CN113973640A - Forest cultivation device based on protection and utilization of forest and grass resources - Google Patents

Abstract

The invention belongs to the technical field of forest cultivation, and particularly relates to a forest cultivation device based on forest and grass resource protection and utilization; comprises a protection unit; the protection unit surrounds the sapling body and is used for protecting the sapling; a water supply unit; the water supply unit is fixedly connected with the lower surface of the protection unit and is used for providing moisture for the saplings; a water storage unit; the water storage unit is arranged on the water supply unit and is used for storing water so as to prevent the water from rapidly losing; the invention mainly aims to solve the problems that when trees are planted in a desert, the seedlings need to be watered after being planted, however, due to high desert temperature, water can be quickly lost after the water is poured, the moisture absorbed by the seedlings is less, so that the seedlings are easy to be drought, lack of water and even die, and if the seedlings are watered with too much water, sufficient water can be provided for the seedlings, but water source waste can occur.

Description

Forest cultivation device based on protection and utilization of forest and grass resources

Technical Field

The invention belongs to the technical field of forest cultivation, and particularly relates to a forest cultivation device based on forest and grass resource protection and utilization.

Background

With the rapid development of economy in China, ecological construction, particularly forestry construction, is greatly improved. The forest seedling not only needs to meet the requirements of quantity, but also needs to meet the requirements of variety and ocean. Therefore, the seedling cultivation work is required to be emphasized, and in the forestry development process taking ecological construction as guidance, seedlings are preferentially developed and the seedling cultivation technology is continuously improved; however, the existing forest trees still have some problems in cultivation, which specifically include the following aspects:

when planting trees in the desert among the prior art, after the sapling is planted, need water the sapling, however because the desert temperature is high, after water has watered, moisture can run off fast, and the sapling absorbed moisture is less to make the sapling appear the condition of drought, lack of water or even death easily, if water too much to the sapling, though can provide sufficient moisture for the sapling, the extravagant problem in water source can appear.

In view of this, in order to overcome the above technical problems, the present invention designs and develops a forest cultivation device based on the protection and utilization of forest and grass resources, and solves the above technical problems.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides a forest cultivation device based on the protection and utilization of forest and grass resources, which is mainly used for solving the problems that when trees are planted in a desert, the seedlings need to be watered after the seedlings are planted, however, due to high desert temperature, water can be quickly lost after the water is poured, the moisture absorbed by the seedlings is less, so that the seedlings are easy to be drought, lack of water and even die, and if too much water is poured to the seedlings, sufficient water can be provided for the seedlings, but water sources are wasted.

The technical scheme adopted by the invention for solving the technical problems is as follows: the invention relates to a forest cultivation device based on forest and grass resource protection and utilization, which comprises

A protection unit; the protection unit surrounds the sapling body and is used for protecting the sapling;

a water supply unit; the water supply unit is fixedly connected with the lower surface of the protection unit and is used for providing moisture for the saplings;

a water storage unit; the water storage unit is arranged on the water supply unit and used for storing water, and the water storage unit is used for preventing the water from losing rapidly.

Preferably, the protection unit includes:

two semicircular rings; the two semicircular rings are rotationally connected through a rotating shaft, and the two semicircular rings are oppositely attached to form a whole circular ring; the upper surfaces of the two semicircular rings are fixedly connected with buckles; liquid cavities are formed in the two semicircular rings; the liquid cavity is connected with a push block in a sliding way through a spring; the upper surfaces of the two semicircular rings are fixedly connected with liquid inlet pipes which are communicated with one sides of the push blocks, which are far away from the springs;

the water supply unit includes:

a plurality of plugboards; each inserting plate is fixedly connected with the corresponding semicircular ring; an inner cavity is formed in each inserting plate and is communicated with the liquid cavity in the semicircular ring; and a penetration hole is formed in the inner wall of the insert plate at one side opposite to each insert plate.

Preferably, each permeation hole is internally hinged with a permeation tube, and the permeation tube is communicated with the inner cavity of the insert plate.

Preferably, the water storage unit includes:

a plurality of water storage plates; a water storage plate is hinged in the inner wall of each inserting plate below the permeation tube; and the side edges of each water storage plate are mutually attached to form a conical bin.

