CN108738872B

CN108738872B - Dislocation formula device of growing seedlings

Info

Publication number: CN108738872B
Application number: CN201810371400.1A
Authority: CN
Inventors: 李友发
Original assignee: Jurong Yufa Agricultural Development Co ltd
Current assignee: Jurong Yufa Agricultural Development Co ltd
Priority date: 2018-04-24
Filing date: 2018-04-24
Publication date: 2021-06-04
Anticipated expiration: 2038-04-24
Also published as: CN108738872A

Abstract

The invention discloses a dislocation type seedling raising device which comprises two arc-shaped shells with quarter-sphere structures; the two arc-shaped shells can be combined to form a hemispherical shell with a hemispherical structure, and the space inside the hemispherical shell is set as a nursery stock cultivation space; the upper ends of the butting surfaces of the two arc-shaped shells are hinged and installed into a whole through a hinge piece; the two arc-shaped shells can be opened and combined relatively. The root system can pass through from the root system growth hole in the device, the whole structure can not obstruct the development of the root system, the whole root system can not be curled in a small space, the whole root system can grow in a divergent healthy state, and the device is very convenient for the transplantation of subsequent nursery stocks.

Description

Dislocation formula device of growing seedlings

Technical Field

The invention relates to the technical field of agricultural related cultivation and transplantation, in particular to a dislocation type seedling raising device.

Background

In the existing seedling cultivation and transplanting devices, closed cultivation containers are mostly arranged for cultivation, such as cultivation cups, culture dishes, seedling raising pots, cultivation bowls and the like; the large number of the containers can be used for cultivating seedlings; however, for the nursery stock with a vigorous root system or a large size, the breeding devices have the problem that the development of the root system of the nursery stock can be hindered, because the devices are designed in a closed manner, the root system can be compressed when growing, the root system is difficult to expand outwards after the nursery stock is transplanted, and the survival rate of the nursery stock after the nursery stock is transplanted is low.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides an offset seedling raising device, which has the following technical scheme:

an offset seedling raising device comprises two arc-shaped shells with quarter-sphere structures; the two arc-shaped shells can be combined to form a hemispherical shell with a hemispherical structure, and the space inside the hemispherical shell is set as a nursery stock cultivation space; the upper ends of the butting surfaces of the two arc-shaped shells are hinged and installed into a whole through a hinge piece; the two arc-shaped shells can be opened and combined relatively; the butt joint surfaces of the two arc-shaped shells are also provided with L-shaped butt joint blocks which are matched with each other, the butt joint blocks at the two sides can be mutually stacked, and after stacking, the lowest point of the butt joint block at the upper layer is also provided with a pressure-resistant block which protrudes upwards; and the lowest point of the butt joint blocks on the two sides is also respectively vertically provided with a threaded hole, the threaded hole extends into the pressure-resistant block above from the bottom opening of the butt joint block, and a detachable and adaptive bolt is installed in the threaded hole.

The arc-shaped shell is also provided with root growth holes which are uniformly distributed, and also comprises two inner arc-shaped shells which are still in a quarter-sphere structure, the diameter of each inner arc-shaped shell is adaptive to be smaller than that of each arc-shaped shell, so that the inner arc-shaped shells are adaptively sleeved in the arc-shaped shells, and the inner arc-shaped shells are also provided with root growth holes which are adaptive to each other and uniformly distributed at the same position on the arc-shaped shells 1; the inner side wall of the arc-shaped shell is also provided with a strip-shaped limiting groove which is consistent with the cutting direction of the inner arc-shaped shell, and the outer side wall of the inner arc-shaped shell is provided with a limiting slide block which is arranged in the strip-shaped limiting groove; the outer side wall of the upper end of the inner arc-shaped shell is also provided with a limiting pin hole; a detachable limiting pin is also arranged in the limiting pin hole; after the limiting pin is installed, the inner arc-shaped shell is fixed on the arc-shaped shell, the hole positions of the root growing holes in the inner arc-shaped shell and the arc-shaped shell are overlapped, and the edge of the hole of the root growing hole in the inner arc-shaped shell is provided with a sharp blade surface structure with a wide upper part and a narrow lower part; after the inboard arc orbit of interior arc casing edge pushed down, the root system growth hole edge's of interior arc casing cutting edge face structure can be with the root system cutting that passes this root system growth hole to on resistant briquetting was touched to the lower terminal surface of interior arc casing, and the dislocation of root system growth hole on the interior arc casing and the root system growth hole on the arc casing appears overlapping this moment, makes the root system growth hole on two casings mutually seal up.

