CN111492841A - Horticultural plant soil humidity maintenance device and maintenance process thereof - Google Patents

Abstract

The invention discloses a horticultural plant soil humidity maintenance device and a maintenance process thereof, wherein the horticultural plant soil humidity maintenance device comprises a water storage tank buried between adjacent trees, and the upper part of the water storage tank is provided with a windproof reinforcing section which extends outwards; the upper end of the planting soil layer is flush with the ground; a plurality of water seepage holes are formed on the water seepage pipe positioned on the outer side of the water storage tank; and a fixed anchor block pre-buried in the soil layer is arranged below the water storage tank. The fixed anchor block is provided with a plurality of connecting columns, the bottom of the water storage tank is provided with second through holes which are in one-to-one correspondence with the connecting columns and through which the connecting columns penetrate, the bottom of the water storage tank is detachably and fixedly connected with the connecting columns through connecting pieces, and first sealing pieces are arranged between the connecting columns and the second through holes. Compared with the prior art, the water storage tank with the windproof reinforcing section, the fixed anchor block and the connecting column are arranged, so that the humidity of soil where the trees are located can be supplemented through the water seepage pipe on the water storage tank, the windproof capability of the trees is enhanced, and the urban gardening trees can grow normally.

Description

Horticultural plant soil humidity maintenance device and maintenance process thereof

Technical Field

The invention relates to the field of plant maintenance, in particular to a horticultural plant soil humidity maintenance device and a maintenance process thereof.

Background

Along with the process of urbanization and the improvement of living standard of people, a plurality of parks and vegetable gardens are built in cities for people to enjoy leisure and entertainment. A large number of trees are planted in parks and plant gardens, watering maintenance needs to be carried out on a large number of gardening workers, and if watering is not timely, water shortage of the trees caused by insufficient water in soil often occurs, so that normal growth of the trees is influenced.

Coastal areas are often affected by typhoon in summer, and artificially planted trees in parks and vegetable gardens are often uprooted under the action of strong wind due to shallow root systems. After the typhoon weather passes, a large amount of manpower and material resources are needed to re-right and restore the fallen trees.

After the trees grow to a certain age, the trees do not meet the ornamental requirement, and new saplings need to be replaced for planting. The roots of the trees before the ground are required to be removed before the trees are planted again, so that workers are required to excavate the roots to the bottoms of the roots from the ground, and the process is very troublesome.

In view of the above, the applicant has made an intensive study on the above-mentioned defects in the prior art, and has made this invention.

Disclosure of Invention

The invention mainly aims to provide a horticultural plant soil humidity maintenance device and a maintenance process thereof, which have the characteristics of collecting rainwater to irrigate soil at the root of a tree and improving the wind resistance of the tree. The influence of the insufficient soil humidity on the normal growth of the trees is avoided.

In order to achieve the above purpose, the solution of the invention is:

a soil humidity maintenance device for horticultural plants comprises a water storage tank buried between adjacent trees, wherein the upper part of the water storage tank is provided with a windproof reinforcing section extending outwards, the upper part of an inner cavity of the water storage tank is provided with a supporting rib, and the supporting rib is sequentially provided with a permeable partition plate, a gravel layer, a planting soil layer and a herbaceous plant layer from bottom to top; the upper end of the planting soil layer is flush with the ground;

a first through hole is formed in the inner side wall of the water storage tank, a water seepage pipe penetrates through the first through hole, and the water seepage pipe is detachably connected with the inner side wall of the water storage tank through a flange; a plurality of water seepage holes are formed on the water seepage pipe positioned on the outer side of the water storage tank;

and a fixed anchor block pre-buried in the soil layer is arranged below the water storage tank. Be provided with a plurality of spliced poles on the fixed anchor piece, the catch basin bottom be provided with spliced pole one-to-one and confession the second through-hole that the spliced pole passed, the catch basin bottom through the connecting piece with fixed connection can be dismantled to the spliced pole, the spliced pole with be provided with first sealing member between the second through-hole.

Further, the fixed anchor block is made of reinforced concrete; the connecting column is a steel column made of steel.

Further, at least two lifting hooks are arranged on the inner side wall of the water storage tank.

Furthermore, the position of the inner cavity bottom of the water storage tank corresponding to the second through hole is provided with a bearing platform, the upper end of the bearing platform is higher than the inner cavity bottom of the water storage tank, the upper end of the connecting column is in threaded connection with a fixing nut, and the lower end of the fixing nut abuts against the upper surface of the bearing platform.

