CN212464199U

CN212464199U - Single seedling pot and pot disc

Info

Publication number: CN212464199U
Application number: CN202020780316.8U
Authority: CN
Inventors: 刁海丰
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-05-12
Filing date: 2020-05-12
Publication date: 2021-02-05
Anticipated expiration: 2030-05-12

Abstract

The utility model discloses a monomer seedling alms bowl and alms bowl dish, include: a bowl body and a chassis; wherein, the bowl body is a hollow shell, and a first opening and a second opening are respectively arranged on the bowl body; the shape and the size of the chassis are matched with those of the second opening; when the base plate is arranged at the second opening, the base plate and the pot body form a single seedling pot with an integrated structure. The single seedling pot and the pot plate provided by the utility model can be damaged and crushed simultaneously in the seedling transplanting process, so that the damaged and crushed single seedling pot and the pot plate can be degraded more quickly; and because the seedling can be damaged and crushed simultaneously in the transplanting process of the seedlings, the seedling transplanting machine can not limit the growth of seedling root systems, and can promote the growth of the seedling root systems by taking the damaged and crushed materials as nutrients; furthermore, the utility model provides a monomer seedling alms bowl and alms bowl dish, friendly to the environment, protected the environment, its structure and preparation simple process simultaneously, low cost are fit for extensive industrial production.

Description

Single seedling pot and pot disc

Technical Field

The utility model relates to a utensil technical field that grows seedlings especially relates to a monomer seedling alms bowl and alms bowl dish.

Background

The existing planting products take common plastic seedling pots and pot plates as examples, and in the process of transplanting seedlings, the seedling pots and the seedlings or the pot plates and the seedlings need to be separated, and the labor intensity of the separation work is high, and the work efficiency is low. In addition, if the abandoned seedling pots and pot plates are not well treated, the environment is seriously polluted. Therefore, in order to solve the above problems, degradable seedling pots and pots which are environmentally friendly are produced.

At present, there are various degradable seedling pots and pots in the prior art which are environmentally friendly, such as: although the seedling pots and the pot plates made of the corn straw materials, the seedling pots and the pot plates made of the bagasse materials and the like well solve the problem of processing the abandoned seedling pots and the abandoned pot plates and avoid environmental pollution, the seedling pots and the pot plates made of the materials need to solve the contradiction between strength and degradation speed in the seedling transplanting process, namely, the material consumption is too small, the use strength is insufficient, the use strength is ensured, the degradation speed cannot be met, and the normal growth of crops is influenced. Therefore, researchers have developed seedling pots and pots made of a composite material in which polylactic acid is mixed with walnut shell powder and other composite materials having similar properties to solve the above problems.

However, most of seedling pots and pots made of composite materials of polylactic acid and walnut shell powder and other composite materials with similar properties in the prior art have complex structures and manufacturing processes, are high in cost and are not suitable for large-scale industrial production, and the seedling pots and pots cannot be simultaneously damaged and crushed in the seedling transplanting process to improve the degradation speed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at the defects of the prior art, and provides a degradable seedling pot and a pot plate which can be damaged and crushed simultaneously in the seedling transplanting process and are environment-friendly, which are used for solving the problem that the seedling pot and the pot plate in the prior art are not easy to be degraded quickly because the seedling pot and the pot plate can not be damaged and crushed simultaneously in the seedling transplanting process.

According to an aspect of the utility model, a monomer seedling alms bowl is provided, include: a bowl body and a chassis; wherein the content of the first and second substances,

the bowl body is a hollow shell, and a first opening and a second opening are respectively arranged on the bowl body; the shape and the size of the chassis are matched with those of the second opening;

when the base plate is arranged at the second opening, the base plate and the pot body form a single seedling pot with an integrated structure.

Optionally, at least one first through hole is arranged on the chassis; and/or the bowl body is provided with at least one second through hole.

Optionally, the bowl is shaped as a cylinder, prism, truncated cone, truncated pyramid, or sphere.

Optionally, the single seedling pot further comprises: a support bowl and/or a support chassis; wherein the content of the first and second substances,

the supporting bowl body is detachably or fixedly arranged on the inner side of the bowl body or on the outer side of the bowl body;

the supporting chassis is detachably or fixedly arranged on one side of the chassis facing the pot body or one side of the chassis far away from the pot body.

Optionally, the shape of the supporting bowl body is the same as that of the bowl body, and the size of the supporting bowl body is matched with that of the bowl body; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

Optionally, when the supporting bowl body and the supporting chassis are respectively and correspondingly arranged on the inner side of the bowl body and the side of the chassis facing the bowl body, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure;

or when the supporting bowl body and the supporting chassis are respectively and correspondingly arranged on the outer side of the bowl body and one side of the chassis far away from the bowl body, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure.

Optionally, at least one third through hole is arranged on the supporting chassis; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

Optionally, the single seedling pot further comprises: a nutrient and/or pesticide slow-release body; wherein, the nutrition slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis; the pesticide slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis;

and/or, the monomer seedling pot also comprises: the at least one damage structure is arranged on the pot body and used for damaging the pot body; preferably, the at least one breaking structure comprises: at least one notch structure on the bowl body at the first opening position; preferably, the shape of the at least one indentation structure is triangular, semicircular, rectangular or square.

Optionally, the material of the bowl body and/or the chassis is a composite material of polylactic acid and walnut shell powder.

According to another aspect of the present invention, there is provided a bowl plate comprising: a plurality of the above-mentioned single seedling pots; a plurality of single seedling pots are connected to form a pot plate with an integrated structure; preferably, a plurality of single seedling pots are connected through connecting parts to form a pot plate of an integral structure.

