AU2021103617A4 - Vegetation drip irrigation device for mining areas - Google Patents

Abstract

The present invention relates to a vegetation drip irrigation device for mining areas, including a frame body, a liquid storage tank, a rainwater collecting bucket and a plurality of filtering drip heads, wherein the liquid storage tank is fixedly provided in the frame body, and the rainwater collecting bucket is fixedly provided above the liquid storage tank; a plurality of mounting protrusions with valve switches are provided at the bottom of the liquid storage tank, and the filtering drip heads correspond to the mounting protrusions one-to-one; and the filtering drip head is detachably connected with the mounting protrusion through a connecting projection end; a fiber mesh layer, a biomass carbon layer, a nutrient soil layer and an accommodating cavity are provided in the filtering drip head and sequentially distributed from top to bottom; and a plurality of drip holes communicating with the accommodating cavity are formed at the bottom of the filtering drip head. The rainwater collecting bucket according to the present invention can transport the rainwater in the mining area to the liquid storage tank, and the rainwater is then purified by the filtering drip heads, which prevents the root system of the vegetation from being polluted. 1/1 4 7 15,0 0 -16 151 -0 ` - 161 131 00 141 61FG. FIG. 1 32 33 3 34 35 FIG. 2

Description

1/1

4 7

15,0 0 -16 151 -0 ` - 161 131 00 141

61FG.

FIG. 1

32 33 3 34 35 FIG. 2

VEGETATION DRIP IRRIGATION DEVICE FOR MINING AREAS TECHNICAL FIELD

[0001] The present invention relates to the technical field of geological ecology restoration, and in particular, to a vegetation drip irrigation device for mining areas.

BACKGROUND

[0002] Drip irrigation refers to using pipes to transport water to the roots of crops through orifices or drippers of a capillary of about diameter for local irrigation. Compared with sprinkler irrigation, drip irrigation has better water-saving and yield-increasing effect, and at the same time, it can be combined with fertilization, which may double the fertilizer efficiency, and thus it can be used for field crop irrigation in dry and water-deficient mining areas.

[0003] At present, the traditional drip irrigation device includes a water storage tank and a rainwater collecting bucket provided on the top of the water storage tank to collect rainwater into the water storage tank for drip irrigation, in order to achieve the effect of saving water source, which is simple in structure. However, due to the special environment of mining areas, the water in the mining areas may be easily polluted. Under the circulation system of the natural environment, the rainwater in the mining areas also contains a high concentration of harmful substances, and it is not conducive to the growth of vegetation if the polluted rainwater is used for drip irrigation.

[0004] Therefore, there is an urgent need of a vegetation drip irrigation device for mining areas to solve the above problem.

SUMMARY

[0005] To solve the above technical problem, the present invention provides a vegetation drip irrigation device for mining areas, which can solve the technical problem that currently the rainwater in the mining areas contains a relatively high concentration of harmful substances, and it is not conducive to the growth of the vegetation if the polluted rainwater is used for drip irrigation.

[0006] To solve the above technical problem, the present invention provides the following technical solutions.

[0007] A vegetation drip irrigation device for mining areas, comprising: a frame body, a liquid storage tank, a rainwater collecting bucket and a plurality of filtering drip heads, wherein,

[0008] the liquid storage tank is fixedly provided in the frame body, the rainwater collecting bucket is fixedly provided above the liquid storage tank, and the rainwater collecting bucket is

connected with the liquid storage tank;

[0009] a plurality of mounting protrusions is provided uniformly at the bottom of the liquid storage tank, a valve switch is provided on the mounting protrusion, and the filtering drip heads correspond

to the mounting protrusions one-to-one; and

[0010] the filtering drip head has a connecting projection end at the top; the filtering drip head is detachably connected with the mounting protrusion through the connecting projection end; a fiber

mesh layer, a biomass carbon layer, a nutrient soil layer and an accommodating cavity are provided

in the filtering drip head and sequentially distributed from top to bottom; and a plurality of drip

holes communicating with the accommodating cavity are formed at the bottom of the filtering drip

head.

[0011] The present invention has the following beneficial effects:

[0012] (1) The rainwater collecting bucket according to the present invention can transport the rainwater in the mining area to the liquid storage tank, and the rainwater is then purified through the filtering drip head, which greatly reduces the concentration of harmful substances in the rainwater and prevents the root system of the vegetation from being polluted.

[0013] (2) The filtering drip heads according to the present invention can be flexibly mounted on the mounting protrusions at the bottom of the liquid storage tank, which helps to replace or clean the filtering drip heads in time, ensures the normal operation of the vegetation drip irrigation device, and is convenient and practical.