Preferably, the upper end part of the arc-shaped shell is also provided with an outer support lug which extends out transversely; the whole spherical shell can be conveniently lifted by arranging the outer supporting lugs.

Preferably, the upper end part of the inner arc-shaped shell is provided with an inner supporting lug which extends transversely, and the area of the inner supporting lug is smaller than that of the outer supporting lug; the inner supporting lug is arranged, so that the inner arc-shaped shell can be conveniently hammered by external force.

Preferably, the inner arc-shaped shell and the root growing holes on the arc-shaped shell are both arranged in an annular arrangement structure; in order to ensure that the root growing holes on the two shells can be staggered relatively smoothly.

Preferably, the pressure-resistant block has the same height as that of the inner arc-shaped casing, and the entire screw hole extending from the lower side does not penetrate the pressure-resistant block.

Preferably, the lower end part of the inner arc-shaped shell is contacted with the pressure-resistant block after downwards moving and cutting, and the downwards moving distance is 1.5 hole site distances; in order to make the inner arc-shaped shell capable of cutting the root system integrally, the moving distance is set to be 1.5 hole sites.

Has the advantages that: the invention has the following beneficial effects:

(1) the device is provided with two arc shells which are hinged, the two arc shells can be combined into a hemisphere shell as a main seedling culture space of the nursery stock, and the two arc shells are respectively provided with an inner arc shell with a cutting function; root growing holes are correspondingly arranged on the two shells, and the inner arc-shaped shell of the inner layer can be fixed inside through the limiting pin holes and the limiting pins; and the positions of the root growth holes of the two shells are in an overlapped state; therefore, when the nursery stock is cultivated, particularly when large nursery stocks and trees are cultivated, the root systems of the nursery stocks grow in a small space, but the root systems can penetrate through the root growth holes, the whole structure can not hinder the development of the root systems, the whole root systems can not be curled in the small space, the nursery stocks can grow in a divergent and healthy state, and the arrangement is very convenient for the transplantation of the follow-up nursery stocks;

(2) the device not only can cultivate the nursery stock without hindering the development of the root system, but also can transplant the whole nursery stock very conveniently; when the nursery stock reaches a transplantable state after the growth of the hemispherical shell, part of the root system of the nursery stock passes through the root system growth hole and grows in the soil below the root system growth hole, therefore, great resistance is generated during the transplantation, particularly for the nursery stocks with larger specifications, at the moment, if the hemispherical shell is directly lifted, the inner arc-shaped shell in the device is buried in the cultivation soil together, when the semi-spherical shell needs to be transplanted, firstly, in order to reduce the resistance brought by the root system, the root system extending out of the root system growing hole needs to be cut off, therefore, the inner arc-shaped shell is pressed by external force or knocked by a hammer body to lead the inner arc-shaped shell to move down integrally, because the root growing holes on the inner arc-shaped shell are arranged into the structure of the blade surface, when moving downwards, the blade surface can cut the root system extending out of the hole, and then the whole hemispherical shell is lifted up, so that labor is saved; the inner arc-shaped shell can cut the whole root system only by moving 1.5 hole positions downwards, and is convenient; in the process, when the inner arc-shaped shell cuts off the root system, the soil loosening function is achieved, so that the soil of the nursery stock is loosened from the inner wall of the arc-shaped shell, and preparation is made for direct transplanting of the nursery stock in the next step; the divergence of the root system of the seedling growing before is good, so that the seedling growing cannot be influenced after the cutting and the transplanting; in addition, a strip-shaped limiting groove and a limiting sliding block are arranged between the two shells, so that the inner arc-shaped shell can move more smoothly and conveniently;

(3) the two arc-shaped shells in the device are in a hinged installation structure, so that the two arc-shaped shells can be separated and combined, the two arc-shaped shells are combined during cultivation, and can be installed in a seamless butt joint mode through the L-shaped butt joint block arranged at the butt joint surface; therefore, the root system is kept complete during transplanting, and the soil can not fall off; when the seedlings are transplanted, the bolts in the screw holes are detached, the arc-shaped shells on the two sides are separated, the whole seedlings can be placed in the dug pits without damage, and the method is very safe and convenient.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a top view of the present invention.

