CN112889637A - Soil and water conservation device and system - Google Patents

Abstract

The invention provides a water and soil conservation device and a system, which comprise a fixed pile, a protection plate, a water supplementing structure and a rainfall detection structure; a conical head is arranged at the first end of the fixed pile; the second end of the fixing pile is detachably connected with the first end of the water supplementing structure; the second end of the water supplementing structure is detachably connected with the rainfall detection structure; four grooves are formed in the periphery of the outer wall between the first end of the fixing pile and the second end of the fixing pile in the height direction, and two adjacent grooves form an angle of 90 degrees; the guard plate sets up two between the spud pile, through the recess with the spud pile is connected, adjacent two simultaneously between the recess the not co-altitude position of outer wall is equipped with humidity transducer. By the mode, more application requirements are met while the water and soil retaining device is mounted more conveniently.

Description

Soil and water conservation device and system

Technical Field

The invention relates to the technical field of water and soil conservation, in particular to a water and soil conservation device and system.

Background

Soil and water conservation refers to the prevention and treatment measures for soil and water loss caused by natural factors and artificial activities. Although the existing slope water and soil retaining device can effectively retain water and soil on the slope surface of the vegetation slope, the installation process is complex, the use is inconvenient, and the function is single. It is therefore desirable to provide a solution that meets the requirements of more applications while providing more convenient installation of soil and water conservation devices.

Disclosure of Invention

The invention aims to provide a water and soil conservation device and a system, which are used for realizing the technical effect of meeting more application requirements while more conveniently installing the water and soil conservation device.

In a first aspect, the invention provides a water and soil conservation device, which comprises a fixed pile, a protection plate, a water supplementing structure and a rainfall detection structure; a conical head is arranged at the first end of the fixed pile; the second end of the fixing pile is detachably connected with the first end of the water supplementing structure; the second end of the water supplementing structure is detachably connected with the rainfall detection structure; four grooves are formed in the periphery of the outer wall between the first end of the fixing pile and the second end of the fixing pile in the height direction, and two adjacent grooves form an angle of 90 degrees; the guard plate sets up two between the spud pile, through the recess with the spud pile is connected, adjacent two simultaneously between the recess the not co-altitude position of outer wall is equipped with humidity transducer.

Further, the water replenishing structure comprises a base; the supporting rod is fixedly connected with the base; the mounting part is arranged at the top of the supporting rod; the omnidirectional spray head is arranged on the supporting rod; the base is connected with the second end of the fixing pile through a bolt; the rainfall detection structure with the installation department can be dismantled and be connected.

Further, the omnidirectional nozzle comprises a public nozzle; and four water spraying pipelines connected with the public pipe orifices; the water spraying pipeline comprises an electromagnetic valve connected with the public pipe orifice; the flowmeter is connected with the electromagnetic valve; a spray head connected with the flow meter; and a controller connected to the solenoid valve and the flow meter; the spray heads are arranged at the same height and mutually form an angle of 90 degrees.

Furthermore, a temperature sensor connected with the controller is further arranged on the supporting rod and used for detecting the ambient temperature.

Furthermore, a display connected with the controller is further arranged on the supporting rod.

Furthermore, a solar cell panel is arranged on the supporting rod; the storage battery is arranged at the back of the solar panel; the storage battery is used for supplying power to all electronic elements on the water replenishing structure.

Further, the conical head is provided with a plurality of anti-falling sheets.

Furthermore, a plurality of through holes are formed in the protection plate.

In a second aspect, the present invention provides a soil and water conservation system comprising a plurality of soil and water conservation devices as claimed in any one of claims 1 to 8 disposed on a planting slope; the water collecting tank is arranged at the bottom of the planting slope; the reservoir is connected with the water collecting tank; the plurality of trash screens are arranged in front of the water inlet of the reservoir; the water pump is arranged in the water storage tank and is connected with the water supplementing structure of each water and soil retaining device.

Further, the water and soil conservation system also comprises a water and fertilizer preparation pool arranged on a pipeline between the water storage tank and the water supplementing structure.