Furthermore, the water storage tank inner cavity bottom can be dismantled and be provided with and cover the cushion cap with fixation nut's safety cover, the safety cover with be provided with the second sealing member between the inner cavity bottom of water storage tank.

Further, the water storage tank is made of steel, and a corrosion-resistant protective layer is coated on the outer side of the water storage tank.

Furthermore, the width of the fixed anchor block is larger than the maximum width between the windproof reinforcing sections on the two sides of the water storage tank.

Further, be provided with soil moisture sensor in the soil layer outside the catch basin, the infiltration pipe is located the one end of catch basin inner chamber is provided with the electric control valve, soil moisture sensor with the electric control valve is connected with the controller respectively.

Furthermore, a third sealing element is connected between a flange on the water seepage pipe and the inner side wall of the water storage tank.

A soil humidity maintenance process for horticultural plants comprises the following steps:

① removing the permeable partition, the gravel layer, the planting soil layer and the herbaceous plant layer on the water storage tank, and removing the connection between the water storage tank and the connecting column on the fixed anchor block when a worker enters the water storage tank;

② removing the water storage tanks at two sides of the tree to be removed from the soil, and cleaning for later use;

③ digging old tree root at the bottom of the foundation pit where the original water storage tank is;

④ cleaning the bottom of the foundation pit, placing the cleaned and reserved water storage tank, and connecting the water storage tank with the connecting column;

⑤ backfilling soil to form planting pits between the water storage tanks for planting sapling;

⑥ making the water seepage pipe pass through the first through hole to the soil and fixedly connecting the water seepage pipe on the inner side wall of the water storage tank;

⑦ covering the water-permeable partition board, planting saplings, and arranging the gravel layer, planting soil layer and herbaceous plant layer on the water-permeable partition board to complete the planting of trees.

Further, step ⑤ includes burying a soil moisture sensor in the soil.

After adopting the structure, the horticultural plant soil humidity maintenance device and the maintenance process thereof have the following beneficial effects:

the water storage tank collects rainwater and stores the rainwater in the water storage tank, and the rainwater slowly seeps out through the water seepage holes in the water seepage pipe so as to continuously convey water to trees, reduce the watering times of gardening workers and avoid the influence on the growth of the trees due to untimely watering. The windproof reinforcing section expands the water collecting area of the water storage tank.

And secondly, the windproof reinforcing section extends towards the upper side of the water storage tank and extends towards two sides, so that the windproof reinforcing section is positioned above the root of the tree. The water storage tank is connected with the fixed anchor block through the connecting column, and in windy weather, the water storage tank is pulled by the connecting column, and the windproof reinforcing section on the water storage tank can apply downward pressure to the root of the tree, so that the wind resistance of the tree is improved. The problems that roots of artificially planted trees in a park garden are not firm and are easily blown up by wind are well solved.

Thirdly, the water storage tank can be dismantled when trees need to be changed into new saplings, the foundation pit where the original water storage tank is located is just right used as the space for construction of workers, the workers excavate the roots of the trees in the foundation pit, and then the trees are separated by a crane, so that the trouble that the trees need to be excavated from the ground when the roots are removed in the prior art is reduced, and the excavating workload of the workers is reduced.

Compared with the traditional mode of binding a rope on a trunk or erecting a support rod, the windproof reinforcing section is arranged at a lower position, so that the movement of people on the ground, such as a lawn formed by a herbaceous plant layer, can not be influenced. The tree-shaped building can be detached after the typhoon weather, so that the tree-shaped building is greatly convenient for the tree typhoon-proof work of parks and plant gardens.

Compared with the prior art, the water storage tank with the windproof reinforcing section, the fixed anchor block and the connecting column are arranged, so that the humidity of soil where the trees are located can be supplemented through the water seepage pipe on the water storage tank, the windproof capability of the trees is enhanced, and the urban gardening trees can grow normally.

Drawings

FIG. 1 is a schematic view of the structure of a soil moisture curing device for horticultural plants according to the present invention.

Fig. 2 is a schematic view of the structure of a reservoir, a connecting column and a fixed anchor block.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is an enlarged schematic view of the structure at B in fig. 2.

Fig. 5 is a schematic view of the tree being removed.

Fig. 6 is a schematic view when a seedling is planted.

