CN209930894U - Dry land lotus root planting device - Google Patents

Abstract

The utility model provides a lotus root planting device in dry land, which comprises a lotus root arranging groove, a hollow rod and a binding rope; the upper end of the lotus root arranging groove is provided with a gap; the bottom of the hollow rod is connected with the lotus root arranging groove; the hollow lotus root planting device is characterized in that the binding rope is flat, the binding rope is sleeved in the hollow rod, rope heads at two ends of the binding rope extend out of a top port of the hollow rod, the middle of the binding rope extends out of a bottom port of the hollow rod and is kept in the lotus root arranging groove, and the middle of the binding rope is used for trapping and planting lotus roots. The utility model provides a dry land lotus root planting device, which limits the growth direction of lotus roots by adding a lotus root arranging groove, is convenient for picking and digging, and can obtain high-quality lotus roots with straight appearance; the lotus roots are planted by adding the binding ropes, and the growth condition and picking time of the lotus roots are judged according to the pull-down quantity of the rope bodies at the two ends of the binding ropes exposed out of the ground surface.

Description

Dry land lotus root planting device

Technical Field

The utility model relates to a lotus root field of planting, concretely relates to device is planted to nonirrigated farmland lotus root.

Background

The dry land planting of lotus roots is a new high-efficiency planting technology, the lotus roots are planted in a mode which is different from the original growth mode, the lotus roots are easier to plant, and the planting area of the lotus roots can be determined according to the area of the dry land. The management of lotus root planting in dry land is simple, the investment in the early stage is reduced, and the period of income is shortened.

When lotus root grows naturally, lotus root node freely develops the growth to the each direction, is three-dimensional fork form, influences each other easily when picking and digging, needs the manual work to dig out silt when lotus root is gathered to the growth trend of lotus root is judged by people's experience and sensation completely at the in-process of digging, with the integrality of guaranteeing the lotus root.

Meanwhile, the lotus roots are buried under the silt, so that the growth conditions of the lotus roots are difficult to judge, when the lotus roots are dug, the small and undeveloped lotus roots are easily dug out together, and manpower is wasted.

SUMMERY OF THE UTILITY MODEL

To the defect among the prior art, the utility model provides a pair of nonirrigated farmland lotus root planting device and planting method has solved the lotus root and has been three-dimensional fork form, and it is inconvenient to adopt and dig, and is difficult to the technical problem who judges the growth condition of lotus root.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

a dry land lotus root planting device comprises a lotus root arranging groove, a hollow rod and a binding rope; the upper end of the lotus root arranging groove is provided with a gap; the bottom of the hollow rod is connected with the lotus root arranging groove; the hollow lotus root row groove is characterized in that the binding rope is flat, the binding rope is sleeved in the hollow rod, rope heads at two ends of the binding rope extend out of a top port of the hollow rod, the middle of the binding rope extends out of a bottom port of the hollow rod and is kept in the lotus root row groove, and the middle of the binding rope is used for trapping and planting lotus roots.

Optionally, the top end of the hollow rod is further provided with a viewing port; scribed lines are further arranged on the surfaces of the rope bodies at the two ends of the binding rope at equal intervals.

Optionally, the width of the lashing line is 4-12 mm.

Optionally, the middle part of the binding rope is further sleeved with an elastic ring for facilitating trapping and tying the lotus root.

Optionally, a plurality of through holes are formed in the lotus root arranging groove.

Optionally, a plurality of biological ceramsite are further arranged on the inner side wall of the lotus root arranging groove.

The utility model has the advantages that:

the utility model provides a lotus root planting device in dry land, which comprises a lotus root arranging groove, a hollow rod and a binding rope; the upper end of the lotus root arranging groove is provided with a gap; the bottom of the hollow rod is connected with the lotus root arranging groove; the hollow lotus root row groove is characterized in that the binding rope is flat, the binding rope is sleeved in the hollow rod, rope heads at two ends of the binding rope extend out of a top port of the hollow rod, the middle of the binding rope extends out of a bottom port of the hollow rod and is kept in the lotus root row groove, and the middle of the binding rope is used for trapping and planting lotus roots. The utility model provides a dry land lotus root planting device, which limits the growth direction of lotus roots by adding a lotus root arranging groove, is convenient for picking and digging, and can obtain high-quality lotus roots with straight appearance; the lotus roots are planted by adding the binding ropes, and the growth condition and picking time of the lotus roots are judged according to the pull-down quantity of the rope bodies at the two ends of the binding ropes exposed out of the ground surface.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below. Throughout the drawings, like elements or portions are generally identified by like reference numerals. In the drawings, elements or portions are not necessarily drawn to scale.