The beneficial effects that the invention can realize are as follows: the water and soil conservation device and the system provided by the invention can be very conveniently assembled and disassembled, and can automatically replenish water to vegetation according to detection data, so that the water and soil conservation device can be more conveniently installed and more application requirements can be met.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments of the present invention will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a schematic structural diagram of a soil and water conservation device according to an embodiment of the present invention;

FIG. 2 is a schematic view I of a connection manner of a water replenishing structure according to an embodiment of the present invention;

fig. 3 is a schematic view II of a connection manner of a water replenishing structure according to an embodiment of the present invention;

FIG. 4 is a schematic diagram of an omni-directional showerhead according to an embodiment of the present invention;

fig. 5 is a schematic view of a topological structure of a soil and water conservation system according to an embodiment of the present invention.

Icon: 10-soil and water conservation system; 100-soil and water conservation device; 110-a spud pile; 111-cone head; 1111-anticreep tablets; 112-a groove; 120-protective plate; 121-a through hole; 130-a water replenishing structure; 131-a base; 132-a support bar; 133-a mounting portion; 134-omnidirectional spray head; 1341-a common pipe orifice; 1342-a solenoid valve; 1343-a flow meter; 1344-a spray head; 135-a controller; 140-rainfall detection configuration; 150-a humidity sensor; 160-a display; 170-solar panel; 180-a storage battery; 200-a water collecting tank; 300-a water reservoir; 400-a water and fertilizer preparation pool; 500-slope surface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described below with reference to the drawings in the embodiments of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures. Meanwhile, in the description of the present invention, the terms "first", "second", and the like are used only for distinguishing the description, and are not to be construed as indicating or implying relative importance.

Referring to fig. 1, fig. 1 is a schematic structural diagram of a soil and water conservation device according to an embodiment of the present invention.

In one embodiment, the soil and water conservation device 100 provided by the embodiment of the present invention includes a fixing pile 110, a protection plate 120, a water supplement structure 130, and a rain amount detection structure 140; a conical head 111 is arranged at the first end of the fixing pile 110; the second end of the fixing pile 110 is detachably connected with the first end of the water supplementing structure 130; the second end of the water supplementing structure 130 is detachably connected with the rainfall detection structure 140; four grooves 112 are formed in the periphery of the outer wall between the first end of the fixed pile 110 and the second end of the fixed pile 110 in the height direction, and two adjacent grooves 112 form an angle of 90 degrees; the protection plate 120 is disposed between two fixing piles 110 to be connected to the fixing piles 110 through the grooves 112, while humidity sensors 150 are disposed at different height positions of the outer wall between adjacent two grooves 112.

In the implementation process, a user can drive the conical head 111 of the fixing pile 110 into the ground firstly on the vegetation planting slope 500 needing to be provided with the soil and water conservation device 100, then install one moisturizing structure 130 every other fixing pile 110, and install the rainfall detection structure 140 on the top of the moisturizing structure 130. One groove 112 of each of the piles 110 is disposed opposite to the other groove 112 of the adjacent pile 110, and both ends of the shielding plate 120 are inserted into the grooves 112 of one of the piles 110, respectively. After the user assembles the soil and water conservation device 100, soil can be laid in the cavity formed by splicing the fixing pile 110 and the protection plate 120, and required vegetation can be planted in the soil, and then the controller 135 can control the water replenishing structure 130 to replenish water according to humidity data detected by the humidity sensors 150 arranged at different heights of the fixing pile 110. Through the mode, the vegetation can be conveniently disassembled and assembled, meanwhile, water can be automatically supplemented to the vegetation according to detection data, and more application requirements can be met while the water and soil conservation device 100 is more conveniently installed.

In one embodiment, the bit 111 may be further provided with a plurality of anti-slip sheets 1111. Through anticreep piece 1111 who sets up, can make spud pile 110 when installing more firm.

In one embodiment, the guard plate 120 may also begin with a plurality of holes 121 to facilitate the seepage of excess water from the planting area.

Referring to fig. 2 and fig. 3, fig. 2 is a schematic view I of a connection manner of a water replenishing structure according to an embodiment of the present invention; fig. 3 is a schematic view II of a connection manner of a water replenishing structure according to an embodiment of the present invention.

In one embodiment, the refill structure 130 includes a base 131; a support rod 132 fixedly connected with the base 131; a mounting part 133 disposed at the top of the support rod 132; and an omni-directional spray head 134 disposed on the support bar 132; base 131 is connected to the second end of spud 110 by bolts; the rainfall detection structure 140 is detachably connected to the mounting portion 133.