In the figure:

a water storage tank 1; a windproof reinforcement section 11; the support ribs 12; a water-permeable partition 121; a crushed stone layer 122; planting soil layer 123; a herbaceous plant layer 124; a first through hole 15; a water seepage pipe 16; water seepage holes 161; a third seal 162; a flange 163; a hook 17; a second through hole 18; a bearing platform 19; a protective cover 191; a second seal 192;

fixing the anchor block 2; a connecting column 3; a first seal member 31; a fixing nut 32; an electric control valve 4;

a foundation pit 5; planting pits 6; a work platform plate 7.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following specific examples.

As shown in fig. 1 to 6, the soil humidity maintaining device for horticultural plants according to the present invention comprises a water storage tank 1 buried between adjacent trees, wherein the upper portion of the water storage tank 1 is provided with a windproof reinforcing section 11 extending outward, the upper portion of the inner cavity of the water storage tank 1 is provided with a support rib 12, and the support rib 12 is sequentially provided with a water permeable partition 121, a gravel layer 122, a planting soil layer 123 and a plant layer 124 from bottom to top; the upper end of the planting soil layer 123 is flush with the ground.

A first through hole 15 is formed in the inner side wall of the water storage tank 1, a water seepage pipe 16 penetrates through the first through hole 15, and the water seepage pipe 16 is detachably connected with the inner side wall of the water storage tank 1 through a flange 163; a plurality of water seepage holes 161 are formed on the water seepage pipe 16 positioned outside the water storage tank 1. And a fixed anchor block 2 pre-buried in the soil layer is arranged below the water storage tank 1. Be provided with a plurality of spliced poles 3 on the fixed anchor piece 2, as shown in the figure, each the catch basin 1 with fixed anchor piece 2 is connected through three spliced poles 3, 1 bottom of catch basin be provided with 3 one-to-one of spliced pole and confession the second through-hole 18 that spliced pole 3 passed, 1 bottom of catch basin pass through the connecting piece with fixed connection can be dismantled to spliced pole 3, spliced pole 3 with be provided with first sealing member 31 between the second through-hole 18. Thus, according to the horticultural plant soil humidity maintenance device related to the present invention, the water storage tank 1 collects rainwater, stores the rainwater in the water storage tank 1, and slowly seeps out through the seepage holes 161 on the seepage pipe 16 to continuously deliver water to the trees, thereby reducing the watering frequency of horticultural workers and preventing the trees from being affected by the growth due to untimely watering. The windproof reinforcing section 11 expands the water collecting area of the water storage tank 1.

The windproof reinforcing section 11 is positioned on the upper side of the water storage tank 1 and extends out to two sides, so that the windproof reinforcing section 11 is positioned above the root of the tree. The water storage tank 1 is connected with the fixed anchor block 2 through the connecting column 3, and in windy weather, the water storage tank 1 is pulled by the connecting column 3, and the windproof reinforcing section 11 on the water storage tank 1 can apply downward pressure to the root of the tree, so that the wind resistance of the tree is improved. The problems that roots of artificially planted trees in a park garden are not firm and are easily blown up by wind are well solved.

Preferably, said fixed anchor block 2 is made of reinforced concrete; the connecting column 3 is a steel column made of steel. The fixed anchor block 2 is prefabricated by reinforced concrete and is fixedly connected with the connecting column 3 integrally, so that the strength of the fixed anchor block 2 and the connecting strength between the fixed anchor block and the water storage tank 1 are guaranteed. Preferably, the connecting column 3 is coated with an anti-corrosion coating, so that the service life of the connecting column 3 is prolonged. The depth of the fixed anchor block 2 is greater than the depth of the root of the planted tree. Preferably, the fixed anchor block 2 is buried to a depth of 1.5 to 2 times the depth of the root of the planted tree.

Preferably, at least two hooks 17 are arranged on the inner side wall of the water storage tank 1. The water storage tank 1 is convenient to hoist and separate.

Preferably, a bearing platform 19 is arranged at the bottom of the inner cavity of the water storage tank 1 corresponding to the position of the second through hole 18, the upper end of the bearing platform 19 is higher than the bottom of the inner cavity of the water storage tank 1, the upper end of the connecting column 3 is in threaded connection with a fixing nut 32, and the lower end of the fixing nut 32 abuts against the upper surface of the bearing platform 19. By arranging the bearing platform 19, the connection strength between the water storage tank 1 and the fixing nut 32 is increased, and the insufficient strength of the contact part of the bottom of the inner cavity of the water storage tank 1 and the fixing nut 32 is avoided. Furthermore, a protective cover 191 capable of covering the bearing platform 19 and the fixing nut 32 is detachably arranged on the bottom of the inner cavity of the water storage tank 1, and a second sealing piece 192 is arranged between the protective cover 191 and the bottom of the inner cavity of the water storage tank 1. Due to the sealing action of the second seal 192, water in the reservoir 1 does not enter the protective cover 191 and contact the retaining nut 32. Even if the second sealing member 192 is damaged and air is contained in the protective cover 191 before water storage, the air is still contained in the protective cover 191 after the water storage, and as long as the liquid level of a small amount of water entering the protective cover 191 is lower than the upper end of the bearing platform 19, the water still cannot contact with the fixing nut 32, so that the fixing nut 32 is isolated from the water as much as possible, and the service life of the fixing nut 32 is prolonged.