[0014] (3) The biomass carbon layer, the fiber mesh layer and the nutrient soil layer of the filtering drip head according to the present invention can purify pollutants such as heavy metals in the rainwater, and at the same time, the organic contents of the rainwater can promote the growth of the vegetation.

[0015] Based on the above technical solution, the present invention can also be improved as follows.

[0016] Furthermore, the mounting protrusion has an internal threaded mounting hole with an opening facing downward; an external thread is provided on an outer wall of the connecting projection end of the filtering drip head, and the connecting projection end is detachably connected to the internal threaded mounting hole through the external thread.

[0017] The following beneficial effects are achieved using the above further solution: the connecting projection end is detachably connected to the internal threaded mounting hole through the external thread, thereby achieving quick assembling and disassembling of the filtering drip heads and the mounting protrusions, and the operation is fast and the manufacturing is simple, which facilitates promotion.

[0018] Furthermore, the fiber mesh layer and the biomass carbon layer are both arc-shaped and bent towards the top of the filtering drip head.

[0019] The following beneficial effects are achieved using the above further solution: the fiber mesh layer and the biomass carbon layer being both arc-shaped and bent towards the top of the filtering drip head enable the water flow to generate whirlpools in the filtering drip head, increasing the contact and improving the filtering efficiency.

[0020] Furthermore, a liquid inlet pipe disposed above the liquid storage tank is also included, and one end of the liquid inlet pipe is connected with the liquid storage tank.

[0021] The following beneficial effects are achieved using the above further solution: auxiliary liquids or irrigation liquids can be added to the liquid storage tank through the liquid inlet pipe, which is simple and convenient.

[0022] Furthermore, a first cross rod, a second cross rod, a first vertical rod and a second vertical rod are also included, the first cross rod and the second cross rod are symmetrically arranged at both sides of the frame body, one end of the first cross rod is fixedly connected with the side surface of the frame body, and the other end of the first cross rod is hinged with one end of the first vertical rod; and one end of the second cross rod is fixedly connected with the side surface of the frame body, and the other end of the second cross rod is hinged with one end of the second vertical rod.

[0023] The following beneficial effects are achieved using the above further solution: the frame body can be erected on the ground through the first cross rod, the second cross rod, the first vertical rod and the second vertical rod, so that the filtering drip heads can target the roots of the vegetation for drip irrigation.

[0024] Furthermore, a first diagonal bracing rod is provided between the first cross rod and the first vertical rod, a through-hole A is provided at lower end of the first diagonal bracing rod, the first vertical rod is provided with a plurality of first fixing holes distributed in equidistance, and the through-hole A is detachably connected with the first fixing holes by bolts.

[0025] A second diagonal bracing rod is provided between the second cross rod and the second vertical rod, a through-hole B is provided at a lower end of the second diagonal bracing rod, the second vertical rod is provided with a plurality of second fixing holes distributed in equidistance, and the through-hole B is detachably connected with the second fixing holes by bolts.

[0026] The following beneficial effects are achieved using the above further solution: an included angle between the first vertical rod and the first cross rod can be changed through the first diagonal bracing rod, and an included angle between the second vertical rod and the second cross rod can be changed through the second diagonal bracing rod, in order to adjust the orientation of the rainwater collecting bucket, which helps to improve the collected amount of rainwater, and is convenient for fixing the first vertical rod and the second vertical rod on an uneven ground in the mining area.

[0027] Furthermore, pointed cone parts are disposed at the bottom of both the first vertical rod and the second vertical rod.

[0028] The following beneficial effects are achieved using the above further solution: the use of the pointed cone parts can increase the stability of the first vertical rod and the second vertical rod when inserted in the soil of the mining area.

[0029] Furthermore, a top cover is provided above the rainwater collecting bucket.

[0030] The following beneficial effects are achieved using the above further solution: the top cover can protect the rainwater collecting bucket, prevent the interior of the rainwater collecting bucket from being damaged, and prolong the service life.

BRIEF DESCRIPTION OF THE DRAWINGS

[0031] FIG. is a front view of the present invention; and

[0032] FIG. 2 shows a filtering drip head according to the present invention.

[0033] In the drawings, the list of parts represented by reference numerals are as follows: 1. frame body; 11. first cross rod; 12. second cross rod; 13. first vertical rod; 131. first fixing hole; 14. second vertical rod; 141. second fixing hole; 15. first diagonal bracing rod; 151. through-hole A; 16. second diagonal bracing rod; 161. through-hole B; 2. liquid storage tank; 21. mounting protrusions; 22. valve switch; 3. filtering drip head; 31. connecting projection end; 32. fiber mess layer; 33. biomass carbon layer; 34. nutrient soil layer; 35. accommodating cavity; 4. rainwater collecting bucket; 5. liquid inlet pipe; 6. pointed cone part; and

7. top cover.