Detailed Description

The present invention will be further illustrated with reference to the accompanying drawings and specific examples, which are carried out on the premise of the technical solution of the present invention, and it should be understood that these examples are only for illustrating the present invention and are not intended to limit the scope of the present invention.

As shown in fig. 1 and fig. 2, an offset seedling raising device comprises two arc-shaped shells 1 with a quarter-sphere structure; the two arc-shaped shells 1 can be combined to form a hemispherical shell with a hemispherical structure, and the space inside the hemispherical shell is set as a nursery stock cultivation space; the upper ends of the butt joint surfaces of the two arc-shaped shells 1 are hinged and installed into a whole through a hinge piece 2; the two arc-shaped shells 1 can be opened and combined relatively; the butt joint surfaces of the two arc-shaped shells 1 are also provided with L-shaped butt joint blocks 3 which are matched with each other, the butt joint blocks 3 at the two sides can be mutually stacked, and after stacking, the lowest point of the butt joint block 3 at the upper layer is also provided with a pressure-resistant block 4 which protrudes upwards; and the lowest point of the butt-joint blocks 3 at the two sides is also respectively vertically provided with a threaded hole 5, the threaded hole 5 extends from the bottom opening of the butt-joint block 3 to the pressure-resistant block 4 above, and a detachable and adaptive bolt 6 is installed in the threaded hole 5.

The arc-shaped shell 1 is also provided with root growth holes 7 which are uniformly distributed, and also comprises two inner arc-shaped shells 8 which are still in a quarter-sphere structure, the diameter of each inner arc-shaped shell 8 is adaptive to be smaller than that of the arc-shaped shell 1, so that the inner arc-shaped shells 8 are adaptively sleeved in the arc-shaped shells 1, and the inner arc-shaped shells 8 are also provided with root growth holes 7 which are adaptive to each other and uniformly distributed at the same positions on the arc-shaped shells 1; a strip-shaped limiting groove 9 which is consistent with the cutting direction of the inner arc-shaped shell 8 is also arranged on the inner side wall of the arc-shaped shell 1, and a limiting slide block 10 which is arranged in the strip-shaped limiting groove 9 is arranged on the outer side wall of the inner arc-shaped shell 8; the outer side wall of the upper end of the inner arc-shaped shell 8 is also provided with a limit pin hole 11; a detachable limiting pin 12 is also arranged in the limiting pin hole 11; after the limiting pin 12 is installed, the inner arc-shaped shell is fixed on the arc-shaped shell 1, the hole positions of the root growing holes 7 on the inner arc-shaped shell 8 and the arc-shaped shell 1 are overlapped, and the edge of the hole of the root growing hole 7 on the inner arc-shaped shell 8 is provided with a sharp blade surface 13 structure with a wide top and a narrow bottom; after interior arc casing 8 pushed down along the inboard arc orbit of arc casing 1, the root system that this root system grew slot 7 was passed can be cut to the cutting edge face 13 structure at the root system growth slot 7 edge of interior arc casing 8 to the lower terminal surface of interior arc casing 8 touches on resistant briquetting 4, and the dislocation of appearing overlapping of root system growth slot 7 on the interior arc casing 8 and the root system growth slot 7 on the arc casing 1 this moment, makes root system growth slot 7 on two casings block each other.

