CN214546116U - Flower and tree fertilizing protector - Google Patents

Abstract

A flower tree fertilizing protector, comprising: the barrel body surrounds the root of the flower tree; the device is characterized in that the cylinder body is divided into two half cylinder bodies along a separation line, and the two half cylinder bodies are detachably connected; through holes for ensuring the normal growth of the roots of the flower trees are uniformly arranged on the surface of the cylinder body; through holes are formed in the upper end face and the lower end face of the cylinder body; the through holes on the upper end surface and the lower end surface can ensure that the root part and the trunk part of the flower tree have normal growth spaces; when in use, the two half cylinders are assembled into a cylinder body which is placed at the root of the flower tree, and then the fertilizing operation is carried out on the cylinder body; and the through-hole on the surface of the barrel body effectively prevents excessive chemical fertilizer from flowing into the soil where the flower tree root is located, and avoids the phenomenon that the seedling is burned due to excessive chemical fertilizer.

Description

Flower and tree fertilizing protector

Technical Field

The utility model belongs to the field of crops, in particular to a flower and tree fertilizing protector.

Background

The macronutrients of nitrogen, phosphorus and potassium in the soil can not meet the growth requirement of crops, and the fertilizers containing nitrogen, phosphorus and potassium are applied to the crops to supplement the fertilizer in general, but the fertilizing method is also very important, and the fertilizing method is inappropriate for some people, so that the seeds or root systems are basically not isolated from the fertilizer application, the seeds or root systems are exposed to the fertilizer, the roots are burnt and the seedlings are burnt, and the seedling burning can be caused by the fact that the concentration of the soil solution is greater than that of the plant root hair cell sap due to too much or too thick fertilization, so that people can pack the fertilization in a snake skin bag and hold a plastic bottle to cover the seedling, then, a small amount of fertilizer is quickly scattered around the plastic bottle to prevent seedlings from being burnt, but the operation cannot control the fertilizing amount evenly, sometimes the plastic bottle cannot completely cover the seedlings, and the scattered fertilizer still causes the seedlings to be burnt.

The utility model discloses to the improper problem that leads to burning seedlings that spills of current chemical fertilizer, provide a flower tree fertilization protector.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problem that the current chemical fertilizer is applied improperly and leads to burning seedlings, the utility model provides a flower tree fertilization protector.

A flower tree fertilizing protector, comprising: the barrel body surrounds the root of the flower tree; the device is characterized in that the cylinder body is divided into two half cylinder bodies along a separation line, and the two half cylinder bodies are detachably connected; through holes for ensuring the roots of the flowers and the trees to absorb nutrition are uniformly arranged on the surface of the cylinder body; the upper end surface and the lower end surface of the cylinder body are also provided with through holes for ensuring the growth space of the roots of the flowers and the trees; the through holes on the upper end surface and the lower end surface can ensure that the root part and the trunk part of the flower tree have normal growth spaces; when in use, the two half cylinders are assembled into a cylinder body which is placed at the root of the flower tree, and then the fertilizing operation is carried out on the cylinder body; and the through-hole on the surface of the barrel body effectively prevents excessive chemical fertilizer from flowing into the soil where the flower tree root is located, and avoids the phenomenon that the seedling is burned due to excessive chemical fertilizer.

Furthermore, in order to effectively control the fertilizer to flow into the soil at the root of the flower tree; a first cylinder body with the size close to that of the cylinder body is arranged in the cylinder body, and a through hole consistent with the surface of the cylinder body is arranged on the surface of the first cylinder body; a pull rod mechanism for rotating the first cylinder around the central shaft of the cylinder body is correspondingly arranged between the end surface of the cylinder body and the end surface of the first cylinder body; when the device is used, the relative positions of the through hole on the surface of the first cylinder and the through hole on the surface of the cylinder are changed through the pull rod mechanism, and then the area of the through hole of the first through hole is changed.

Further, the first cylinder is divided into two first half cylinders along the cylinder separation line; the two first half cylinder bodies are detachably connected; the effective assembly of two half barrels and two first half barrels can be effectively realized by the arrangement.

Further, the pull rod mechanism comprises a straight rod arranged on the upper end face of the first semi-cylinder and an arc-shaped through hole arranged on the surface of the semi-cylinder and used for the straight rod to penetrate through; the length of the arc-shaped through hole is equal to the diameter of a single through hole on the surface of the cylinder; a concave-convex structure for the rotation of the first cylinder is correspondingly arranged between the lower end surface of the first cylinder and the lower end surface of the cylinder; the arrangement can realize that the first cylinder moves around the central shaft of the cylinder.