DETAILED DESCRIPTION

[0034] The principles and features of the present invention will be further described hereinafter in combination with the accompanying drawings, and the embodiments described herein are only intended to explain the present invention, rather than limiting the scope of the present invention.

[0035] In the description of the present invention, it should be understood that the orientation or position relationships indicated by the terms "center", "lengthwise", "crosswise" "upper", "lower", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "internal", "external" and the like are based on the orientation or position relationships shown in the accompanying drawings, merely for the convenience of describing the present invention and simplifying the description, rather than indicating or implying that the devices or elements as indicated should have specific orientations or should be configured and operated in a specific orientation, and then should not be construed as limitations to the present invention. In addition, the terms "first", "second" and the like are only intended for description and shall not be construed to indicate or imply relative importance, or imply the number of the indicated technical features. Therefore, the features defined by "first", "second", and the like can indicate or imply that one or more features are included. In the description of the present invention, unless otherwise stated, the meaning of "a plurality of' means two or more.

[0036] In the description of the present invention, it should also be noted that, unless otherwise clearly specified and defined, terms "mount", "connected with" and "connected to" should be understood in a broad sense. For example, it can be afixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium, and it can be an internal communication between two elements. Those persons skilled in the art may understand the specific meaning of the above terms in the present invention according to specific circumstances.

[0037] The present invention will be further described hereinafter in combination with FIG. 1 and FIG. 2.

[0038] Method 1

[0039] In this method, a vegetation drip irrigation device for mining areas is provided. In combination with FIG. 1 and FIG. 2, the device comprises a frame body 1, a liquid storage tank 2, a rainwater collecting bucket 4 and a plurality of filtering drip heads 3.

[0040] The liquid storage tank 2 is fixedly provided in the frame body 1, the rainwater collecting bucket 4 is fixedly provided above the liquid storage tank 2, and the rainwater collecting bucket 4 is connected with the liquid storage tank 2.

[0041] A plurality of mounting protrusions 21 are provided uniformly at the bottom of the liquid storage tank 2, a valve switch 22 is provided on the mounting protrusion 21, and the filtering drip heads 3 correspond to the mounting protrusions 21 one-to-one.

[0042] The filtering drip head 3 has a connecting projection end 31 at the top, the filtering drip head 3 is detachably connected with the mounting protrusion 21 through the connecting projection end 31, a fiber mesh layer 32, a biomass carbon layer 33, a nutrient soil layer 34 and an accommodating cavity 35 are provided in the filtering drip head 3 and sequentially distributed from top to bottom, and a plurality of drip holes communicating with the accommodating cavity 35 are also formed at the bottom the filtering drip head 3.

[0043] This method can solve the technical problem that currently the rainwater in the mining areas contains a relatively high concentration of harmful substances, which is harmful to the growth of vegetation if the polluted rainwater is used for drip irrigation.

[0044] According to this method, the rainwater collecting bucket 4 can transport the rainwater in the mining area to the liquid storage tank 2, and the rainwater is then purified through the filtering drip heads 3, which greatly reduces the concentration of harmful substances in the rainwater and prevents the root system of the vegetation from being polluted. The filtering drip heads 3 can be flexibly mounted on the mounting protrusions 21 at the bottom of the liquid storage tank 2, which helps to replace or clean the filtering drip heads 3 in time, ensures the normal operation of the vegetation drip irrigation device, and is convenient and practical. The biomass carbon layer 33, the fiber mesh layer 32 and the nutrient soil layer 34 of the filtering drip head 3 can purify heavy metals and other pollutants in the rainwater, and at the same time, the organic contents of the rainwater can promote the growth of the vegetation.

[0045] Method 2

[0046] In this method, a vegetation drip irrigation device for mining areas is provided. In combination with FIG. 1 and FIG. 2, the device comprises a frame body 1, a liquid storage tank 2, a rainwater collecting bucket 4 and a plurality of filtering drip heads 3.

[0047] The liquid storage tank 2 is fixedly provided in the frame body 1, the rainwater collecting bucket 4 is fixedly provided above the liquid storage tank 2, and the rainwater collecting bucket 4 is connected with the liquid storage tank 2.

[0048] A plurality of mounting protrusions 21 are provided uniformly at the bottom of the liquid storage tank 2, a valve switch 22 are provided on the mounting protrusion 21, and the filtering drip heads 3 correspond to the mounting protrusions 21 one-to-one.