Preferably, a sliding block is hinged to one side, close to the adjacent inserting plate, of each water storage plate; each side of the inserting plate adjacent to the water storage plate and the inner wall of the inserting plate are provided with sliding grooves, and the sliding blocks are matched with the sliding grooves.

Preferably, the device further comprises a supply unit; the supply unit comprises a supporting plate made of elastic materials; the supporting plate is L-shaped; the lower surface of the supporting plate is fixedly connected with a first magnetic block; a slideway matched with the first magnetic block is arranged in the inner wall of the semicircular plate; the push block is a magnet block, and the magnetism of the push block is opposite to that of the first magnetic block.

Preferably, a cavity is formed in the inner wall of the supporting plate and is used for introducing water; the lower surface of the supporting plate is fixedly connected with a dropper.

Preferably, the supporting plate is made of elastic rubber materials.

The invention has the following beneficial effects:

1. when water is introduced, the water in the inner cavity of the insert plate can gradually permeate outwards through the permeation holes, so that moisture is provided for the saplings, a large amount of water can be prevented from being directly irrigated after the saplings are planted in the process, the moisture can be rapidly lost, the saplings can absorb less moisture and waste water resources can be caused, a large amount of water sources can be prevented from being used due to long-time water seepage through the permeation holes, the permeation holes are arranged around the saplings, so that the saplings can be provided with moisture for a long time, the saplings can be prevented from being lack of water and from dying due to drought, the water in the inner cavity is gradually reduced, the water in the liquid cavity can supplement water to the inner cavity, so that the water supply time can be further prolonged, meanwhile, the push block can push the water to flow into the inner cavity of the insert plate under the action of the spring, the moisture in the liquid cavity of the semicircular ring can be prevented, meanwhile, due to the existence of the semicircular ring for storing water, sandy soil around the saplings can be compacted, prevent the sandy soil from drifting away along with the wind, so that the root of the sapling is close to the ground, and prevent the sapling from falling.

2. Because the infiltration pipe is articulated with the picture peg, when planting the sapling, can rotate the infiltration pipe, make the infiltration pipe be close to the sapling root, because infiltration pipe and inner chamber intercommunication, the water of picture peg inner chamber can flow in through the infiltration pipe and be close to the root position to can reduce the flow path of water, make water can be fast and the contact of sapling root, can reduce the loss of water yield at this in-process, can also make the sapling absorb more moisture simultaneously, make the sapling grow up fast.

3. After the rivers in the infiltration pipe flow into sandy soil, the water that flows into sandy soil still can flow downwards, through the conical bin that a plurality of water storage boards formed, can store part of water in water storage board top for the short time, can slow down the loss speed of water at this in-process, make the sapling absorb more moisture, because have certain distance between sapling root and the water storage board, the water on the water storage board can induce the sapling root to extend to the water storage board position, thereby can improve the sapling and prick the degree of depth of root, improve the anti-wind ability.

Drawings

The invention will be further explained with reference to the drawings.

FIG. 1 is a body diagram of the present invention;

FIG. 2 is a block diagram of the present invention;

FIG. 3 is a half sectional view of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

in the figure:

1. a protection unit; 11. a semicircular ring; 12. a liquid chamber; 13. a push block; 14. a liquid inlet pipe; 2. a water supply unit; 21. inserting plates; 22. an inner cavity; 23. a penetration hole; 24. a permeate tube; 3. a water storage unit; 31. a water storage plate; 32. a slider; 33. a chute; 4. a replenishment unit; 41. a support plate; 42. a first magnetic block; 43. a slideway; 44. a dropper;