Further, the concave-convex structure comprises a bulge arranged on the lower end face of the first cylinder and a groove arranged on the lower end face of the cylinder; the arrangement can effectively ensure that the first cylinder rotates in the cylinder.

Further, the diameter of the through hole on the lower end surface of the cylinder is larger than that of the through hole on the upper end surface of the cylinder and is smaller than the inner diameter of the cylinder; the arrangement can ensure that the root of the flower tree has a normal growth space.

Furthermore, an inserted bar is uniformly arranged on the surface of one of the first semi-cylinder body and the semi-cylinder body separating end surface, and a spherical air bag is arranged at the tip end of the inserted bar; the other first half cylinder and the other half cylinder are provided with through holes for the spherical air bags and the inserted rods to be inserted and connected on the separating end surfaces; the detachable connection of the two half cylinders and the two first half cylinders can be realized through the arrangement.

Furthermore, the through hole for inserting the inserted rod is not more than one half of the diameter of the cylinder body and not less than one thirty of the diameter of the cylinder body; the arrangement can ensure that the roots of the flowers and the trees can absorb soil nutrients.

Furthermore, a hasp is correspondingly arranged on the surfaces of the two half cylinders; the structural stability of barrel can be increased to above-mentioned setting.

Further, a handle for pushing and pulling is arranged at the upper end of the straight rod.

Compared with the prior art, the through holes on the upper end surface and the lower end surface of the technical scheme of the utility model can ensure that the root part and the trunk part of the flower tree have normal growth spaces; when in use, the two half cylinders are assembled into a cylinder body which is placed at the root of the flower tree, and then the fertilizing operation is carried out on the cylinder body; and the through-hole on the surface of the barrel body effectively prevents excessive chemical fertilizer from flowing into the soil where the flower tree root is located, and avoids the phenomenon that the seedling is burned due to excessive chemical fertilizer.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the overall structure of the present invention;

fig. 3 is a schematic overall top view structure diagram of the present invention;

fig. 4 is an overall side view structure diagram of the present invention;

FIG. 5 is an enlarged view of the partial structure of the present invention;

in the figure, 1, a cylinder; 2. a pull rod mechanism; 3, a through hole for ensuring the root of the flower tree to absorb nutrition; 4. a through hole for ensuring the growth space of the root of the flower tree; 5. a half cylinder; 6. a relief structure; 201. a straight rod; 202. an arc-shaped through hole; 7. a spherical air bag; 8. inserting a rod; 601. a groove; 602. and (4) protruding.

Detailed Description

The embodiments of the present invention will be described in detail with reference to the accompanying drawings, and some structures are not shown in the drawings, which can be derived by those skilled in the art according to the present invention. Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Embodiment 1 flower tree fertilizing protector

A flower tree fertilizing protector, comprising: a barrel body 1 surrounding the root of the flower tree; the device is characterized in that the cylinder body 1 is divided into two half cylinder bodies 5 along a separation line, and the two half cylinder bodies 5 are detachably connected; through holes 3 for ensuring the roots of the flowers and the trees to absorb nutrition are uniformly arranged on the surface of the cylinder body 1; the upper end surface and the lower end surface of the cylinder body 1 are also provided with through holes 4 for ensuring the growth space of the roots of the flowers and the trees.

In order to effectively control the fertilizer to flow into the soil at the root of the flower tree; a first barrel 1 with the size close to that of the barrel 1 is arranged in the barrel 1, and a through hole consistent with that of the barrel 1 is arranged on the surface of the first barrel 1; a pull rod mechanism 2 for the first cylinder 1 to rotate around the central shaft of the cylinder 1 is correspondingly arranged between the end surface of the cylinder 1 and the end surface of the first cylinder 1; the first cylinder 1 is divided into two first half cylinders 5 along the separation line of the cylinder 1; and the two first half cylinders 5 are detachably connected.

The pull rod mechanism 2 comprises a straight rod 201 arranged on the upper end surface of the first semi-cylinder 5 and an arc-shaped through hole 202 arranged on the surface of the semi-cylinder 5 and used for the straight rod 201 to penetrate through; the length of the arc-shaped through hole 202 is equal to the diameter of a single through hole on the surface of the cylinder 1; a concave-convex structure 6 for the rotation of the first cylinder 1 is correspondingly arranged between the lower end surface of the first cylinder 1 and the lower end surface of the cylinder 1.