For example, an aluminum alloy structure may be used for the soil and water conservation device 100. Spud pile 110 can be set up to the cylinder, sets up conical head 111 in the bottom of spud pile 110, and the top of spud pile 110 sets up four screw, and these four screw can set up according to the mode that the rectangle was arranged. The base 131 of the water supplementing structure 130 can be designed to be circular, the supporting rod 132 is connected with the base 131 through a welding mode, and meanwhile, four through holes 121 which are matched with the screw holes and correspond to the positions are formed in the base 131. Finally, the base 131 and the fixing pile 110 are fixed by bolts. The rainfall detection structure 140 includes a rain storage barrel, a connecting portion disposed at the bottom of the rain storage barrel, and a liquid level sensor disposed in the rain storage barrel. The top of the supporting rod 132 may be provided with two through holes 121 disposed oppositely as a mounting portion 133, the connecting portion may be sleeved on the top of the supporting rod 132, and the connecting portion may be provided with a through hole 121 corresponding to the mounting portion 133, and then the connecting portion and the mounting portion 133 are fixed by bolts.

The spud 110 may be a square body, such as a rectangular parallelepiped. The supporting rod 132 may be configured as a cylinder or a square cylinder. The fixing pile 110 may also be provided with a screw, and the screw may pass through the through hole 121 provided on the base 131 and then be fixed by a nut.

Referring to fig. 4, fig. 4 is a schematic diagram of an omnidirectional showerhead according to an embodiment of the present invention.

In one embodiment, omni-directional spray head 134 includes a common nozzle 1341; and four water spray lines connected to the common pipe ports 1341; the water spray line includes an electromagnetic valve 1342 connected to a common nozzle 1341; a flow meter 1343 connected to the solenoid valve 1342; a spray head 1344 connected to the flow meter 1343; and a controller 135 connected to the solenoid valve 1342 and the flow meter 1343; the spray heads 1344 are mounted at the same height and are disposed at 90 ° angles to each other.

For example, the controller 135 may be a single chip microcomputer, and the controller 135 may acquire soil humidity data acquired by the humidity sensor 150 disposed on the spud pile 110, and then water vegetation according to the soil humidity data. Specifically, the controller 135 may analyze the required watering amount according to soil humidity data acquired by the humidity sensors 150 arranged at different heights of the spud pile 110, analyze the nozzles 1344 to be opened according to the set positions of the humidity sensors 150, finally open the corresponding solenoid valves 1342, and control the watering amount according to the detection result of the flow meters 1343.

In one embodiment, a temperature sensor is also disposed on the support rod 132 and connected to the controller 135 for detecting the ambient temperature.

Further, a display 160 connected to the controller 135 may be disposed on the supporting rod 132. The display 160 is provided to display the data detected by the humidity sensor 150, the temperature sensor, the rainfall detection structure 140, etc. in real time.

Referring to fig. 1, in one embodiment, a solar panel 170 may be further disposed on the supporting rod 132; and a storage battery 180 disposed at the back of the solar cell panel 170; the battery 180 is used to supply power to the electronic components on the water replenishing structure 130. Through the solar cell panel 170 and the storage battery 180, the soil and water conservation device 100 can be used more conveniently, and the application range of the soil and water conservation device 100 is expanded.

Referring to fig. 5, fig. 5 is a schematic view of a topology structure of a soil and water conservation system according to an embodiment of the present invention.

In an implementation manner, the embodiment of the present invention further provides a water and soil conservation system 10, which includes a plurality of the above-mentioned water and soil conservation devices 100 disposed on a slope surface 500 of a planting slope; a water collecting tank 200 arranged at the bottom of the planting slope; a water reservoir 300 connected to the water collecting tank 200; a plurality of trash racks disposed in front of the water inlet of the water reservoir 300; and a water pump disposed in the reservoir 300 and connected to the moisturizing structure 130 of each soil and water retaining device 100.

In the implementation process, apart from the evaporated water, part of the water lost from the planting slope can flow back to the water reservoir 300 through the water collecting tank 200, and the water in the water reservoir 300 can be utilized when the planted vegetation needs to be watered, so that the utilization rate of the water is improved; meanwhile, a plurality of trash racks are arranged in front of the water inlet of the water storage tank 300, and the water collecting tank 200 can be further provided with a cover plate to prevent sundries from entering the water storage tank 300.