Detailed Description

As shown in fig. 1-5, the forest cultivation device based on the protection and utilization of forest and grass resources according to the present invention comprises a protection unit 1; the protection unit 1 surrounds the sapling body, and the protection unit 1 is used for protecting the sapling;

a water supply unit 2; the water supply unit 2 is fixedly connected with the lower surface of the protection unit 1, and the water supply unit 2 is used for providing moisture for the saplings;

a water storage unit 3; the water storage unit 3 is arranged on the water supply unit 2, and the water storage unit 3 is used for storing water to prevent the water from rapidly losing;

in the prior art, when a tree is planted in a desert, the tree seedling needs to be watered after being planted, however, due to the high desert temperature, water can be quickly lost after the water is poured, and the water absorbed by the tree seedling is less, so that the tree seedling is easy to be drought, lack of water or even die;

according to the forest cultivation system manufactured by the invention, the protection unit 1 is arranged to compact and fix the sandy soil around the saplings, so that the sandy soil around the saplings is prevented from drifting with wind, the roots of the saplings are prevented from approaching the ground gradually, and the saplings are prevented from toppling over.

As an embodiment of the present invention, the protection unit 1 includes:

two semicircular rings 11; the two semicircular rings 11 are rotatably connected through a rotating shaft, and the two semicircular rings 11 are oppositely attached to form a whole circular ring; the upper surfaces of the two semicircular rings 11 are fixedly connected with buckles; liquid cavities 12 are formed in the two semicircular rings 11; a pushing block 13 is connected in the liquid cavity 12 in a sliding manner through a spring; the upper surfaces of the two semicircular rings 11 are fixedly connected with liquid inlet pipes 14, and the liquid inlet pipes 14 are communicated with one sides of the push blocks 13 far away from the springs;

the water supply unit 2 includes:

a plurality of insert plates 21; each inserting plate 21 is fixedly connected with the corresponding semicircular ring 11; an inner cavity 22 is formed in each inserting plate 21, and the inner cavity 22 is communicated with the liquid cavity 12 in the semicircular ring 11; a penetration hole 23 is formed in the inner wall of each insert plate 21 at one side opposite to each insert plate 21;

when the planting device works, when a tree seedling needs to be planted, firstly, a pit is dug on sandy soil, then two semicircular rings 11 are clamped through a buckle, a synthesized circular ring is placed on the periphery of the dug pit to surround the dug pit, meanwhile, in the process of placing the semicircular rings 11, the evenly-arranged inserting plates 21 are inserted into the pit, then the tree seedling is planted in the center of the circular ring formed by the semicircular rings 11, then, water is introduced into the liquid cavity 12 through the liquid inlet pipe 14, because the liquid cavity 12 is communicated with the inner cavity 22, the water in the liquid cavity 12 firstly flows into the inner cavity 22, because the water yield of the permeation holes 23 is far less than the water inlet quantity of the liquid inlet pipe 14, the inner cavity 22 in the inserting plates 21 can be quickly filled, when the inner cavity 22 of the inserting plates 21 is full of water, the water can be stored in the liquid cavity 12 of the semicircular rings 11, because the liquid inlet pipe 14 is arranged on one side of the pushing block 13 far away from the spring, and when more water in the liquid cavity 12 gradually increases, will push the push block 13, make the push block 13 move to one side of the spring, after water lets in and finishes, the water in the cavity 22 of the insert plate 21 will permeate outward gradually through the penetration hole 23 at this moment, thus provide the moisture for the sapling, can avoid watering a large amount of water directly after the sapling is planted in this process, make the moisture run off rapidly, thus not only make the sapling absorb less moisture, but also cause the water waste, through the long-time infiltration of the penetration hole 23, can prevent using a large amount of water sources, because the penetration hole 23 is set up around the sapling, can provide the moisture for the sapling for a long time, prevent the sapling from lack of water, cause the drought and die, along with the water in the cavity 22 reduces gradually, the water in the liquid cavity 12 will supplement the cavity 22, thus can further improve the water supply time, meanwhile the push block 13 will promote the water to flow into the cavity 22 of the insert plate 21 under the influence of the spring, prevent the residual moisture in the liquid cavity 12 of the semicircular ring 11, meanwhile, due to the existence of the water storage semicircular ring 11, sandy soil around the saplings can be compacted, so that the sandy soil is prevented from drifting with wind, the roots of the saplings are close to the ground, and the saplings are prevented from toppling;

after the sapling survives, through artifical both sides semicircle ring 11 of holding to upwards pulling, because picture peg 21 is straight plate form, thereby can extract picture peg 21, step on the sapling sand soil of reality with the foot after picture peg 21 extracts, then untie the buckle, thereby can make semicircle ring 11 separate, make semicircle ring 11 not live the sapling in the circle, collect afterwards, be convenient for use next time.