The utility model provides a monomer seedling alms bowl and alms bowl dish has following beneficial effect:

(1) the single seedling pot and the pot plate provided by the utility model can be damaged and crushed simultaneously in the seedling transplanting process, so that the damaged and crushed single seedling pot and the pot plate can be degraded more quickly;

(2) the single seedling pot and the pot plate provided by the utility model can be damaged and crushed simultaneously in the seedling transplanting process, so that the growth of seedling root systems can not be limited, and the damaged and crushed materials can be used as nutrients to promote the growth of the seedling root systems;

(3) the utility model provides a monomer seedling alms bowl and alms bowl dish is friendly to the environment, has protected the environment, and its structure and preparation simple process simultaneously, low cost are fit for extensive industrial production.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of a single seedling pot provided by the present invention;

fig. 2a is a schematic perspective view of a second embodiment of the single seedling pot provided by the present invention;

fig. 2b is another schematic perspective view of a second embodiment of the single seedling pot provided by the present invention;

fig. 2c is a schematic view of another three-dimensional structure of a second embodiment of the single seedling pot provided by the present invention;

fig. 3a is a schematic perspective view of an embodiment of a bowl plate according to the present invention;

fig. 3b is another schematic perspective view of the embodiment of the bowl plate provided by the present invention.

Detailed Description

The present invention will be described in detail with reference to the following embodiments in order to fully understand the objects, features and functions of the present invention, but the present invention is not limited thereto.

The utility model provides a monomer seedling alms bowl, this monomer seedling alms bowl includes: a bowl body and a chassis; wherein, the bowl body is a hollow shell, and a first opening and a second opening are respectively arranged on the bowl body; the shape and the size of the chassis are matched with those of the second opening; when the base plate is arranged at the second opening, the base plate and the pot body form a single seedling pot with an integrated structure.

Further, at least one first through hole can be arranged on the chassis; and/or the bowl body may be provided with at least one second through aperture. Wherein, at least one first through hole and at least one second through hole not only can promote the drainage ventilative of seedling root system, also can provide more growth spaces for the root system growth of seedling, still reduced the use of preparation material simultaneously, reduced the cost of manufacture. In particular, the person skilled in the art may provide only the at least one first through aperture on the chassis; or at least one second through hole can be arranged on the bowl body only; or at least one first through hole and at least one second through hole can be respectively and correspondingly arranged on the bottom disc and the bowl body.

In addition, the number, shape, size and/or arrangement position of the first through holes arranged on the chassis and/or the number, shape, size and/or arrangement position of the second through holes arranged on the bowl body can be selected by the skilled person according to the actual needs, and the invention is not limited herein.

In the utility model, the shape of the bowl body can be a cylinder, a prism, a truncated cone, a truncated pyramid or a sphere. Of course, the skilled person can also select other shapes of the bowl body according to the actual needs, and the shape is not limited herein.

In an optional embodiment, the single seedling pot of the present invention further comprises: a support bowl and/or a support chassis; wherein, the supporting bowl body is detachably or fixedly arranged at the inner side of the bowl body or at the outer side of the bowl body; the supporting chassis is detachably or fixedly arranged on one side of the chassis facing the pot body or one side of the chassis far away from the pot body. Preferably, the shape of the supporting bowl body is the same as that of the bowl body, and the size of the supporting bowl body is matched with that of the bowl body; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

Optionally, when the supporting bowl body and the supporting chassis are respectively and correspondingly arranged on the inner side of the bowl body and the side of the chassis facing the bowl body, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure; or when the supporting bowl body and the supporting chassis are respectively and correspondingly arranged on the outer side of the bowl body and one side of the chassis far away from the bowl body, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure.

It should be understood that in the utility model, the support bowl and the support chassis respectively support the bowl and the chassis, and simultaneously, because the bowl and the chassis have certain material strength and structural strength, the bowl and the chassis also respectively support the bowl and the support chassis.

Furthermore, when the chassis is provided with at least one first through hole, the supporting chassis can be further provided with at least one third through hole; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture. Wherein, at least one third thru hole not only can promote the drainage of seedling root system ventilative, also can provide more growth spaces for the root system growth of seedling, still reduced the use of preparation material simultaneously, reduced the cost of manufacture.

It is noted that the perpendicular projection of the at least one third through aperture and the perpendicular projection of the at least one first through aperture may not only completely overlap, but also partially overlap, i.e. the perpendicular projection of the at least one third through aperture and the perpendicular projection of the at least one first through aperture have an overlapping area. When the vertical projection of the at least one third through aperture partially overlaps the vertical projection of the at least one first through aperture (i.e., the at least one third through aperture is offset from the at least one first through aperture), the speed of water flowing out of the single seedling pot through the at least one third through aperture and the at least one first through aperture under the action of gravity can be slowed down, so that the seedlings in the single seedling pot can absorb water more sufficiently.

In addition, the number, shape, size and/or arrangement position of the third through holes arranged on the supporting chassis can be selected by the person skilled in the art according to the actual needs, and are not limited herein.

Optionally, the utility model discloses a monomer seedling alms bowl still includes: a nutrient and/or pesticide slow-release body; wherein, the nutrition slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis; and the pesticide slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis.

Particularly, when the single seedling pot of the utility model comprises a supporting pot body, the nutrition slow-release body can be arranged inside and/or on the surface of the supporting pot body; the pesticide slow-release body can be arranged inside and/or on the surface of the supporting bowl body; when the single seedling pot of the utility model comprises the supporting chassis, the nutrition slow-release body can be arranged inside and/or on the surface of the supporting chassis; the pesticide slow-release body can be arranged inside and/or on the surface of the supporting chassis; when the single seedling pot of the utility model comprises the supporting pot body and the supporting chassis, the nutrition slow-release body can be arranged inside the supporting pot body and/or the supporting chassis and/or arranged on the surface of the supporting pot body and/or the supporting chassis; the pesticide delivery body can be disposed within and/or on a surface of the support bowl and/or the support chassis.

Optionally, the utility model discloses a monomer seedling alms bowl still includes: at least one disruption feature is disposed on the bowl for promoting disruption of the bowl. Wherein, the arrangement position, the number and/or the type of the destruction structures on the pot body can be selected by the skilled person according to the actual needs, and the invention is not limited herein.