The concave-convex structure 6 comprises a protrusion 602 arranged on the lower end face of the first cylinder 1 and a groove 601 arranged on the lower end face of the cylinder 1; the diameter of the through hole on the lower end surface of the cylinder body 1 is larger than that of the through hole on the upper end surface of the cylinder body 1 and is smaller than the inner diameter of the cylinder body 1; a buckle is correspondingly arranged on the surfaces of the two half cylinders 5.

Embodiment 2 flower tree fertilization protector

A flower tree fertilizing protector, comprising: a barrel body 1 surrounding the root of the flower tree; the device is characterized in that the cylinder body 1 is divided into two half cylinder bodies 5 along a separation line, and the two half cylinder bodies 5 are detachably connected; through holes 3 for ensuring the roots of the flowers and the trees to absorb nutrition are uniformly arranged on the surface of the cylinder body 1; the upper end surface and the lower end surface of the cylinder body 1 are also provided with through holes 4 for ensuring the growth space of the roots of the flowers and the trees.

In order to effectively control the fertilizer to flow into the soil at the root of the flower tree; a first barrel 1 with the size close to that of the barrel 1 is arranged in the barrel 1, and a through hole consistent with that of the barrel 1 is arranged on the surface of the first barrel 1; a pull rod mechanism 2 for the first cylinder 1 to rotate around the central shaft of the cylinder 1 is correspondingly arranged between the end surface of the cylinder 1 and the end surface of the first cylinder 1; the first cylinder 1 is divided into two first half cylinders 5 along the separation line of the cylinder 1; and the two first half cylinders 5 are detachably connected.

The pull rod mechanism 2 comprises a straight rod 201 arranged on the upper end surface of the first semi-cylinder 5 and an arc-shaped through hole 202 arranged on the surface of the semi-cylinder 5 and used for the straight rod 201 to penetrate through; the length of the arc-shaped through hole 202 is equal to the diameter of a single through hole on the surface of the cylinder 1; a concave-convex structure 6 for the rotation of the first cylinder 1 is correspondingly arranged between the lower end surface of the first cylinder 1 and the lower end surface of the cylinder 1.

The concave-convex structure 6 comprises a protrusion 602 arranged on the lower end face of the first cylinder 1 and a groove 601 arranged on the lower end face of the cylinder 1; the diameter of the through hole on the lower end surface of the cylinder body 1 is larger than that of the through hole on the upper end surface of the cylinder body 1 and is smaller than the inner diameter of the cylinder body 1; an inserted rod 8 is uniformly arranged on the surface of one of the first semi-cylinder 5 and the semi-cylinder 5 at the separated end surface, and a spherical air bag 7 is arranged at the tip end of the inserted rod 8; a through hole is formed in the other first semi-cylinder 5 and the other semi-cylinder 5 for separating the end face for the insertion of the spherical air bag 7 and the inserted rod 8; the through hole for inserting the inserted rod 8 is not more than one half of the diameter of the cylinder body 1 and not less than one thirty of the diameter of the cylinder body 1; a buckle is correspondingly arranged on the surfaces of the two half cylinders 5.

Embodiment 3 flower tree fertilization protector

A flower tree fertilizing protector, comprising: a barrel body 1 surrounding the root of the flower tree; the device is characterized in that the cylinder body 1 is divided into two half cylinder bodies 5 along a separation line, and the two half cylinder bodies 5 are detachably connected; through holes 3 for ensuring the roots of the flowers and the trees to absorb nutrition are uniformly arranged on the surface of the cylinder body 1; the upper end surface and the lower end surface of the cylinder body 1 are also provided with through holes 4 for ensuring the growth space of the roots of the flowers and the trees.

In order to effectively control the fertilizer to flow into the soil at the root of the flower tree; a first barrel 1 with the size close to that of the barrel 1 is arranged in the barrel 1, and a through hole consistent with that of the barrel 1 is arranged on the surface of the first barrel 1; a pull rod mechanism 2 for the first cylinder 1 to rotate around the central shaft of the cylinder 1 is correspondingly arranged between the end surface of the cylinder 1 and the end surface of the first cylinder 1; the first cylinder 1 is divided into two first half cylinders 5 along the separation line of the cylinder 1; and the two first half cylinders 5 are detachably connected.