The upper end part of the arc-shaped shell 1 is also provided with an outer supporting lug 14 which extends transversely; the whole spherical shell can be conveniently lifted by arranging the outer supporting lugs 14; the upper end part of the inner arc-shaped shell 8 is provided with an inner supporting lug 15 which extends transversely, and the area of the inner supporting lug 15 is smaller than that of the outer supporting lug 14; the inner supporting lug 15 is arranged to facilitate hammering the inner arc-shaped shell 8 by external force

The inner arc-shaped shell 8 and the root growing holes 7 on the arc-shaped shell 1 are both arranged in an annular arrangement structure; in order to ensure that the root growth holes 7 on the two shells can be staggered smoothly; the height of the pressure resistant block 4 is the same as that of the inner arc-shaped shell, and the whole threaded hole 5 extending from the lower part does not penetrate through the pressure resistant block 4.

The lower end part of the inner arc-shaped shell 8 touches the pressure-resistant block 4 after moving downwards and cutting, and the distance of moving downwards is 1.5 hole sites; in order to make the inner arc-shaped shell 8 cut the root system as a whole, the moving distance is set to be 1.5 hole sites.

The device is provided with two arc shells which are hinged, the two arc shells can be combined into a hemisphere shell as a main seedling culture space of the nursery stock, and the two arc shells are respectively provided with an inner arc shell with a cutting function; root growing holes are correspondingly arranged on the two shells, and the inner arc-shaped shell of the inner layer can be fixed inside through the limiting pin holes and the limiting pins; and the positions of the root growth holes of the two shells are in an overlapped state; when carrying out the nursery stock and cultivating like this, especially when the cultivation to the nursery stock of big specification, trees, the root system of nursery stock grows up in a less space, but the root system can pass in the root system growth hole, and overall structure can not hinder the development of root system, makes whole root system can not curl in a little space, makes it can be the healthy state growth of form of dispersing to it makes things convenient for the transplantation of follow-up nursery stock very much to set up like this.

The device not only can cultivate the nursery stock without hindering the development of the root system, but also can transplant the whole nursery stock very conveniently; when the nursery stock reaches a transplantable state after the growth of the hemispherical shell, part of the root system of the nursery stock passes through the root system growth hole and grows in the soil below the root system growth hole, therefore, great resistance is generated during the transplantation, particularly for the nursery stocks with larger specifications, at the moment, if the hemispherical shell is directly lifted, the inner arc-shaped shell in the device is buried in the cultivation soil together, when the semi-spherical shell needs to be transplanted, firstly, in order to reduce the resistance brought by the root system, the root system extending out of the root system growing hole needs to be cut off, therefore, the inner arc-shaped shell is pressed by external force or knocked by a hammer body to lead the inner arc-shaped shell to move down integrally, because the root growing holes on the inner arc-shaped shell are arranged into the structure of the blade surface, when moving downwards, the blade surface can cut the root system extending out of the hole, and then the whole hemispherical shell is lifted up, so that labor is saved; the inner arc-shaped shell can cut the whole root system only by moving 1.5 hole positions downwards, and is convenient; in the process, when the inner arc-shaped shell cuts off the root system, the soil loosening function is achieved, so that the soil of the nursery stock is loosened from the inner wall of the arc-shaped shell, and preparation is made for direct transplanting of the nursery stock in the next step; the divergence of the root system of the seedling growing before is good, so that the seedling growing cannot be influenced after the cutting and the transplanting; in addition, a strip-shaped limiting groove and a limiting slide block are further arranged between the two shells, so that the inner arc-shaped shell can move more smoothly and conveniently.

The two arc-shaped shells in the device are in a hinged installation structure, so that the two arc-shaped shells can be separated and combined, the two arc-shaped shells are combined during cultivation, and can be installed in a seamless butt joint mode through the L-shaped butt joint block arranged at the butt joint surface; therefore, the root system is kept complete during transplanting, and the soil can not fall off; when the seedlings are transplanted, the bolts in the screw holes are detached, the arc-shaped shells on the two sides are separated, the whole seedlings can be placed in the dug pits without damage, and the method is very safe and convenient.

The above-described embodiments are only preferred embodiments of the present invention, and should not be construed as limiting the scope of the invention, but rather as equivalent variations and modifications as possible within the scope of the invention as described in the claims of the present application.