In a preferred embodiment, the at least one breaking structure comprises: at least one notch structure on the bowl body at the first opening position; wherein, the shape of at least one gap structure can be triangle, semicircle, rectangle or square. Of course, the skilled person can select at least one notch structure with other shapes according to the actual requirement, and the structure is not limited herein. It should be understood that, when there are a plurality of notch structures, the shapes of the notch structures may be the same or different, and are not limited herein.

In order to make the skilled person understand the single seedling pot provided by the present invention more clearly, the shape of the pot body is taken as an example of a cylinder, and the detailed description is given to the single seedling pot provided by the present invention through the first embodiment and the second embodiment.

Example one

Fig. 1 is a schematic perspective view of a first embodiment of the single seedling pot provided by the present invention. As shown in fig. 1, the single seedling pot comprises: a bowl 10 and a chassis 11; wherein, the bowl body 10 is a hollow cylinder shell, a first opening 12 and a second opening (not shown in the figure) are respectively arranged on the bowl body 10, and the first opening 12 and the second opening are arranged oppositely; the shape and the size of the chassis 11 are matched with those of the second opening, and a circular first through hole 13 is arranged at the central position of the chassis 11; when the base plate 11 is arranged in the second opening, the base plate 11 and the pot body 10 form a single seedling pot with an integral structure, and a planting space (not shown) is formed between one side of the base plate 11 facing the pot body 10 and the inner side of the pot body 10.

In this embodiment, the bowl 10 is a hollow cylindrical shell, the first opening 12 is disposed at the position of the upper bottom surface of the hollow cylindrical shell (i.e., the upper bottom surface of the bowl 10), the second opening is disposed at the position of the lower bottom surface of the hollow cylindrical shell (i.e., the lower bottom surface of the bowl 10), and the first opening 12, the second opening, the upper bottom surface of the bowl 10 and the lower bottom surface of the bowl 10 are all the same in shape and size, i.e., are all circular in the same size.

It should be understood that the first opening 12 and the second opening can be located not only at the locations of the top bottom surface of the bowl 10 and the bottom surface of the bowl 10, respectively, as shown in fig. 1, but also at other locations on the bowl 10, but it is necessary to ensure that there is no area of intersection (i.e., no point of intersection, no line of intersection, and no plane of intersection) between the first opening 12 and the second opening.

The shape of the first opening 12 and the second opening may be other shapes besides the circular shape shown in fig. 1, such as a rectangle, a square, a triangle, a trapezoid, a diamond, etc., and those skilled in the art can select the shape of the first opening 12 and the second opening according to actual needs, and the shape is not limited herein; the sizes of the first opening 12 and the second opening can be selected by those skilled in the art according to actual needs, and are not limited herein.

The shape of the first opening 12 and the shape of the second opening may be the same or different, and the size of the first opening 12 and the size of the second opening may be the same or different. For example: a rectangular first opening and a rectangular second opening can be correspondingly arranged on the upper bottom surface and the lower bottom surface of the pot body 10 shown in FIG. 1 respectively, and the size of the first opening is equal to that of the second opening; or a rectangular first opening and a rectangular second opening can be respectively and correspondingly arranged on the upper bottom surface and the lower bottom surface of the pot body 10 shown in fig. 1, and the size of the first opening is not equal to that of the second opening; alternatively, a rectangular first opening could be provided on the top bottom surface of the bowl 10 as shown in FIG. 1 and a circular second opening smaller than the area of the bottom surface of the bowl 10 could be provided on the bottom surface of the bowl 10.

The shape and size of the bottom plate 11 in fig. 1 are the same as those of the second opening, and are circular with the same size, that is, the shape and size of the bottom plate 11 are matched with those of the second opening. The shape of the chassis 11 is not limited to the circular shape shown in fig. 1, and may also be other shapes, such as rectangle, square, triangle, trapezoid, diamond, etc., and a person skilled in the art may select the shape of the chassis 11 according to actual needs, which is not limited herein; the size of the bottom plate 11 can be not only equal to the size of the second opening, but also larger than the size of the second opening, so that when the bottom plate 11 is disposed in the second opening, the bottom plate 11 and the bowl body 10 can form an integrated structure, for example, in fig. 1, the size of the circular bottom plate 11 is equal to the size of the circular second opening, that is, the size of the diameter of the circular bottom plate 11 is equal to the size of the diameter of the circular second opening, so that when the bottom plate 11 is disposed in the second opening, the bottom plate 11 and the bowl body 10 form an integrated structure.

The central position of the chassis 11 is provided with a circular first through hole 13, the first through hole 13 can promote drainage and ventilation of seedling roots, can provide more growth spaces for the growth of the seedling roots, and reduces the use of manufacturing materials and the manufacturing cost.

The shape of the first through hole 13 may be not only circular as shown in fig. 1, but also other shapes such as rectangle, square, triangle, trapezoid, diamond, semicircle, sector, etc., which are not limited herein. The size of the first through aperture 13 can be chosen flexibly by a person skilled in the art according to practical needs, and is not limited herein.

The positions and the number of the first through holes 13 are not limited to those shown in fig. 1, but those skilled in the art can select the positions and/or the number of the first through holes 13 according to actual needs, and the invention is not limited thereto. Preferably, when the number of the first through holes 13 is one, the first through holes 13 are provided at a central position of the chassis 11, as shown in fig. 1; when the number of the first through holes 13 is plural, the plural first through holes 13 are uniformly arranged on the chassis 11.

