a coupling, the sliding rod 36 is connected between the two second fixing columns 34 on the rear side, the sliding rod 36 is connected with the first connecting rod 37 in a sliding manner, the scraping plate 35 is connected between the left ends of the first connecting rod 37, and the scraping plate 35 is used for scraping soil on the filter plate 23, and the scraping plate 35 is contacted with the filter plate 23.

When the device is used, people can install the sliding block 21 of the device into the sliding groove 22 of another device, thereby transversely assembling, after assembling, soil is added into the separation frame 1, the soil falls on the filter screen 25, plants are planted into the planting frame 24, the separation frame 1 can prevent water and soil loss, people can permeate and soak soil when watering plants, meanwhile, the water falls into the separation frame 1 through the filter screen 25, when raining, rainwater can wash the surrounding soil onto the filter plate 23, fine silt in the rainwater and the soil enters the separation frame 1 through the filter plate 23, after raining, people start the motor 32, the output shaft of the motor 32 rotates to drive the screw 33 to rotate, then drive the first connecting rod 37 at the front side to move downwards, the first connecting rod 37 at the front side drives the scraper 35 and the first connecting rod 37 at the rear side to move downwards, so that the scraper 35 scrapes the soil attached to the lower end of the filter plate 23, meanwhile, people can collect and utilize the scraped soil, and then control the output shaft of the motor 32 to reversely drive the screw 33 to reversely rotate, and then drive the first connecting rod 37 to move upwards to reset the scraper 35, and then close the motor 35 upwards.

Example 2

s1, soil is filled into the barrier frame 1, and plants are planted into the planting frame 24;

s2, watering plants regularly, wherein water permeates into soil and falls into the barrier frame 1 through the filter screen 25, so that the barrier frame 1 can prevent water and soil loss and ensure normal growth of the plants;

s3, when raining, rainwater can wash out surrounding soil onto the filter plate 23, fine silt in rainwater and soil enters the baffle frame 1 through the filter plate 23, after raining, the soil attached to the lower end of the filter plate 23 is scraped by the scraping plate 35, and meanwhile people can collect and utilize the scraped soil.

Example 3

On the basis of embodiment 1, referring to fig. 1, 2, 6 and 7, the irrigation mechanism 4 is further included, the irrigation mechanism 4 includes a guide wheel 41, a pull rope 42, a third fixed column 43, a pressing plate 44, a first linear spring 45, a first water pipe 46, a water storage tank 47 and a second water pipe 48, the upper portion of the filter plate 23 is connected with the guide wheel 41, the upper portion of the right wall of the baffle frame 1 is connected with the third fixed column 43, the pressing plate 44 is slidably connected with the pressing plate 44, a pull rope 42 is connected between the top of the pressing plate 44 and the scraping plate 35, the pull rope 42 winds on the guide wheel 41, a first linear spring 45 is connected between the third fixed column 43 and the pressing plate 44, the lower portion of the right wall of the baffle frame 1 is connected with the water storage tank 47, the pressing plate 44 is slidably connected with the water storage tank 47, the front side and the rear side of the lower side of the right wall of the baffle frame 1 are connected with the first water pipe 46, the front side and the rear side of the bottom of the water storage tank 47 are connected with the second water pipe 48, and the inside of the second water pipe 48 are connected with one-way valves.

Referring to fig. 2, 8 and 9, the device further comprises a current limiting mechanism 5, the current limiting mechanism 5 comprises a fourth fixing column 51, a blocking rod 52 and a second linear spring 53, the fourth fixing column 51 is connected inside the two first water pipes 46, the blocking rod 52 is connected in the middle of the fourth fixing column 51 in a sliding mode, the blocking rod 52 is used for blocking the first water pipes 46, the second linear spring 53 is connected between the blocking rod 52 on the front side and the fourth fixing column 51 on the front side, and the second linear spring 53 is connected between the blocking rod 52 on the rear side and the fourth fixing column 51 on the rear side.