[0049] The filtering drip head 3 has a connecting projection end 31 at the top, the filtering drip head 3 is detachably connected with the mounting protrusion 21 through the connecting projection end 31, a fiber mesh layer 32, a biomass carbon layer 33, a nutrient soil layer 34 and an accommodating cavity 35 are provided in the filtering drip head 3 and sequentially distributed from top to bottom, and a plurality of drip holes communicating with the accommodating cavity 35 are also formed at the bottom the filtering drip head 3.

[0050] The mounting protrusion 21 has an internal threaded mounting hole with an opening facing downward, an external thread is provided on an outer wall of the connecting projection end 31 of the filtering drip head 3, and the connecting projection end 31 is detachably connected to the internal threaded mounting hole through the external thread.

[0051] A first cross rod 11, a second cross rod 12, a first vertical rod 13 and a second vertical rod 14 are also included, the first cross rod 11 and the second cross rod 12 are symmetrically arranged at both sides of the frame body 1, one end of the first cross rod 11 is fixedly connected with a side surface of the frame body 1, and the other end of the first cross rod 11 is hinged with one end of the first vertical rod 13, one end of the second cross rod 12 is fixedly connected with a side surface of the frame body 1, and the other end of the second cross rod 12 is hinged with one end of the second vertical rod 14.

[0052] In this way, the frame body 1 can be erected on the ground through the first cross rod 11, the second cross rod 12, the first vertical rod 13 and the second vertical rod 14, so that the filtering drip heads 3 can target the roots of the vegetation for drip irrigation. The connecting projection ends 31 is detachably connected to the internal threaded mounting hole through the external thread, thereby achieving quick assembling and disassembling of the filtering drip heads 3 and the mounting protrusions 21, and the operation is fast and the manufacturing is simple, which facilitates promotion.

[0053] Furthermore, the fiber mesh layer 32 and the biomass carbon layer 33 are both arc-shaped and bent towards the top of the filtering drip head 3.

[0054] In this way, the fiber mesh layer and the biomass carbon layer being both arc-shaped and bent towards the top of the filtering drip head enable the water flow to generate whirlpools in the filtering drip head 3, increasing the contact and improving the filtering efficiency.

[0055] Furthermore, a liquid inlet pipe 5 disposed above the liquid storage tank 2 is also included, and one end of the liquid inlet pipe 5 is connected with the liquid storage tank 2.

[0056] In this way, auxiliary liquids or irrigation liquids can be added to the liquid storage tank 2 through the liquid inlet pipe 5, which is simple and convenient.

[0057] Furthermore, a first diagonal bracing rod 15 is provided between the first cross rod 11 and the first vertical rod 13, a through-hole A 151 is provided at a lower end of the first diagonal bracing rod 15, the first vertical rod 13 is provided with a plurality of first fixing holes 131 distributed in equidistance, and the through-hole A 151 is detachably connected with the first fixing holes 131 by bolts.

[0058] A second diagonal bracing rod 16 is provided between the second cross rod 12 and the second vertical rod 14, a through-hole B 161 is provided at a lower end of the second diagonal bracing rod 16, the second vertical rod 14 is provided with a plurality of second fixing holes 141 distributed in equidistance, and the through-hole B 161 is detachably connected with the second fixing holes 141 by bolts.

[0059] In this way, an included angle between the first vertical rod 13 and the first cross rod 11 can be changed through the first diagonal bracing rod 15, and an included angle between the second vertical rod 14 and the second cross rod 12 can be changed through the second diagonal bracing rod 16, in order to adjust the orientation of the rainwater collecting bucket 4, which helps to improve the collected amount of rainwater, and is convenient for fixing the first vertical rod 13 and the second vertical rod 14 on an uneven ground in the mining area.

[0060] Furthermore, pointed cone parts 6 are disposed at the bottom of both the first vertical rod 13 and the second vertical rod 14.

[0061] In this way, the use of the pointed cone parts 6 can increase the stability of the first vertical rod 13 and the second vertical rod 14 when inserted in the soil of the mining area.

[0062] Furthermore, a top cover 7 is provided above the rainwater collecting bucket 4.

[0063] In this way, the top cover 7 can protect the rainwater collecting bucket 4, prevent the interior of the rainwater collecting bucket 4 from being damaged, and prolong the service life.

[0064] Operating principle and steps:

[0065] In S, during operation, the frame body 1 and the liquid storage tank are arranged above the vegetation in the mining area, and the bottom of the filtering drip heads 3 faces the vegetation.