Further, the single seedling pot of the present embodiment may further include: a support bowl (not shown) and/or a support chassis (not shown). The method specifically comprises the following three optional embodiments:

in a first alternative embodiment, the single-body seedling pot of the present embodiment further comprises: supporting the bowl body; wherein the support bowl is removably or fixedly disposed inside the bowl 10 or outside the bowl 10. In this alternative embodiment, the location, shape and/or size of the support bowl can be selected by one skilled in the art based on the actual needs and is not limited herein. However, to support the bowl 10, it is preferred that the shape of the support bowl is the same as the shape of the bowl 10 and that the size of the support bowl matches the size of the bowl 10.

In a second alternative embodiment, the single-body seedling pot of the present embodiment further comprises: a support chassis; wherein the supporting chassis is detachably or fixedly arranged on one side of the chassis 11 facing the bowl body 10 or on one side of the chassis 11 far away from the bowl body 10. In this alternative embodiment, the location, shape and/or size of the support chassis can be selected by those skilled in the art according to actual needs, and is not limited herein. However, in order to support the chassis 11, it is preferable that the shape of the support chassis is the same as the shape of the chassis 11, and the size of the support chassis is matched with the size of the chassis 11.

In a third alternative embodiment, the single-body seedling pot of the present embodiment further comprises: a supporting bowl body and a supporting chassis; wherein, the supporting bowl body is detachably or fixedly arranged at the inner side of the bowl body 10 or at the outer side of the bowl body 10; the support chassis is removably or fixedly disposed on the side of the chassis 11 facing the bowl 10 or on the side of the chassis 11 away from the bowl 10. In this alternative embodiment, the location, shape and/or size of the support bowl and support chassis can be selected by one of ordinary skill in the art based on the actual needs and is not limited thereto. However, to support the bowl 10 and the chassis 11, preferably the shape of the support bowl is the same as the shape of the bowl 10 and the size of the support bowl matches the size of the bowl 10; the shape of the supporting chassis is the same as the shape of the chassis 11, and the size of the supporting chassis is matched with the size of the chassis 11.

In a third alternative embodiment, the support bowl is removably or fixedly disposed inside the bowl 10 and the support chassis is removably or fixedly disposed on the side of the chassis 11 facing the bowl 10; or the supporting bowl body is detachably or fixedly arranged on the outer side of the bowl body 10, and the supporting chassis is detachably or fixedly arranged on one side of the chassis 11 away from the bowl body 10; or the supporting bowl body is detachably or fixedly arranged on the inner side of the bowl body 10, and the supporting chassis is detachably or fixedly arranged on the side, away from the bowl body 10, of the chassis 11; alternatively, the support bowl may be removably or fixedly positioned on the outside of the bowl 10 and the support chassis removably or fixedly positioned on the side of the chassis 11 facing the bowl 10.

Alternatively, when the supporting bowl body and the supporting chassis are respectively and correspondingly arranged on the inner side of the bowl body 10 and the side of the chassis 11 facing the bowl body 10, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure; or, when the supporting bowl body and the supporting chassis are respectively arranged on the outer side of the bowl body 10 and the side of the chassis 11 far away from the bowl body 10, the supporting bowl body and the supporting chassis are detachably or fixedly connected to form an integral structure.

Further, when at least one first through hole 13 is provided on the chassis 11, at least one third through hole (not shown in the figure) may be further provided on the supporting chassis; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture 13. Wherein, at least one third thru hole not only can promote the drainage of seedling root system ventilative, also can provide more growth spaces for the root system growth of seedling, still reduced the use of preparation material simultaneously, reduced the cost of manufacture.

It is noted that the perpendicular projection of the at least one third through aperture and the perpendicular projection of the at least one first through aperture 13 may not only completely overlap, but also partially overlap, i.e. the perpendicular projection of the at least one third through aperture and the perpendicular projection of the at least one first through aperture 13 have an overlapping area. When the vertical projection of the at least one third through aperture partially overlaps the vertical projection of the at least one first through aperture 13 (i.e., the at least one third through aperture is offset from the at least one first through aperture 13), the speed of water flowing out of the unitary seedling pot through the at least one third through aperture and the at least one first through aperture 13 under the action of gravity can be slowed down, thereby enabling the seedlings in the unitary seedling pot to more fully absorb water.

The position, shape, size and/or number of the third through hole can be selected by those skilled in the art according to the actual needs, and is not limited herein. For example: the third through hole can be in the shape of a circle, a rectangle, a square, a triangle, a trapezoid, a rhombus, a semicircle, a sector and the like; and the number of the third through apertures may be one or more.

In addition, the single seedling pot of this embodiment further includes: a nutrient release body (not shown in the figure) and/or a pesticide release body (not shown in the figure); wherein, the nutrition slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis; and the pesticide slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis.

Specifically, when the single seedling pot of the present embodiment includes a support pot, the nutrient release body may be disposed inside and/or on the surface of the support pot; the pesticide slow-release body can be arranged inside and/or on the surface of the supporting bowl body; when the single seedling pot of the present embodiment includes the supporting base plate, the nutrient-releasing body may be disposed inside and/or on the surface of the supporting base plate; the pesticide slow-release body can be arranged inside and/or on the surface of the supporting chassis; when the single seedling pot of the embodiment comprises the supporting pot body and the supporting base plate, the nutrition slow-release body can be arranged inside the supporting pot body and/or the supporting base plate and/or arranged on the surface of the supporting pot body and/or the supporting base plate; the pesticide delivery body can be disposed within and/or on a surface of the support bowl and/or the support chassis.

Optionally, the single seedling pot of this embodiment further includes: at least one disruption structure (not shown) is provided on the bowl 10 to facilitate disruption of the bowl 10. The placement, number and/or type of the at least one disruption structure on the bowl 10 can be selected by one skilled in the art according to the actual needs, and is not limited herein.

In a preferred embodiment, the at least one breaking structure comprises: at least one notch structure (not shown) on the bowl 10 at the location of the first opening 12; wherein, the shape of at least one gap structure can be triangle, semicircle, rectangle or square. Of course, the skilled person can select at least one notch structure with other shapes according to the actual requirement, and the structure is not limited herein. It should be understood that, when there are a plurality of notch structures, the shapes of the notch structures may be the same or different, and are not limited herein.