The pull rod mechanism 2 comprises a straight rod 201 arranged on the upper end surface of the first semi-cylinder 5 and an arc-shaped through hole 202 arranged on the surface of the semi-cylinder 5 and used for the straight rod 201 to penetrate through; the length of the arc-shaped through hole 202 is equal to the diameter of a single through hole on the surface of the cylinder 1; a concave-convex structure 6 for the rotation of the first cylinder 1 is correspondingly arranged between the lower end surface of the first cylinder 1 and the lower end surface of the cylinder 1.

The concave-convex structure 6 comprises a protrusion 602 arranged on the lower end face of the first cylinder 1 and a groove 601 arranged on the lower end face of the cylinder 1; the diameter of the through hole on the lower end surface of the cylinder body 1 is larger than that of the through hole on the upper end surface of the cylinder body 1 and is smaller than the inner diameter of the cylinder body 1; an inserted rod 8 is uniformly arranged on the surface of one of the first semi-cylinder 5 and the semi-cylinder 5 at the separated end surface, and a spherical air bag 7 is arranged at the tip end of the inserted rod 8; a through hole is formed in the other first semi-cylinder 5 and the other semi-cylinder 5 for separating the end face for the insertion of the spherical air bag 7 and the inserted rod 8; the through hole for inserting the inserted rod 8 is not more than one half of the diameter of the cylinder body 1 and not less than one thirty of the diameter of the cylinder body 1; a hasp is correspondingly arranged on the surfaces of the two half cylinders 5; a handle for pushing and pulling is arranged at the upper end of the straight rod 201.

The above description of the embodiments is only intended to illustrate the present invention. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, several modifications can be made to the present invention, and these modifications will fall within the protection scope of the claims of the present invention.

Claims (10)

1. A flower tree fertilizing protector, comprising: the barrel body surrounds the root of the flower tree; the device is characterized in that the cylinder body is divided into two half cylinder bodies along a separation line, and the two half cylinder bodies are detachably connected; through holes for ensuring the normal growth of the roots of the flower trees are uniformly arranged on the surface of the cylinder body; through holes are formed in the upper end face and the lower end face of the cylinder body; the through holes on the upper end surface and the lower end surface can ensure that the root part and the trunk part of the flower tree have normal growth spaces.

2. A flower and tree fertilizing protector as claimed in claim 1, wherein a first barrel is provided in the barrel with a size close to that of the barrel, and a through hole is provided on the surface of the first barrel to be coincident with the surface of the barrel; and a pull rod mechanism for rotating the first cylinder around the central shaft of the cylinder body is correspondingly arranged between the end surface of the cylinder body and the end surface of the first cylinder body.

3. A flower and tree fertilizing protector as in claim 2, wherein the first cylinder is divided into two first half cylinders along a cylinder dividing line; and the two first half cylinder bodies are detachably connected.

4. The fertilizing protector for flowers and trees as claimed in claim 2, wherein the pull rod mechanism comprises a straight rod arranged on the upper end surface of the first semi-cylinder and an arc-shaped through hole arranged on the surface of the semi-cylinder for the straight rod to pass through; the length of the arc-shaped through hole is equal to the diameter of a single through hole on the surface of the cylinder; and a concave-convex structure for rotating the first cylinder is correspondingly arranged between the lower end surface of the first cylinder and the lower end surface of the cylinder.

5. A flower and tree fertilizing protector as claimed in claim 4, wherein the concave-convex structure comprises a protrusion provided on the lower end face of the first barrel and a groove provided on the lower end face of the barrel.

6. A flower and tree fertilizing protector as claimed in claim 1, wherein the diameter of the through hole on the lower end surface of the barrel is larger than the diameter of the through hole on the upper end surface of the barrel and smaller than the inner diameter of the barrel.

7. A flower and tree fertilizing protector as claimed in claim 3, wherein an inserted bar is uniformly arranged on the surface of one of the first half-cylinder and the half-cylinder separating end face, and a spherical air bag is arranged at the tip of the inserted bar; and the other first half cylinder and the other half cylinder are provided with through holes for the spherical air bags and the inserted rods to be inserted and connected on the separating end surfaces.

8. The fertilizing protector for flower trees as claimed in claim 1, wherein the diameter of the through hole for ensuring the root of the flower tree to grow normally is not more than half of the diameter of the barrel body and not less than thirty times of the diameter of the barrel body.

9. A flower and tree fertilizing protector as claimed in claim 3, wherein a snap is provided on the surface of each half-cylinder.

10. A flower and tree fertilizing protector as claimed in claim 4, wherein a handle is provided at the upper end of the straight rod for pushing and pulling the rod.

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