Further, the soil and water conservation system 10 further includes a water and fertilizer distribution tank 400 provided on a pipeline between the water reservoir 300 and the water replenishing structure 130.

In the implementation process, the water reservoir 300 may be further connected to the water and fertilizer configuration pool 400, and then the water and fertilizer configuration pool 400 is connected to the omnidirectional nozzles 134 in the water replenishing structures 130 of the water and soil conservation devices 100, so as to spray water and fertilizer to the planted vegetation according to the requirement. In order to facilitate the control of the amount of fertilizer applied, a soil fertility sensor may be provided at the planting area of each vegetation and connected to the controller 135 described above. Through the data that soil fertility sensor detected, controller 135 can be according to the automatic control rate of fertilizeing of testing result, and it is more convenient to use.

In summary, the embodiment of the present invention provides a soil and water conservation device and system, including a fixing pile, a protection plate, a water replenishing structure and a rainfall detection structure; a conical head is arranged at the first end of the fixed pile; the second end of the fixing pile is detachably connected with the first end of the water supplementing structure; the second end of the water supplementing structure is detachably connected with the rainfall detection structure; four grooves are arranged on the periphery of the outer wall between the first end of the fixed pile and the second end of the fixed pile in the height direction, and two adjacent grooves form an angle of 90 degrees; the guard plate sets up between two spud piles, is connected through recess and spud pile, and the not co-altitude position of the outer wall between two adjacent recesses simultaneously is equipped with humidity transducer. By the mode, more application requirements are met while the water and soil retaining device is mounted more conveniently.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. A water and soil conservation device is characterized by comprising a fixing pile, a protection plate, a water supplementing structure and a rainfall detection structure; a conical head is arranged at the first end of the fixed pile; the second end of the fixing pile is detachably connected with the first end of the water supplementing structure; the second end of the water supplementing structure is detachably connected with the rainfall detection structure; four grooves are formed in the periphery of the outer wall between the first end of the fixing pile and the second end of the fixing pile in the height direction, and two adjacent grooves form an angle of 90 degrees; the guard plate sets up two between the spud pile, through the recess with the spud pile is connected, adjacent two simultaneously between the recess the not co-altitude position of outer wall is equipped with humidity transducer.

2. The soil and water retaining apparatus of claim 1 wherein the refill structure comprises a base; the supporting rod is fixedly connected with the base; the mounting part is arranged at the top of the supporting rod; the omnidirectional spray head is arranged on the supporting rod; the base is connected with the second end of the fixing pile through a bolt; the rainfall detection structure with the installation department can be dismantled and be connected.

3. The soil and water conservation device of claim 2 wherein the omni-directional spray head comprises a common nozzle; and four water spraying pipelines connected with the public pipe orifices; the water spraying pipeline comprises an electromagnetic valve connected with the public pipe orifice; the flowmeter is connected with the electromagnetic valve; a spray head connected with the flow meter; and a controller connected to the solenoid valve and the flow meter; the spray heads are arranged at the same height and mutually form an angle of 90 degrees.

4. The soil and water conservation device of claim 3 wherein the support rod is further provided with a temperature sensor connected to the controller for sensing ambient temperature.

5. The soil and water conservation device of claim 3 wherein the support rod is further provided with a display connected to the controller.

6. The soil and water conservation device of claim 2 wherein the support rod is further provided with a solar panel; the storage battery is arranged at the back of the solar panel; the storage battery is used for supplying power to all electronic elements on the water replenishing structure.

7. The soil and water retaining device of claim 1 wherein the bit is provided with a plurality of anti-slip tabs.

8. The soil and water retaining apparatus of claim 1, wherein the protection plate has a plurality of through holes.

9. A soil and water conservation system comprising a plurality of soil and water conservation devices as claimed in any one of claims 1 to 8 disposed on a planting slope; the water collecting tank is arranged at the bottom of the planting slope; the reservoir is connected with the water collecting tank; the plurality of trash screens are arranged in front of the water inlet of the reservoir; the water pump is arranged in the water storage tank and is connected with the water supplementing structure of each water and soil retaining device.

10. The soil and water conservation system of claim 9 further comprising a manure disposal basin disposed in the conduit between the reservoir and the refill structure.

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