When the scraper 35 moves downwards, the pressing plate 44 is driven to move upwards through the pull rope 42, the first linear spring 45 is compressed, the pressing plate 44 extracts water in the blocking frame 1 through the first water conveying pipe 46, when the scraper 35 moves upwards to reset, the pull rope 42 is loosened, the pressing plate 44 is driven to move downwards to reset under the action of the reset of the first linear spring 45, the pressing plate 44 presses the water in the blocking frame 1, the water enters the first water conveying pipe 46 and the second water conveying pipe 48, the water in the first water conveying pipe 46 moves rightwards with the blocking rod 52, the blocking rod 52 is further made to block the first water conveying pipe 46, the second linear spring 53 is stretched, and meanwhile water is sprayed out through the second water conveying pipe 48, so that the water collected in the blocking frame 1 can be fully utilized.

Referring to fig. 1, 2 and 10, the sprinkler further comprises a rotating mechanism 6, the rotating mechanism 6 comprises a limiting rod 61, a space cam 62, a second connecting rod 63 and a sprinkler head 64, the upper parts of the pressing plates 44 are connected with the two limiting rods 61, the upper parts of the two second water conveying pipes 48 are respectively connected with the space cam 62 in a rotating mode, the limiting rod 61 on the front side is contacted with the space cam 62 on the front side, the limiting rod 61 on the rear side is contacted with the space cam 62 on the rear side, the tops of the space cams 62 are respectively connected with the second connecting rod 63, the sprinkler heads 64 are respectively connected with the sprinkler heads 64 for sprinkling water, the sprinkler heads 64 on the front side are communicated with the space cam 62 on the front side, and the sprinkler heads 64 on the rear side are communicated with the space cam 62 on the rear side.

When the pressing plate 44 moves upwards, the limiting rod 61 is driven to move upwards, the limiting rod 61 drives the space cam 62 to rotate, the second connecting rod 63 and the spray head 64 are driven to rotate, when the pressing plate 44 moves downwards to reset, the limiting rod 61 is driven to move downwards, the limiting rod 61 drives the space cam 62 to rotate reversely, the second connecting rod 63 and the spray head 64 are driven to rotate reversely, water entering the second water pipe 48 is sprayed out through the spray head 64, and therefore the spray head 64 rotates and sprays water to irrigate in multiple directions.

Referring to fig. 2 and 11, the sewage disposal device further comprises a sewage disposal mechanism 7, the sewage disposal mechanism 7 comprises a sewage disposal pipe 71 and a blocking pipe 72, the front side and the rear side of the lower side of the right wall of the blocking frame 1 are respectively connected with the sewage disposal pipe 71, the sewage disposal pipe 71 is used for discharging sediment at the inner bottom of the blocking frame 1, the blocking pipes 72 are respectively connected to the sewage disposal pipes 71 in a sliding mode, and through holes 73 are respectively formed in the blocking pipes 72.

When more sediment is deposited in the inner bottom of the baffle frame 1, the baffle pipe 72 is moved outwards, so that the through hole 73 is communicated with the sewage drain pipe 71, and then water and sediment at the inner bottom of the baffle frame 1 are discharged through the sewage drain pipe 71, so that people can clean and collect the water and sediment in the baffle frame 1 conveniently, after the water and sediment are discharged, the baffle pipe 72 is moved inwards to reset the baffle pipe 72, and the sewage drain pipe 71 is blocked by the baffle pipe 72.

The above embodiments are provided to illustrate the technical concept and features of the present invention and are intended to enable those skilled in the art to understand the content of the present invention and implement the same, and are not intended to limit the scope of the present invention. All equivalent changes or modifications made in accordance with the spirit of the present invention should be construed to be included in the scope of the present invention.

Claims

1. The ecological management device for preventing the water and soil loss of the orchard comprises a separation frame (1), and is characterized by further comprising a combined mechanism (2) and a scraping mechanism (3), wherein the combined mechanism (2) for assembling a plurality of ecological management devices for preventing the water and soil loss of the orchard is arranged on the separation frame (1), and the scraping mechanism (3) for scraping soil is arranged on the upper portion of the separation frame (1); the combined mechanism (2) comprises a sliding block (21), a filter plate (23), a planting frame (24) and a filter screen (25), wherein the sliding block (21) is connected to the front side of the blocking frame (1), a sliding groove (22) is formed in the rear side of the blocking frame (1), the filter plate (23) is connected to the left side of the blocking frame (1), four planting frames (24) are connected to the upper portion of the filter plate (23), and the filter screen (25) for blocking soil is connected to the inner side of the blocking frame (1);