FIG. 1 is a schematic perspective view of a dry land lotus root planting device according to a first embodiment;

FIG. 2 is an enlarged view taken at A in FIG. 1;

FIG. 3 is a side view of a first embodiment of a dry land lotus root planting device;

FIG. 4 is a schematic view of the principle of measuring the amount of pull-down of the twine;

FIG. 5 is a schematic perspective view of a second embodiment of a dry land lotus root planting device;

reference numerals:

1-row of lotus root grooves, 2-hollow rods, 3-binding ropes, 4-elastic rings, 5-seed lotus roots and 6-biological ceramsite;

11-notches, 12-through holes, 21-observation ports, 22-marking lines and 31-marking lines.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and therefore are only examples, and the protection scope of the present invention is not limited thereby.

It is to be noted that unless otherwise specified, technical or scientific terms used herein shall have the ordinary meaning as understood by those skilled in the art to which the present invention belongs.

Referring to fig. 1-5, the present invention provides a lotus root planting device for dry land, which comprises a lotus root arranging groove 1, a hollow rod 2 and a binding rope 3. Arrange lotus root groove 1 and be used for restricting the growth direction of lotus root, arrange the upper end in lotus root groove 1 and seted up breach 11, breach 11 has reserved the ascending passageway that grows of stem, leaf and the flower of lotus root, specifically, arrange lotus root groove 1 and be cylinder or U type groove. The bottom of the hollow rod 2 is connected with the lotus root arranging groove 1, and when the lotus root arranging groove 1 is buried in a preset planting field, the hollow rod 2 is used as a channel between the bundling rope 3 and the ground surface. The binding rope 3 is in a flat shape, and the flat rope body increases the contact area of the binding rope 3 and the lotus root seeds, so that the rope body is prevented from leaving tying marks on the surfaces of the lotus roots. The hollow rod 2 is sleeved with the bundling rope 3, rope ends at two ends of the bundling rope 3 extend out of a top port of the hollow rod 2, the middle of the bundling rope 3 extends out of a bottom port of the hollow rod 2 and is reserved in the lotus root discharging groove 1, and the middle of the bundling rope 3 is used for trapping and planting lotus roots. Specifically, the two ends of the twine 3 are folded into two, the ends of the twine penetrate into the hollow rod 2 from the bottom port of the hollow rod 2, and then penetrate out from the top port of the hollow rod 2, wherein the folded part of the twine 3 is that the middle part of the twine body is left in the lotus root arranging groove 1, and whether the ends of the twine are aligned does not affect the measurement of the pull-down amount. Along with the growth of the lotus roots 5, the lotus roots 5 gradually expand the bundling rope 3, the rope body arranged in the hollow rod 2 is pulled downwards, and the growth condition and picking time of the lotus roots are judged according to the sum of the pulling-down amount of the two ends of the rope body. In a preferred embodiment, an elastic wear-resistant block is further arranged at the top port of the hollow rod 2, and rope ends at two ends of the bundling rope 3 penetrate through the elastic wear-resistant block, so that the rope ends at the two ends are prevented from naturally falling into the hollow rod 2 under the action of gravity to cause the action failure of the bundling rope 3. It is noted that the lashing wire 3 is a non-stretch wire.

As a further improvement to the above scheme, please refer to fig. 4, an observation port 21 is further formed at the top end of the hollow rod 2, and the observation port 21 is used for observing the variation of the scribed line 31 on the surface of the rope body; scribed lines 31 are also arranged on the surface of the rope body at the two ends of the binding rope 3 at equal intervals. In a preferred embodiment, the equally spaced scribed lines of each end of the rope are correspondingly marked with scale values (i.e. distance values), and the zero scale line is positioned at the lowest part in the figure, i.e. the scribed line close to the middle part of the rope body, i.e. the scale values are sequentially increased from bottom to top, after the planted lotus roots 5 are bound and the lotus root arrangement grooves 1 are placed, the zero scale line is observed from the observation opening 21, and the mark line 22 is made at the corresponding position of the hollow rod 2, as the planted lotus roots 5 grow, the biological force gradually expands the bound ropes 3 bound on the bound ropes when growing, the ends of the two ends of the rope are pulled downwards, the distance difference between the zero scale line and the mark line 22 on the end of each end of the rope is the pull-down amount of the end of the rope, and the pull-down amounts of the two ends of the rope are the growth amounts of the lotus roots.

As a further improvement to the above solution, the width of the lashing wire 3 is 4-12 mm. If the width of the binding string 3 is too small, the surface of the lotus root is easily scratched, and if the width of the binding string 3 is too large, the hollow rod 2 is difficult to be inserted.