[0066] In S2, the frame body 1 is inserted into the soil of the mining area at both sides through the first vertical rod 13 and the second vertical rod 14, and the positions of the filtering drip heads 3 are fixed.

[0067] In S3, the valve switches 22 of the mounting protrusions 21 are opened, so that the liquid in the liquid storage tank 2 flows into the filtering drip heads 3 and drips to the vegetation after sequentially passing through the fiber mesh layer 32, the biomass carbon layer 33, the nutrient soil layer 34 and the accommodating cavity 35.

[0068] The above description is only preferred embodiments of the present invention, and is not intended to limit the present invention. Any modifications, equivalent replacements, improvements and the like made within the spirit and principles of the present invention should be included within the scope of protection of the present invention.

Claims (8)

1. What is claimed is: 1. A vegetation drip irrigation device for mining areas, comprising: a frame body (1), a liquid

   storage tank (2), a rainwater collecting bucket (4) and a plurality of filtering drip heads (3), wherein,

   the liquid storage tank (2) is fixedly provided in the frame body (1), the rainwater collecting

   bucket (4) is fixedly provided above the liquid storage tank (2), and the rainwater collecting bucket

   (4) is connected with the liquid storage tank (2);

   a plurality of mounting protrusions (21) are provided uniformly at the bottom of the liquid

   storage tank (2), a valve switch (22) is provided on the mounting protrusion (21), and the filtering

   drip heads (3) correspond to the mounting protrusions (21) one-to-one; and

   the filtering drip head (3) has a connecting projection end (31) at the top; the filtering drip

   head (3) is detachably connected with the mounting protrusion (21) through the connecting

   projection end (31); a fiber mesh layer (32), a biomass carbon layer (33), a nutrient soil layer (34)

   and an accommodating cavity (35) are provided in the filtering drip head (3) and sequentially

   distributed from top to bottom; and a plurality of drip holes communicating with the

   accommodating cavity (35) are formed at the bottom of the filtering drip head (3).
2. 2. The vegetation drip irrigation device for mining areas according to claim 1, wherein the

   mounting protrusion (21) has an internal threaded mounting hole with an opening facing downward,

   an external thread is provided an outer wall of the connecting projection end (31) of thefiltering

   drip head (3), and the connecting projection end (31) is detachably connected to the internal

   threaded mounting hole through the external thread.
3. 3. The vegetation drip irrigation device for mining areas according to claim 1, wherein the

   fiber mesh layer (32) and the biomass carbon layer (33) are both arc-shaped and bent towards the

   top of the filtering drip head (3).
4. 4. The vegetation drip irrigation device for mining areas according to claim 1, further

   comprising a liquid inlet pipe (5) disposed above the liquid storage tank (2), one end of the liquid

   inlet pipe (5) being connected with the liquid storage tank (2).
5. 5. The vegetation drip irrigation device for mining areas according to any one of claims 1-4,

   further comprising: a first cross rod (11), a second cross rod (12), a first vertical rod (13) and a

   second vertical rod (14), wherein the first cross rod (11) and the second cross rod (12) are

   symmetrically arranged at both sides of the frame body (1), one end of the first cross rod (11) is

   fixedly connected with a side surface of the frame body (1), and the other end of the first cross rod

   (11) is hinged with one end of the first vertical rod (13); and one end of the second cross rod (12)

   is fixedly connected with a side surface of the frame body (1), and the other end of the second cross

   rod (12) is hinged with one end of the second vertical rod (14).
6. 6. The vegetation drip irrigation device for mining areas according to claim 5, wherein a first

   diagonal bracing rod (15) is provided between the first cross rod (11) and the first vertical rod (13),

   a through-hole A (151) is provided at a lower end of the first diagonal bracing rod (15), the first

   vertical rod (13) is provided with a plurality of first fixing holes (131) distributed in equidistance,

   and the through-hole A (151) is detachably connected with the first fixing holes (131) by bolts; and

   a second diagonal bracing rod (16) is provided between the second cross rod (12) and the

   second vertical rod (14), a through-hole B (161) is provided at a lower end of the second diagonal

   bracing rod (16), the second vertical rod (14) is provided with a plurality of second fixing holes

   (141) distributed in equidistance, and the through-hole B (161) is detachably connected with the

   second fixing holes (141) by bolts.
7. 7. The vegetation drip irrigation device for mining areas according to claim 5, wherein pointed

   cone parts (6) are provided at the bottom of both the first vertical rod (13) and the second vertical

   rod (14).
8. 8. The vegetation drip irrigation device for mining areas according to any one of claims 1-4,

   wherein a top cover (7) is provided above the rainwater collecting bucket (4).