Example two

Fig. 2a is a schematic perspective view of a second embodiment of the single seedling pot provided by the present invention. As shown in fig. 2a, the single seedling pot comprises: a bowl 20 and a bottom plate 21; wherein, the bowl body 20 is a hollow cylinder shell, a first opening 22 and a second opening (not shown in the figure) are respectively arranged on the bowl body 20, the first opening 22 and the second opening are arranged oppositely, and a plurality of second through holes 24 are uniformly arranged on the bowl body 20 in an array manner; the shape and the size of the chassis 21 are matched with those of the second opening, and a plurality of circular first through holes 23 are uniformly arranged on the chassis 21; when the bottom plate 21 is arranged in the second opening, the bottom plate 21 and the pot body 20 form a single seedling pot with an integral structure, and a planting space (not shown) is formed between one side of the bottom plate 21 facing the pot body 20 and the inner side of the pot body 20.

In this embodiment, the bowl 20 is a hollow cylindrical shell, the first opening 22 is disposed at the position of the upper bottom surface of the hollow cylindrical shell (i.e., the upper bottom surface of the bowl 20), the second opening is disposed at the position of the lower bottom surface of the hollow cylindrical shell (i.e., the lower bottom surface of the bowl 20), and the first opening 22, the second opening, the upper bottom surface of the bowl 20, and the lower bottom surface of the bowl 20 are all the same in shape and size, i.e., are all circular in the same size.

It should be understood that the first opening 22 and the second opening can be located not only at the locations corresponding to the top bottom surface of the bowl 20 and the bottom surface of the bowl 20, respectively, as shown in fig. 2a, but also at other locations on the bowl 20 where at least one second through hole 24 is not located, but it is necessary to ensure that there is no intersection area (i.e., no intersection, no line of intersection, and no plane of intersection) between the first opening 22 and the second opening.

The shape of the first opening 22 and the second opening may be other shapes besides the circular shape shown in fig. 2a, such as a rectangle, a square, a triangle, a trapezoid, a diamond, etc., and those skilled in the art can select the shape of the first opening 22 and the second opening according to actual needs, and the shape is not limited herein; the sizes of the first opening 22 and the second opening can be selected by those skilled in the art according to actual needs, and are not limited herein.

The shape of the first opening 22 and the shape of the second opening may be the same or different, and the size of the first opening 22 and the size of the second opening may be the same or different. For example: a rectangular first opening and a rectangular second opening can be correspondingly arranged on the upper bottom surface and the lower bottom surface of the pot body 20 shown in FIG. 2a, and the size of the first opening is equal to that of the second opening; or a rectangular first opening and a rectangular second opening can be respectively and correspondingly arranged on the upper bottom surface and the lower bottom surface of the pot body 20 shown in fig. 2a, and the size of the first opening is not equal to that of the second opening; alternatively, a rectangular first opening could be provided on the top bottom surface of the bowl 20 as shown in FIG. 2a and a circular second opening smaller than the area of the bottom surface of the bowl 20 could be provided on the bottom surface of the bowl 20.

The shape and size of the bottom plate 21 in fig. 2a are the same as the shape and size of the second opening, and they are circular with the same size, that is, the shape and size of the bottom plate 21 and the shape and size of the second opening are matched with each other. The shape of the chassis 21 is not limited to the circular shape shown in fig. 2a, but may be other shapes, such as rectangle, square, triangle, trapezoid, diamond, etc., and those skilled in the art can select the shape of the chassis 21 according to actual needs; the size of the bottom plate 21 can be not only equal to the size of the second opening, but also larger than the size of the second opening, so that when the bottom plate 21 is arranged in the second opening, the bottom plate 21 and the bowl body 20 can form an integral structure, for example: in fig. 2a, the size of the circular bottom plate 21 is equal to the size of the circular second opening, i.e. the diameter of the circular bottom plate 21 is equal to the diameter of the circular second opening, so that when the bottom plate 21 is arranged in the second opening, the bottom plate 21 and the bowl body 20 form an integral structure.

Evenly be provided with a plurality of first thru holes 23 on the chassis 21, this first thru hole 23 not only can promote the drainage of seedling root system ventilative, also can provide more growth spaces for the root system growth of seedling, has still reduced the use of preparation material simultaneously, has reduced the cost of manufacture.

The shape of the first through hole 23 may be not only circular as shown in fig. 2a, but also other shapes such as rectangle, square, triangle, trapezoid, diamond, semicircle, sector, etc., which are not limited herein. The size of the first through aperture 23 can be chosen flexibly by a person skilled in the art according to practical needs, and is not limited herein.

In addition, the number of the first through apertures 23 may be one as shown in fig. 2a, or may be plural, which is not limited herein; the position of the first through aperture 23 can be selected by a person skilled in the art according to the actual requirements and is not limited herein. Preferably, when the number of the first through holes 23 is one, the first through holes 23 are provided at a central position of the chassis 21; when the number of the first through holes 23 is plural, the plural first through holes 23 are uniformly disposed on the chassis 21, as shown in fig. 2 a.

The plurality of second through holes 24 are uniformly arranged on the pot body 20, the second through holes 24 can promote drainage and ventilation of seedling roots, provide more growth space for the growth of the seedling roots, reduce the use of manufacturing materials and reduce the manufacturing cost.

The shape of the second through hole 24 may be not only circular as shown in fig. 2a, but also other shapes such as rectangle, square, triangle, trapezoid, diamond, semicircle, sector, etc., which are not limited herein. The size of the second through aperture 24 can be flexibly selected by those skilled in the art according to actual needs, and is not limited herein.

In addition, the number of the second through holes 24 may be a plurality as shown in fig. 2a, or may be one, which is not limited herein; the position of the second through aperture 24 can be selected by a person skilled in the art according to the actual needs, and is not limited herein. Preferably, when the number of the second through holes 24 is multiple, a uniform array of the second through holes 24 is arranged on the bowl 20, as shown in fig. 2 a.