As an embodiment of the invention, a permeation tube 24 is hinged in the inner wall of each permeation hole 23, and each permeation tube 24 is communicated with the inner cavity 22 in the insert plate 21;

during operation, because the infiltration pipe 24 is articulated with picture peg 21, when planting the sapling, can rotate infiltration pipe 24, make infiltration pipe 24 be close to the sapling root, because infiltration pipe 24 and inner chamber 22 intercommunication, the water of picture peg 21 inner chamber 22 can flow into through infiltration pipe 24 and be close to the root position, thereby can reduce the flow path of water, make water can contact with the sapling root fast, can reduce the loss of water yield in this in-process, can also make the sapling absorb more moisture simultaneously, make the sapling grow up fast, after the sapling survives, when needing to extract picture peg 21, because infiltration pipe 24 is articulated with picture peg 21, in the in-process of extracting picture peg 21, infiltration pipe 24 can take place to rotate, and be close to picture peg 21 gradually, can prevent that infiltration pipe 24 from taking out unnecessary sand soil in this in-process, the condition of collapsing from appearing around the sapling.

As an embodiment of the present invention, the water storage unit 3 includes:

a plurality of water storage plates 31; a water storage plate 31 is hinged in the inner wall of each inserting plate 21 below the permeation tube 24; the side edges of each water storage plate 31 are mutually attached to form a conical bin;

when the plant is planted, after the inserting plate 21 is inserted into the dug pit, the side edges of the water storage plates 31 are manually attached to form a conical bin, sandy soil is filled in the conical bin, and finally the plant is planted, after water in the permeation tube 24 flows into the sandy soil, the water flowing into the sandy soil still flows downwards, and part of the water can be stored above the water storage plates 31 in a short time through the conical bin formed by the water storage plates 31, so that the loss speed of the water can be reduced in the process, the plant can absorb more water, because a certain distance is reserved between the root of the plant and the water storage plates 31, the water on the water storage plates 31 can induce the root of the plant to extend to the positions of the water storage plates 31, the root-pricking depth of the plant can be improved, the wind resistance can be improved, when the inserting plate 21 needs to be pulled out after the plant, because the water storage plates 31 are hinged with the inserting plate 21, in the process of pulling out the inserting plate 21, the water storage plate 31 can rotate and gradually approach the inserting plate 21, so that more sandy soil can be prevented from being brought out by the water storage plate 31 in the process, and the situation of collapse around the saplings is prevented.

As an embodiment of the invention, a sliding block 32 is hinged to one side of each water storage plate 31 close to the adjacent inserting plate 21; a sliding groove 33 is formed in one side of each inserting plate 21 adjacent to the water storage plate 31 and the inner wall of the inserting plate 21, and the sliding block 32 is matched with the sliding groove 33;

the during operation is because the water storage plate 31 mutually supports through slider 32 and spout 33 to can adjust the position of water storage plate 31, when planting other plants, can adjust the position of water storage plate 31 and plant root through slider 32 and spout 33, thereby prevent that the distance of water storage plate 31 and plant root is too far away or too near, thereby can not reach the water storage and supply the absorptive effect of plant root.

As an embodiment of the present invention, the present invention further includes a replenishment unit 4; the supply unit 4 comprises a support plate 41, and the support plate 41 is made of an elastic material; the supporting plate 41 is L-shaped; the lower surface of the supporting plate 41 is fixedly connected with a first magnetic block 42; a slideway 43 matched with the first magnetic block 42 is arranged in the inner wall of the semicircular plate; the push block 13 is a magnet block, and the magnetism of the push block 13 is opposite to that of the first magnetic block 42;