The first sealing element 31 and the second sealing element 192 are matched with the protective cover 191 to form two layers of water-proof sealing barriers, so that the loss of water in the water storage tank 1 is reduced.

Preferably, the water storage tank 1 is made of steel, and the outer side of the water storage tank 1 is coated with a corrosion-resistant protective layer. The steel water storage tank 1 ensures the strength of the windproof reinforcing section 11 when stressed. The corrosion-resistant protective layer, such as a paint layer, prolongs the service life of the water storage tank 1 and ensures the strength.

Preferably, the width of the fixed anchor block 2 is larger than the maximum width between the windproof reinforcing sections 11 on the two sides of the water storage tank 1. The windproof reinforcing section 11 needs to reserve a certain space with the center of the tree due to the limited distance between the windproof reinforcing section and the tree. In order to increase the fixing strength of the fixing anchor block 2, because the fixing anchor block 2 is deep, the width of the pre-buried fixing anchor block 2 can exceed the maximum width between the windproof reinforcing sections 11 on the two sides of the water storage tank 1 during the construction of parks and vegetable gardens. Even a plurality of water storage tanks 1 can be connected with the same fixed anchor block 2 with larger size through the connecting column 3.

Preferably, a soil humidity sensor (not shown in the figure) is arranged in a soil layer outside the water storage tank 1, an electric control valve 4 is arranged at one end of the water seepage pipe 16, which is positioned in an inner cavity of the water storage tank 1, and the soil humidity sensor and the electric control valve 4 are respectively connected with a controller. Thus, the soil humidity sensor can detect the humidity of the soil and transmit the humidity to a controller (not shown in the figure), and the controller judges according to the value and controls the opening and closing of the electric control valve 4. When the soil humidity is low, the electric control valve 4 is opened, and rainwater stored in the water storage tank 1 can be discharged into the soil through the water seepage pipe 16.

Preferably, the water storage tank 1 can be connected with a municipal water pipe, and manual water replenishing is carried out in the water storage tank in the case of long-term drought.

Preferably, a third sealing member 162 is connected between the flange 163 of the water seepage pipe 16 and the inner side wall of the water storage tank 1. The third sealing member 162 is arranged to reduce water loss through a gap between the flange 163 and the inner side wall of the reservoir 1.

The invention also provides a horticultural plant soil humidity maintenance process which comprises the following steps of ① removing the water permeable partition 121, the gravel layer 122, the planting soil layer 123 and the grass layer 124 on the water storage tank 1, enabling a worker to enter the water storage tank 1 to detach the connection of the water storage tank 1 and the connecting column 3 on the fixed anchor block 2, ② removing the water storage tank 1 on two sides of a tree to be removed from soil and cleaning the tree for later use, ③ enabling the worker to enter the bottom of the foundation pit 5 where the original water storage tank 1 is located to dig out old tree roots, laying a working platform plate 7 on the connecting column for convenient work when entering, ④ cleaning the bottom of the foundation pit 5, placing the cleaned water storage tank 1 for later use, connecting the water storage tank 1 and the connecting column 3, ⑤ backfilling soil to form a planting pit 6 for planting a tree seedling between the water storage tanks 1, ⑥ enabling the water seepage pipe 16 to penetrate through the first through hole 15 to the soil and fixedly connecting the water seepage pipe 16 to the inner side wall of the water storage tank 1, ⑦ covering the water permeable partition 121, planting soil layer 123 and the grass layer 124 to complete planting of the tree.

The water storage tank 1 can be detached when trees need to be replaced with new saplings, the foundation pit 5 where the original water storage tank 1 is located is just right used as a construction space for workers, the workers excavate the roots of the trees in the foundation pit 5, and then the trees are separated by a crane, so that the trouble that the trees need to be excavated from the ground when the roots are removed in the prior art is reduced, and the excavating workload of the workers is reduced.