Further, as shown in fig. 2a and 2b, the single seedling pot of the present embodiment may further include: a support bowl 25 and/or a support chassis 26. The method specifically comprises the following three optional embodiments:

in a first alternative embodiment, the single-body seedling pot of the present embodiment further comprises: a support bowl 25; wherein the support bowl 25 is removably or fixedly disposed on the inside of the bowl 20 or on the outside of the bowl 20. In this alternative embodiment, the location, shape and/or size of the support bowl 25 can be selected by one of ordinary skill in the art based on the actual needs and is not limited thereto. However, to support the bowl 20, it is preferred that the support bowl 25 be the same shape as the bowl 20 and that the size of the support bowl 25 match the size of the bowl 20.

In a second alternative embodiment, the single-body seedling pot of the present embodiment further comprises: a support chassis 26; wherein the support chassis 26 is removably or fixedly disposed on a side of the chassis 21 facing the bowl 20 or on a side of the chassis 21 away from the bowl 20. In this alternative embodiment, the location, shape and/or size of the support chassis 26 can be selected by those skilled in the art according to actual needs, and is not limited herein. However, in order to support the chassis 21, it is preferable that the shape of the support chassis 26 is the same as the shape of the chassis 21, and the size of the support chassis 26 and the size of the chassis 21 are matched with each other.

In a third alternative embodiment, as shown in fig. 2b, the single seedling pot of this embodiment further comprises: a support bowl 25 and a support chassis 26; wherein, the supporting bowl body 25 can be detachably or fixedly arranged at the inner side of the bowl body 20 or at the outer side of the bowl body 20; the support chassis 26 can be removably or fixedly disposed on the side of the chassis 21 facing the bowl 20 or on the side of the chassis 21 away from the bowl 20. In this alternative embodiment, the placement, shape and/or size of the support bowl 25 and support chassis 26 can be selected by one of ordinary skill in the art based on the actual needs and are not limited thereto. However, to support the bowl 20 and the chassis 21, preferably the support bowl 25 is the same shape as the bowl 20 and the size of the support bowl 25 matches the size of the bowl 20; the shape of the support chassis 26 is the same as the shape of the chassis 21, and the size of the support chassis 26 and the size of the chassis 21 match each other.

In a third alternative embodiment, the support bowl 25 is removably or fixedly disposed on the inside of the bowl 20 and the support chassis 26 is removably or fixedly disposed on the side of the chassis 21 facing the bowl 20; alternatively, the support bowl 25 can be removably or fixedly disposed on the outside of the bowl 20, and the support chassis 26 can be removably or fixedly disposed on the side of the chassis 21 away from the bowl 20; alternatively, the support bowl 25 can be removably or fixedly disposed on the inside of the bowl 20, and the support chassis 26 can be removably or fixedly disposed on the side of the chassis 21 away from the bowl 20; alternatively, the support bowl 25 can be removably or fixedly positioned on the outside of the bowl 20 and the support chassis 26 can be removably or fixedly positioned on the side of the chassis 21 facing the bowl 20.

Alternatively, when the supporting bowl body 25 and the supporting chassis 26 are respectively arranged on the inner side of the bowl body 20 and the side of the chassis 21 facing the bowl body 20, the supporting bowl body 25 and the supporting chassis 26 are detachably or fixedly connected to form an integral structure; alternatively, the support bowl 25 and the support chassis 26 can be removably or fixedly attached to form a unitary structure when the support bowl 25 and the support chassis 26 are positioned outside the bowl 20 and on a side of the chassis 21 away from the bowl, respectively.

Further, as shown in fig. 2b, when at least one first through hole 23 is provided on the bottom plate 21, at least one third through hole 27 may be further provided on the supporting bottom plate 26; the perpendicular projection of the at least one third through aperture 27 has an overlapping area with the perpendicular projection of the at least one first through aperture 23. Wherein, the at least one third through hole 27 not only can promote the drainage and ventilation of the seedling root system, but also can provide more growth space for the growth of the seedling root system, simultaneously reduces the use of manufacturing materials and reduces the manufacturing cost.

Specifically, as shown in fig. 2b, a circular third through hole 27 is provided at the center position of the supporting chassis 26, a circular first through hole 23 is provided at the center position of the chassis 21, and the vertical projection of the third through hole 27 completely overlaps the vertical projection of the first through hole 23.

It should be noted that the perpendicular projection of the at least one third through aperture 27 and the perpendicular projection of the at least one first through aperture 23 may not only completely overlap, but also partially overlap, i.e. the perpendicular projection of the at least one third through aperture 27 and the perpendicular projection of the at least one first through aperture 23 have an overlapping area. When the vertical projection of the at least one third through aperture 27 partially overlaps the vertical projection of the at least one first through aperture 23 (i.e., the at least one third through aperture 27 is offset from the at least one first through aperture 23), the speed of water flowing out of the unitary seedling pot through the at least one third through aperture 27 and the at least one first through aperture 23 under the action of gravity can be slowed down, thereby enabling the seedlings in the unitary seedling pot to more fully absorb water.

The position, shape, size and/or number of the third through hole 27 can be selected by those skilled in the art according to the actual requirement, and is not limited herein. For example: the third through aperture 27 may be circular, rectangular, square, triangular, trapezoidal, diamond, semicircular, fan-shaped, etc.; and the number of third through apertures 27 may be one or more.

Optionally, as shown in fig. 2a, the single seedling pot of the present embodiment further includes: at least one disruption feature (not shown) is provided on the bowl 20 to facilitate disruption of the bowl 20. Wherein, the position, the number and/or the type of the at least one breaking structure on the pot body 20 can be selected by the skilled person according to the actual needs, and is not limited herein.