As a further improvement of the scheme, the middle part of the binding rope 3 is also sleeved with an elastic ring 4 which is convenient for trapping the lotus roots. The bundling rope 3 is directly trapped by utilizing the elastic deformation of the elastic ring 4, which is convenient and fast.

As a further improvement of the scheme, a plurality of through holes 12 are formed in the lotus root arranging groove 1. The through holes 12 are used as nutrient inlet channels for the lotus roots and the surrounding soil.

As a further improvement to the above solution, please refer to fig. 5, a plurality of biological ceramsite 6 is further disposed on the inner sidewall of the lotus root arranging groove 1, and specifically, the biological ceramsite may be adhered to the inner sidewall of the lotus root arranging groove 1. Before lotus roots are arranged, the biological ceramsite 6 is firstly sprayed or soaked by nutrient solution, and the biological ceramsite 6 which fully absorbs the nutrient solution is used as an important nutrient for the lotus roots 5 in the early growth stage. As the biological ceramsite has a plurality of micropores from the outside to the inside, has certain mechanical strength and strong water absorption, ventilation and fertilizer holding capacity, in the middle growth period, nutrient solution can be directly fed into the lotus root discharging groove 1 through the hollow rod 2 in a drip irrigation mode, and the biological ceramsite 6 in the lotus root discharging groove 1 can rapidly absorb the nutrient solution so as to be absorbed by the root hairs of the lotus roots, thereby realizing more precise secondary additional fertilizer and tertiary additional fertilizer.

The utility model also provides a planting method of dry land lotus root planting device, including following step:

s1, selecting sub-lotus roots with similar sizes as the lotus roots 5, wherein the sizes are similar, and the growth conditions of the lotus roots can be judged more easily and intuitively;

s2, placing the lotus roots in the lotus root arranging groove 1, and trapping the lotus roots 5 with the binding ropes 3;

and S3, burying the lotus root row grooves 1 in which the lotus roots 5 are placed in the treated planting field.

As a further improvement to the above scheme, the lotus root 5 gradually expands the binding rope 3 along with the growth of the lotus root 5, the rope body arranged in the hollow rod 2 is pulled downwards, and the growth condition and picking time of the lotus root are judged according to the sum of the pulling-down amount of the two ends of the rope body. In a preferred embodiment, the rope ends of the binding ropes 3 extend out of the top end of the hollow rod 2, are straightened and then are placed outside the hollow rod, initial marks are made on the positions of the end parts of the rope ends projected onto the hollow rod 2, the biological force generated during growth gradually expands the binding ropes 3 bound on the rope ends along with the growth of the lotus roots 5, the rope ends at two ends are pulled downwards, the difference value between the distance between the end part of each rope end and the initial marks is the pulling-down amount of the rope end, and the sum of the pulling-down amounts of the rope ends at two ends is the growth amount of the lotus roots.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not substantially depart from the scope of the embodiments of the present invention, and are intended to be covered by the claims and the specification.

Claims (6)

1. The utility model provides a device is planted to dry land lotus root which characterized in that: comprises a lotus root arranging groove (1), a hollow rod (2) and a binding rope (3); the upper end of the lotus root arranging groove (1) is provided with a gap (11); the bottom of the hollow rod (2) is connected with the lotus root arranging groove (1); bundle rope (3) are flat shape, bundle rope (3) cover is established in hollow pole (2), the both ends fag end of bundle rope (3) is followed the top port of hollow pole (2) stretches out, the middle part of bundle rope (3) is followed the bottom port of hollow pole (2) stretches out and keeps somewhere arrange in lotus root groove (1), the middle part of bundle rope (3) is used for stranded kind of lotus root.

2. The dry land lotus root planting device according to claim 1, wherein: the top end of the hollow rod (2) is also provided with an observation port (21); scribed lines (31) are arranged on the surfaces of the rope bodies at the two ends of the binding rope (3) at equal intervals.

3. The dry land lotus root planting device according to claim 1, wherein: the width of the binding rope (3) is 4-12 mm.

4. The dry land lotus root planting device according to claim 1, wherein: the middle part of the binding rope (3) is also sleeved with an elastic ring (4) which is convenient for trapping and tying the lotus roots.

5. The dry land lotus root planting device according to claim 1, wherein: the lotus root arranging groove (1) is provided with a plurality of through holes (12).

6. The dry land lotus root planting device according to claim 1, wherein: and a plurality of biological ceramsite (6) are also arranged on the inner side wall of the lotus root discharging groove (1).

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