Claims

1. The utility model provides a dislocation formula device of growing seedlings which characterized in that: the arc-shaped shell comprises two arc-shaped shells (1) with quarter-sphere structures; the two arc-shaped shells (1) can be combined to form a hemispherical shell with a hemispherical structure, and the space inside the hemispherical shell is set as a nursery stock cultivation space; the upper ends of the butt joint surfaces of the two arc-shaped shells (1) are hinged and installed into a whole through a hinge piece (2); the two arc-shaped shells (1) can be opened and combined relatively; the butt joint surfaces of the two arc-shaped shells (1) are also provided with L-shaped butt joint blocks (3) which are matched with each other, the butt joint blocks (3) at the two sides can be mutually stacked together, and after stacking, a pressure-resistant block (4) which protrudes upwards is also arranged at the lowest point of the butt joint block (3) at the upper layer; threaded holes (5) are respectively vertically arranged at the lowest points of the butt joint blocks (3) on the two sides, the threaded holes (5) extend from the bottom openings of the butt joint blocks (3) to the upper pressure-resistant block (4), and detachable and adaptive bolts (6) are installed in the threaded holes (5);

root growing holes (7) which are uniformly distributed are also formed in the arc-shaped shell (1), the arc-shaped shell also comprises two inner arc-shaped shells (8) which are still of a quarter-sphere structure, the diameter of each inner arc-shaped shell (8) is smaller than that of the arc-shaped shell (1), the inner arc-shaped shells (8) are sleeved in the arc-shaped shell (1) in a matched mode, and the root growing holes (7) which are matched with each other and are uniformly distributed at the same position on the arc-shaped shell (1) are also formed in the inner arc-shaped shells (8); a strip-shaped limiting groove (9) which is consistent with the cutting direction of the inner arc-shaped shell (8) is also formed in the inner side wall of the arc-shaped shell (1), and a limiting sliding block (10) which is arranged in the strip-shaped limiting groove (9) is arranged on the outer side wall of the inner arc-shaped shell (8); the outer side wall of the upper end of the inner arc-shaped shell (8) is also provided with a limit pin hole (11); a detachable limiting pin (12) is also arranged in the limiting pin hole (11); after the limiting pin (12) is installed, the inner arc-shaped shell is fixed on the arc-shaped shell (1), the hole positions of the root growing holes (7) in the inner arc-shaped shell (8) and the arc-shaped shell (1) are overlapped, and the hole edge of the root growing hole (7) in the inner arc-shaped shell (8) is provided with a sharp blade surface (13) structure with a wide top and a narrow bottom; after interior arc casing (8) pushed down along the inboard arc orbit of arc casing (1), the root system that this root system grew slot hole (7) edge was grown to the root system of interior arc casing (8) knife face (13) structure can be with passing this root system and cut, and on resistant briquetting (4) was touched to the lower terminal surface of interior arc casing (8), and dislocation overlapping appeared in root system growth slot hole (7) on this moment interior arc casing (8) and the arc casing (1), make root system growth slot hole (7) on two casings mutually seal up.

2. The dislocation type seedling raising device according to claim 1, wherein: the upper end part of the arc-shaped shell (1) is also provided with an outer supporting lug (14) which extends out transversely.

3. The dislocation type seedling raising device according to claim 2, wherein: the upper end part of the inner arc-shaped shell (8) is provided with an inner supporting lug (15) which extends transversely, and the area of the inner supporting lug (15) is smaller than that of the outer supporting lug (14).

4. The dislocation type seedling raising device according to claim 1, wherein: the root growing holes (7) on the inner arc-shaped shell (8) and the arc-shaped shell (1) are arranged in an annular arrangement structure.

5. The dislocation type seedling raising device according to claim 1, wherein: the height of the pressure-resistant block (4) is the same as that of the inner arc-shaped shell, and the whole threaded hole (5) extending from the lower part does not penetrate through the pressure-resistant block (4).

6. The dislocation type seedling raising device according to claim 1, wherein: the inner arc-shaped shell (8) moves downwards after cutting, the lower end part of the inner arc-shaped shell touches the pressure-resistant block (4), and the distance of the downward movement is 1.5 hole sites.