Preferably, as shown in fig. 2a and 2c, the at least one breaking structure comprises: at least one notch structure 28 on the bowl 20 at the location of the first opening 22; wherein, the shape of at least one notch structure 28 can be triangle, semicircle, rectangle or square. Of course, the skilled person can select the at least one notch structure 28 with other shapes according to the actual requirement, which is not limited herein. It should be understood that when there are a plurality of notch structures 28, the shapes of the notch structures may be the same or different, and are not limited herein. Specifically, in FIG. 2c, the at least one disruption structure 28 is two notch structures 28 on the bowl 20 at the location of the first opening 22; wherein both notch structures 28 are triangular in shape.

It should be noted that, in the utility model discloses in, the shape and the size on chassis and second open-ended shape and size are matchd each other and are meant when the chassis sets up in the second opening, and the chassis can form a body structure with the alms bowl, that is to say, the shape on chassis can be the same with second open-ended shape or different, and the size on chassis should be greater than or equal to second open-ended size to make the chassis set up when the second opening, chassis and alms bowl can form a body structure.

It should be understood that the utility model provides a set up a plurality of first thru holes on the chassis and/or set up a plurality of second thru holes on the alms bowl body and/or when setting up a plurality of third thru holes on supporting the chassis, not only can promote the drainage of seedling root system ventilative, also can provide more growth spaces for the root system growth of seedling, still reduced the use of preparation material simultaneously, reduced the cost of manufacture, and it more helps most importantly the utility model discloses a monomer seedling alms bowl is destroyed simultaneously and is smashed at the in-process that the seedling was transplanted to improve degradation rate.

In the present invention, for the materials of the pot body, the chassis, the supporting pot body and/or the supporting chassis, the person skilled in the art can select the degradable materials which can be used for manufacturing the pot body, the chassis, the supporting pot body and the supporting chassis in the prior art according to the actual needs, and the present invention is not limited herein. Preferably, the material of the bowl and/or the chassis is a composite material of a bioplastic mixed with biomass and/or mineral substances; the material of the supporting bowl body and/or the supporting chassis is one or more of soil, biomass, bioplastic and mineral substances; wherein, the material of the biological plastic can be one or more of polylactic acid, polyhydroxyalkanoate, polycaprolactone and polybutylene succinate; the biomass material can be one or more of walnut shell powder, fruit shell powder, wood powder, quartz powder, shell powder and grain powder; the mineral material is one or more of silicon dioxide powder, montmorillonite and kaolin.

In addition, the composite material prepared by mixing the polylactic acid and the walnut shell powder has the following advantages: (1) compared with other wood-plastic materials, the material has good sheet processability, and can still process a sheet with thinner thickness under the condition of doping walnut shell powder with higher proportion; (2) the welding performance is better, the welding material is similar to plastic, and the welding material can be easily processed into a required shape; (3) the moderate breaking strength can provide enough material strength in the seedling cultivation process and has proper brittleness, so that the composite material can be damaged and crushed by small force in the seedling transplanting process, and the single seedling pot is cracked; (4) the material has good water resistance, and still has good water resistance when the material is thin; (5) environment-friendly degradability; (6) the cost is low. Therefore, the material of the pot body and the chassis in the utility model is more preferably a composite material of polylactic acid mixed with walnut shell powder. However, the utility model discloses the composite material that the mixed of polylactic acid and walnut shell powder that well adoption is the composite material that polylactic acid and walnut shell powder mix among the prior art, the utility model discloses do not carry out any improvement to the composite material that polylactic acid and walnut shell powder mix.

It should be noted that in the present invention, the materials used for the bowl, the chassis, the support bowl and/or the support chassis are all prior art materials, the present invention does not improve upon the materials themselves, and the materials involved in the present invention are merely mixed together without any chemical reaction occurring between them.

The utility model also provides a alms bowl dish, this alms bowl dish includes: a plurality of individual seedling pots; a plurality of single seedling bowls are connected to form an integrated bowl plate. Wherein, monomer seedling alms bowl does the utility model provides a monomer seedling alms bowl, field technical personnel can select according to actual need the utility model provides a monomer seedling alms bowl, do not do the injecing here.

The number of the single seedling pots in the pot tray can be more than two, and the arrangement mode and/or the connection mode can be selected by those skilled in the art according to actual needs, which is not limited herein.

In an alternative embodiment, as shown in FIG. 3a, the bowl plate includes: four single seedling pots 30; the four individual seedling pots 30 are connected with each other to form a pot plate of an integral structure. Wherein the single seedling pot 30 is the single seedling pot shown in fig. 1; the four single seedling pots 30 are arranged in an array to form two rows and two columns of pot plates, and partial areas of the pot bodies of the four single seedling pots 30 are connected with each other to form an integral structure.

In another alternative embodiment, as shown in FIG. 3b, the bowl plate includes: four single seedling pots 30; the four individual seedling pots 30 are connected with each other to form a pot plate of an integral structure. Wherein the single seedling pot 30 is the single seedling pot shown in fig. 1; the four single seedling pots 30 are arranged in an array to form two rows and two columns of pot plates, and the four single seedling pots 30 are connected to form an integral structure through connecting parts 31 arranged at first openings of the four single seedling pots 30.

The position, shape and/or size of the connecting member 31 may be selected by those skilled in the art according to actual needs, and is not limited herein. Specifically, in fig. 3b, the connecting member 31 is a square plate structure, and 4 circular holes matching with the shape and size of the first opening are formed thereon.

It should be noted that the connection processes adopted in the present invention are the connection processes in the prior art, such as: pasting, welding, etc., and is not limited herein.

In addition, each optional and/or preferred embodiment in the embodiments of the present invention can be used alone, and can be used in combination with other optional or preferred embodiments, and those skilled in the art can select the embodiment according to actual needs, and the embodiment is not limited herein.