when the device works, the sapling can be surrounded by the supporting plate 41 by arranging the supporting plate 41, so that the sapling is prevented from being scraped to incline when wind is high, meanwhile, when water in the liquid cavity 12 gradually decreases, the push block 13 moves to one side close to the sapling under the action of the spring, the push block 13 and the first magnetic block 42 have opposite magnetism, so that the first magnetic block 42 can be driven to slide to move, the supporting plate 41 can be driven to move in the moving process of the first magnetic block 42, when the push block 13 moves to the limit position, the supporting plate 41 is attached to the sapling, when the push block 13 moves to the limit position, the water in the liquid cavity 12 is proved to have run off, so that a worker can be reminded, when the water in the inner cavity 22 of the inserting plate 21 is run off again, sandy soil around the sapling can be dried to cause loose sandy soil, and the supporting plate 41 is attached to the sapling, so that the contact part of the sapling and the sandy soil can be prevented from shaking in a large range, thereby reducing the joint degree of the sapling and the sandy soil and leading the sapling to be toppled.

As an embodiment of the present invention, a cavity is opened in the inner wall of the supporting plate 41, and the cavity is used for introducing water; a dropper 44 is fixedly connected to the lower surface of the supporting plate 41;

during operation, because the supporting plate 41 is made of elastic material, after the sapling contacts the supporting plate 41, the sapling can extrude the supporting plate 41, at the moment, water in the supporting plate 41 can be extruded out through the dropper 44, the extruded water can fall on the root of the sapling, secondary water replenishing can be carried out on the sapling in the process, so that the sapling is prevented from being drought and dead, meanwhile, the inflow water can make sandy soil heavy, and the dispersion of the sandy soil at the root of the sapling can be reduced.

As an embodiment of the present invention, the supporting plate 41 is made of an elastic rubber material;

in operation, because the supporting plate 41 is made of elastic rubber material, when the sapling contacts with the supporting plate 41, the extrusion degree of the supporting plate 41 can be increased, so that more water can be extruded out, and meanwhile, when the sapling grows to be thicker, the supporting plate 41 cannot cause too large limitation to the sapling.

The specific working process is as follows:

when a tree seedling is needed to be planted, firstly, a pit is dug on sandy soil, then two semicircular rings 11 are clamped through a buckle, a synthesized circular ring is placed on the periphery of the dug pit, the dug pit is surrounded by the formed circular ring, meanwhile, in the process of placing the semicircular rings 11, the evenly-arranged inserting plates 21 are inserted into the pit, then the tree seedling is planted in the center of the circular ring formed by the semicircular rings 11, then water is introduced into the liquid cavity 12 through the liquid inlet pipe 14, because the liquid cavity 12 is communicated with the inner cavity 22, the water in the liquid cavity 12 flows into the inner cavity 22 firstly, because the water outlet quantity of the permeation holes 23 is far smaller than the water inlet quantity of the liquid inlet pipe 14, the inner cavity 22 in the inserting plates 21 can be filled quickly, when the inner cavity 22 of the inserting plates 21 is filled with water, the water can be stored in the liquid cavity 12 of the semicircular rings 11 at the moment, because the liquid inlet pipe 14 is arranged on one side of the pushing block 13 far away from the spring, when the water in the liquid cavity 12 is gradually increased, will push the push block 13, make the push block 13 move to one side of the spring, after water lets in and finishes, the water in the cavity 22 of the insert plate 21 will permeate outward gradually through the penetration hole 23 at this moment, thus provide the moisture for the sapling, can avoid watering a large amount of water directly after the sapling is planted in this process, make the moisture run off rapidly, thus not only make the sapling absorb less moisture, but also cause the water waste, through the long-time infiltration of the penetration hole 23, can prevent using a large amount of water sources, because the penetration hole 23 is set up around the sapling, can provide the moisture for the sapling for a long time, prevent the sapling from lack of water, cause the drought and die, along with the water in the cavity 22 reduces gradually, the water in the liquid cavity 12 will supplement the cavity 22, thus can further improve the water supply time, meanwhile the push block 13 will promote the water to flow into the cavity 22 of the insert plate 21 under the influence of the spring, prevent the residual moisture in the liquid cavity 12 of the semicircular ring 11, meanwhile, due to the existence of the water storage semicircular ring 11, sandy soil around the saplings can be compacted, so that the sandy soil is prevented from drifting with wind, the roots of the saplings are close to the ground, and the saplings are prevented from toppling;

after the sapling survives, through artifical both sides semicircle ring 11 of holding to upwards pulling, because picture peg 21 is straight plate form, thereby can extract picture peg 21, step on the sapling sand soil of reality with the foot after picture peg 21 extracts, then untie the buckle, thereby can make semicircle ring 11 separate, make semicircle ring 11 not live the sapling in the circle, collect afterwards, be convenient for use next time.