Preferably, step ⑤ further comprises burying a soil humidity sensor in the soil, detecting the humidity of the soil where the tree is located by the humidity sensor, and transmitting the detected value to the controller to control the opening and closing of the electric control valve 4.

Compared with the prior art, the water storage tank with the windproof reinforcing section 11, the fixed anchor block 2 and the connecting column 3 are arranged, so that the humidity of soil where the trees are located can be supplemented through the water seepage pipe 16 on the water storage tank 1, the windproof capability of the trees is enhanced, and the urban gardening trees can grow normally.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications thereof by those skilled in the art should be considered as not departing from the scope of the present invention.

Claims (10)

1. A soil humidity maintenance device for horticultural plants is characterized by comprising a water storage tank buried between adjacent trees, wherein the upper part of the water storage tank is provided with a windproof reinforcing section extending outwards, the upper part of the inner cavity of the water storage tank is provided with a supporting rib, and the supporting rib is sequentially provided with a permeable partition plate, a gravel layer, a planting soil layer and a herbaceous plant layer from bottom to top; the upper end of the planting soil layer is flush with the ground;

a first through hole is formed in the inner side wall of the water storage tank, a water seepage pipe penetrates through the first through hole, and the water seepage pipe is detachably connected with the inner side wall of the water storage tank through a flange; a plurality of water seepage holes are formed on the water seepage pipe positioned on the outer side of the water storage tank;

and a fixed anchor block pre-buried in the soil layer is arranged below the water storage tank. Be provided with a plurality of spliced poles on the fixed anchor piece, the catch basin bottom be provided with spliced pole one-to-one and confession the second through-hole that the spliced pole passed, the catch basin bottom through the connecting piece with fixed connection can be dismantled to the spliced pole, the spliced pole with be provided with first sealing member between the second through-hole.

2. A horticultural plant soil moisture maintenance device in accordance with claim 1, wherein the anchor block is made of reinforced concrete; the connecting column is a steel column made of steel.

3. A horticultural plant soil moisture conserving device in accordance with claim 1, wherein the reservoir has at least two hooks on the inner side wall thereof.

4. The soil moisture curing device of claim 1, wherein a bearing platform is disposed at the bottom of the inner cavity of the water storage tank corresponding to the second through hole, the upper end of the bearing platform is higher than the bottom of the inner cavity of the water storage tank, a fixing nut is screwed on the upper end of the connecting column, and the lower end of the fixing nut abuts against the upper surface of the bearing platform.

5. A horticultural plant soil moisture conserving device, as claimed in claim 4, wherein a protective cover is removably mounted to the bottom of the inner chamber of the reservoir to cover the platform and the retaining nut, and a second seal is provided between the protective cover and the bottom of the inner chamber of the reservoir.

6. A horticultural plant soil moisture conserving device as claimed in claim 1, wherein the reservoir is made of steel and the outside of the reservoir is coated with a corrosion resistant protective layer.

7. A horticultural plant soil moisture conserving device in accordance with claim 1, wherein the width of the anchor block is greater than the maximum width between the windbreak reinforced sections on either side of the reservoir.

8. A horticultural plant soil moisture curing device as claimed in claim 1, wherein a soil moisture sensor is provided in the soil layer outside the reservoir, an electrically controlled valve is provided at the end of the infiltration pipe located in the inner cavity of the reservoir, and the soil moisture sensor and the electrically controlled valve are respectively connected to the controller.

9. A soil humidity maintenance process for horticultural plants is characterized by comprising the following steps:

① removing the permeable partition, the gravel layer, the planting soil layer and the herbaceous plant layer on the water storage tank, and removing the connection between the water storage tank and the connecting column on the fixed anchor block when a worker enters the water storage tank;

② removing the water storage tanks at two sides of the tree to be removed from the soil, and cleaning for later use;

③ digging old tree root at the bottom of the foundation pit where the original water storage tank is;

④ cleaning the bottom of the foundation pit, placing the cleaned and reserved water storage tank, and connecting the water storage tank with the connecting column;

⑤ backfilling soil to form planting pits between the water storage tanks for planting sapling;

⑥ making the water seepage pipe pass through the first through hole to the soil and fixedly connecting the water seepage pipe on the inner side wall of the water storage tank;

⑦ covering the water-permeable partition board, planting saplings, and arranging the gravel layer, planting soil layer and herbaceous plant layer on the water-permeable partition board to complete the planting of trees.

10. The soil moisture maintenance process of claim 9, wherein the step ⑤ further comprises burying a soil moisture sensor in the soil.

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