The utility model provides a monomer seedling alms bowl and alms bowl dish can be destroyed simultaneously and smash at the in-process that the seedling was transplanted, and this not only makes monomer seedling alms bowl and alms bowl dish after destroying crushing degraded faster, still can not restrict the growth of seedling root system to can promote the growth of seedling root system as the nourishment with destroying the material after smashing. Additionally, the utility model provides a monomer seedling alms bowl and alms bowl dish, friendly to the environment, protected the environment, its structure and preparation simple process simultaneously, low cost are fit for extensive industrial production.

Finally, it is noted that: the above list is only the concrete implementation example of the present invention, and of course those skilled in the art can make modifications and variations to the present invention, and if these modifications and variations fall within the scope of the claims of the present invention and their equivalent technology, they should be considered as the protection scope of the present invention.

Claims

1. A single seedling pot, comprising: a bowl body and a chassis; wherein the content of the first and second substances,

the pot body is a hollow shell, and a first opening and a second opening are respectively arranged on the pot body; the shape and the size of the chassis are matched with those of the second opening;

2. The single seedling pot as claimed in claim 1, wherein the bottom plate is provided with at least one first through hole; and/or at least one second through hole is arranged on the bowl body.

3. The single seedling pot of claim 1, wherein the pot is in the shape of a cylinder, prism, truncated cone, truncated pyramid or sphere.

4. The single seedling pot of claim 2, wherein the pot is in the shape of a cylinder, prism, truncated cone, truncated pyramid or sphere.

5. The one-piece seedling pot of claim 1, further comprising: a support bowl and/or a support chassis; wherein the content of the first and second substances,

6. The one-piece seedling pot of claim 2, further comprising: a support bowl and/or a support chassis; wherein the content of the first and second substances,

7. The one-piece seedling pot of claim 3, further comprising: a support bowl and/or a support chassis; wherein the content of the first and second substances,

8. The one-piece seedling pot of claim 4, further comprising: a support bowl and/or a support chassis; wherein the content of the first and second substances,

9. The single seedling pot as claimed in claim 5, wherein the shape of the support pot is the same as the shape of the pot, and the size of the support pot is matched with that of the pot; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

10. The single seedling pot as claimed in claim 6, wherein the shape of the support pot is the same as the shape of the pot, and the size of the support pot is matched with that of the pot; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

11. The single seedling pot as claimed in claim 7, wherein the shape of the support pot is the same as the shape of the pot, and the size of the support pot and the size of the pot are matched with each other; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

12. The single seedling pot as claimed in claim 8, wherein the shape of the support pot is the same as the shape of the pot, and the size of the support pot and the size of the pot are matched with each other; and/or the shape of the supporting chassis is the same as that of the chassis, and the size of the supporting chassis is matched with that of the chassis.

13. The single seedling pot as claimed in claim 5, wherein the support pot and the support chassis are detachably or fixedly connected to form an integral structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

14. The single seedling pot as claimed in claim 6, wherein the support pot and the support chassis are detachably or fixedly connected to form an integral structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

15. The single seedling pot as claimed in claim 7, wherein the support pot and the support chassis are detachably or fixedly connected to form a unitary structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

16. The single seedling pot as claimed in claim 8, wherein the support pot and the support chassis are detachably or fixedly connected to form a unitary structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

17. The single seedling pot as claimed in claim 9, wherein the support pot and the support chassis are detachably or fixedly connected to form an integral structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

18. The single seedling pot as claimed in claim 10, wherein the support pot and the support chassis are detachably or fixedly connected to form a unitary structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

19. The single seedling pot as claimed in claim 11, wherein the support pot and the support chassis are detachably or fixedly connected to form an integral structure when the support pot and the support chassis are respectively arranged on the inner side of the pot and the side of the chassis facing the pot;

20. The single seedling pot as claimed in claim 12, wherein the support pot and the support chassis are detachably or fixedly connected to form a unitary structure when the support pot and the support chassis are respectively disposed at the inner side of the pot and the side of the chassis facing the pot;

21. The single seedling pot of claim 6, wherein the support chassis is provided with at least one third through hole; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

22. The single seedling pot of claim 8, wherein the support chassis is provided with at least one third through hole; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

23. The single seedling pot of claim 10 wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

24. The unitary seedling pot of claim 12 wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

25. The unitary seedling pot of claim 14, wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

26. The unitary seedling pot of claim 16, wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

27. The unitary seedling pot of claim 18 wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

28. The unitary seedling pot of claim 20 wherein the support chassis is provided with at least one third through aperture; the perpendicular projection of the at least one third through aperture has an overlapping area with the perpendicular projection of the at least one first through aperture.

29. The monolithic seedling pot of any one of claims 5-28, further comprising: a nutrient and/or pesticide slow-release body; the nutrition slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis; the pesticide slow-release body is arranged inside the supporting bowl body and/or the supporting chassis and/or arranged on the surface of the supporting bowl body and/or the supporting chassis.

30. The monolithic seedling pot of any one of claims 1-28, further comprising: at least one disruption structure disposed on the bowl for disrupting the bowl.

31. The one-piece seedling pot of claim 29, further comprising: at least one disruption structure disposed on the bowl for disrupting the bowl.

32. The monolithic seedling pot of claim 30, wherein the at least one disruption structure comprises: at least one notch structure on the bowl at the location of the first opening.

33. The monolithic seedling pot of claim 31, wherein the at least one disruption structure comprises: at least one notch structure on the bowl at the location of the first opening.

34. The unitary seedling pot of claim 32, wherein the at least one gap structure is triangular, semi-circular, rectangular, or square in shape.

35. The unitary seedling pot of claim 33, wherein the at least one gap structure is triangular, semi-circular, rectangular, or square in shape.

36. A bowl dish comprising: a plurality of monomeric seedlings bowls of any one of claims 1-35; the single seedling pots are connected to form the pot plate of an integrated structure.

37. The bowl plate according to claim 36 wherein the plurality of individual seedling bowls are connected by connecting members to form the bowl plate as a unitary structure.