The foregoing embodiments illustrate and describe the principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. A forest cultivation device based on the protection and utilization of forest and grass resources; the method is characterized in that: comprises that

A protection unit (1); the protection unit (1) surrounds the sapling body, and the protection unit (1) is used for protecting the sapling;

a water supply unit (2); the water supply unit (2) is fixedly connected with the lower surface of the protection unit (1), and the water supply unit (2) is used for providing moisture for the saplings;

a water storage unit (3); the water storage unit (3) is arranged on the water supply unit (2), and the water storage unit (3) is used for storing water and preventing the water from rapidly losing.

2. The forest cultivation device based on the protection and utilization of forest and grass resources as claimed in claim 1, wherein: the protection unit (1) comprises:

two semicircular rings (11); the two semicircular rings (11) are rotationally connected through a rotating shaft, and the two semicircular rings (11) are relatively attached to form a whole circular ring; the upper surfaces of the two semicircular rings (11) are fixedly connected with buckles; liquid cavities (12) are formed in the two semicircular rings (11); a push block (13) is connected in the liquid cavity (12) in a sliding way through a spring; the upper surfaces of the two semicircular rings (11) are fixedly connected with liquid inlet pipes (14), and the liquid inlet pipes (14) are communicated with one sides of the push blocks (13) far away from the springs;

the water supply unit (2) includes:

a plurality of insert plates (21); each inserting plate (21) is fixedly connected with the corresponding semicircular ring (11); an inner cavity (22) is formed in each inserting plate (21), and the inner cavity (22) is communicated with the liquid cavity (12) in the semicircular ring (11); and a penetration hole (23) is formed in the inner wall of each insert plate (21) at one side opposite to each insert plate (21).

3. The forest cultivation device based on the protection and utilization of forest and grass resources as claimed in claim 2, wherein: each permeation hole (23) is internally hinged with a permeation tube (24), and the permeation tube (24) is communicated with an inner cavity (22) in the insert plate (21).

4. A forest cultivation device based on protection and utilization of forest and grass resources as claimed in claim 3, wherein: the water storage unit (3) includes:

a plurality of water storage plates (31); a water storage plate (31) is hinged in the inner wall of each inserting plate (21) below the permeation tube (24); the side edges of each water storage plate (31) are mutually attached to form a conical bin.

5. A forest cultivation device based on protection and utilization of forest and grass resources as claimed in claim 4, wherein: one side of each water storage plate (31) close to the adjacent inserting plate (21) is hinged with a sliding block (32); each side of the inserting plate (21) adjacent to the water storage plate (31) and the inner wall of the inserting plate (21) are respectively provided with a sliding groove (33), and the sliding block (32) is matched with the sliding groove (33).

6. The forest cultivation device based on the protection and utilization of forest and grass resources as claimed in claim 1, wherein: also comprises a supply unit (4); the supply unit (4) comprises a supporting plate (41), and the supporting plate (41) is made of elastic materials; the supporting plate (41) is L-shaped; the lower surface of the supporting plate (41) is fixedly connected with a first magnetic block (42); a slideway (43) matched with the first magnetic block (42) is arranged in the inner wall of the semicircular plate; the push block (13) is a magnet block, and the magnetism of the push block (13) is opposite to that of the first magnetic block (42).

7. A forest cultivation device based on protection and utilization of forest and grass resources as claimed in claim 6, wherein: a cavity is formed in the inner wall of the supporting plate (41) and is used for introducing water; a dropper (44) is fixedly connected to the lower surface of the supporting plate (41).

8. A forest cultivation device based on protection and utilization of forest and grass resources as claimed in claim 6, wherein: the supporting plate (41) is made of elastic rubber materials.

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