the scraping mechanism (3) comprises a first fixed column (31), a motor (32), a screw rod (33), second fixed columns (34), a scraping plate (35), a sliding rod (36) and a first connecting rod (37), wherein the front side of the upper part of the right wall of the separation frame (1) is connected with the first fixed column (31), the motor (32) is installed on the first fixed column (31), the front side and the rear side of the upper part of the left wall of the separation frame (1) are both connected with two second fixed columns (34), the screw rod (33) is rotationally connected between the two second fixed columns (34) on the front side, the right end of the screw rod (33) is connected with an output shaft of the motor (32) through a coupler, the sliding rod (36) is connected with the first connecting rod (37) in a sliding mode, the first connecting rod (37) is connected with threads on the screw rod (33), the scraping plate (35) for scraping soil on the filter plate (23) is connected between the left end of the first connecting rod (37), and the scraping plate (35) is contacted with the filter plate (23); the device comprises a water storage tank (47) and a water storage tank (47), and is characterized by further comprising an irrigation mechanism (4) for irrigating plants, wherein the irrigation mechanism (4) comprises a guide wheel (41), a pull rope (42), a third fixed column (43), a pressing plate (44), a first linear spring (45), a first water conveying pipe (46), the water storage tank (47) and a second water conveying pipe (48), the guide wheel (41) is connected to the upper part of the filter plate (23), the third fixed column (43) is connected to the upper part of the right wall of the separation frame (1) in a sliding manner, the pressing plate (44) is used for extracting and extruding water, the pull rope (42) is connected between the top of the pressing plate (44) and a scraping plate (35), the pull rope (42) is wound on the guide wheel (41), the first linear spring (45) is connected between the third fixed column (43) and the pressing plate (44), the water storage tank (47) is connected to the lower part of the right wall of the separation frame (1), the pressing plate (44) is connected with the guide wheel (41) in a sliding manner, the first water conveying pipe (46) is connected to the lower part of the right wall of the separation frame (1), the front side and the rear side of the right wall of the separation frame (47) is connected to the lower part of the right wall, the front and the rear side of the water conveying pipe (47) is connected to the second water storage tank (48), and the front side and the water storage tank (48) is connected to the second water storage tank;

the water backflow preventing device is characterized by further comprising a flow limiting mechanism (5) for preventing water from flowing back, wherein the flow limiting mechanism (5) comprises a fourth fixing column (51), a blocking rod (52) and a second linear spring (53), the fourth fixing column (51) is connected inside the two first water conveying pipes (46), the blocking rod (52) for blocking the first water conveying pipes (46) is connected in the middle of the fourth fixing column (51) in a sliding mode, the second linear spring (53) is connected between the blocking rod (52) on the front side and the fourth fixing column (51) on the front side, and the second linear spring (53) is connected between the blocking rod (52) on the rear side and the fourth fixing column (51) on the rear side.

2. The ecological management device for preventing water and soil loss of an orchard according to claim 1, further comprising a rotating mechanism (6) for multi-azimuth irrigation, wherein the rotating mechanism (6) comprises a limiting rod (61), a space cam (62), a second connecting rod (63) and a spray head (64), two limiting rods (61) are connected to the upper portion of a pressing plate (44), the space cam (62) is connected to the upper portion of two second water conveying pipes (48) in a rotating mode, the limiting rod (61) on the front side is in contact with the space cam (62) on the front side, the limiting rod (61) on the rear side is in contact with the space cam (62) on the rear side, the tops of the space cams (62) are both connected with the second connecting rod (63), the spray head (64) on the front side is communicated with the space cam (62) on the front side, and the spray head (64) on the rear side is communicated with the space cam (62) on the rear side.

3. The ecological management device for preventing water and soil loss of an orchard according to claim 2, further comprising a sewage draining mechanism (7) for draining sediment at the inner bottom of the baffle frame (1), wherein the sewage draining mechanism (7) comprises a sewage draining pipe (71) and a baffle pipe (72), the front side and the rear side of the lower side of the right wall of the baffle frame (1) are respectively connected with the sewage draining pipe (71) for draining sediment at the inner bottom of the baffle frame (1), the baffle pipes (71) are respectively connected with the baffle pipe (72) in a sliding mode, and through holes (73) are respectively formed in the baffle pipes (72).