CN211152954U

CN211152954U - Seedling out-of-season planting device

Info

Publication number: CN211152954U
Application number: CN201922115378.7U
Authority: CN
Inventors: 杨斌
Original assignee: Zhejiang Yintian Environmental Technology Co ltd
Current assignee: Zhejiang Yintian Environmental Technology Co ltd
Priority date: 2019-11-30
Filing date: 2019-11-30
Publication date: 2020-08-04
Anticipated expiration: 2029-11-30

Abstract

The utility model relates to a nursery stock anti-season planting device, including the pond of planting that is used for placing planting soil, the pond of planting puts up and is equipped with supporting component, supporting component is including being fixed in the support of the pond opening top of planting and being fixed in the lock ring on the support, it plants the basin to have placed in the lock ring, the basin of planting includes that interior basin and cover locate the outer basin of interior basin, outer basin and lock ring stop-spin is connected, interior basin along outer basin axis with outer basin rotates to be connected, and it has solved the problem that the nursery stock survival rate is low, has the survival rate that improves the nursery stock and reduces the cost of labor, reduces the advantage of transplanting the degree of difficulty.

Description

Seedling out-of-season planting device

Technical Field

The utility model relates to a nursery stock equipment for planting technical field especially relates to a nursery stock is planting device out of season.

Background

At the present stage, when the urbanization is specifically built, the landscaping project is widely concerned by people as one of the lighting points of the urban landscape. The landscaping construction in the urbanization process has certain promotion significance, can play a beautifying role in cities besides effectively improving the urban ecological environment, effectively improves the urban charm and image, and effectively improves the living environment of people.

When the engineering seedlings of the flower and plant trees are grown to meet the requirements of the engineering seedlings in a certain scale, the engineering seedlings are transplanted to various positions of a city to afforest and beautify the urban environment.

Among the prior art, when cultivating engineering seedling, generally with the seedling direct plug-in plant in soil, when it grows to have certain scale to reach engineering seedling requirement, the manual work directly takes out it with native ball, but this kind of operation mode has certain limitation: firstly, when the engineering seedlings are dug, soil balls need to be dug at the same time to ensure the survival rate of the engineering seedlings, so that the labor cost is increased; secondly, when the engineering seedlings are dug, the size of the soil balls cannot be controlled, and the rootstocks can be shoveled off, so that the engineering seedlings die, and the survival rate of the engineering seedlings is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a nursery stock anti-season planting device, it has solved the problem that the nursery stock survival rate is low, has the survival rate that improves the nursery stock and reduces the cost of labor, reduces the advantage of transplanting the degree of difficulty.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a nursery stock out-of-season planting device comprises a planting pond for placing planting soil, wherein a supporting assembly is erected on the planting pond and comprises a support fixed above an opening of the planting pond and a supporting ring fixed on the support, a planting pot is placed in the supporting ring and comprises an inner pot and an outer pot sleeved on the inner pot, the outer pot is connected with the supporting ring in a rotation stopping manner, the inner pot is rotatably connected with the outer pot along the axis of the outer pot, a plurality of first hollow parts uniformly distributed along the circumferential direction of the outer pot are formed in the circumferential side wall of the outer pot, the sum of the areas of the first hollow parts is equal to half of the area of the circumferential side wall of the outer pot, and the part between every two adjacent first hollow parts is named as a first shielding part; the side wall of the inner basin is provided with a plurality of edges, and the inner basin is circumferentially and uniformly distributed with two hollowed-out portions, the sum of the areas of the two hollowed-out portions is equal to one half of the area of the side wall of the inner basin, two adjacent hollowed-out portions are named as two shielding portions, the inner basin rotates relative to the outer basin, and when the two shielding portions completely shield the hollowed-out portions, the two hollowed-out portions are shielded by the one shielding portion.

By adopting the technical scheme, the nursery stock is planted in the planting pot filled with soil, then the planting pot is buried in the soil of the planting pool and placed on the supporting ring, so that the root system of the nursery stock can grow in the inner pot, and the first hollowed part is communicated with the second hollowed part to form a through hole for ensuring the normal growth of the root system of the nursery stock, namely, the root of the nursery stock is prevented from being soaked in water and rotten and air circulation is kept; when the seedlings grow to the scale of engineering seedlings and need to be taken out, the inner pot is rotated relative to the outer pot, the hollow part is shielded by the shielding part in the process, the shielding part I and the shielding part II form a closed pot for shielding the inside and the outside of the planting pot, the peripheral side wall of a soil ball in the planting pot is compacted, redundant root hairs extending out of the hollow part are simultaneously cut off in a circular mode, the soil ball and the seedlings form a whole body, so that the subsequent soil ball can be taken out conveniently, then the whole planting pot is taken out of a planting pool, and finally the seedlings are taken out of the planting pot; the planting pot is used for limiting the soil balls of the seedlings and is equivalent to a mold, so that the shape of each soil ball is approximately the same, the phenomenon that roots and stems are cut off due to the fact that the size of the soil ball cannot be controlled is avoided, and the survival rate of the seedlings is improved; meanwhile, the process of rotating the inner basin is soil ball repairing, so that the soil balls are not easy to loosen and are convenient for subsequent soil ball taking out, the soil balls do not need to be manually dug and taken out, the transplanting difficulty is reduced, and the labor cost is reduced.

The utility model discloses further set up to: the outer edge of the pot opening of the outer pot is outwards turned over by a first turned edge, and the inner concave surface of the first turned edge is sleeved on the side surface of the upper part of the support ring; the outer edge of the basin mouth of the inner basin is outwards turned over by a section of second turned edge, and the inner concave surface of the second turned edge is sleeved on the upper side surface of the first turned edge.

By adopting the technical scheme, the planting pot can be placed by the nesting of the first flanging and the supporting ring, and the annular slide rail is formed by the nesting of the second flanging and the first flanging, so that the inner pot can conveniently rotate relative to the outer pot, thereby improving the stability of rotation,

the utility model discloses further set up to: at least one convex block is vertically protruded from the side face of the upper part of the support ring, and a groove for vertically clamping and embedding the convex block is formed in the inner concave face of the first flanging.

By adopting the technical scheme, the rotation stopping connection of the outer pot and the support ring can be realized, and meanwhile, the inserting direction of the convex block and the groove is the vertical direction, so that the planting pot is conveniently separated from the support ring vertically and upwards.

The utility model discloses further set up to: the second flanging is fixed with two limiting rods, the limiting rods are symmetrically distributed on the edges of the second flanging along the diameter of the inner basin, the first flanging is fixed with a fixing block, and the side wall of the fixing block is provided with limiting holes for the limiting rods to be inserted in the circumferential rotation direction of the limiting rods.

By adopting the technical scheme, after the inner pot rotates a certain angle relative to the outer pot, when the whole planting pot needs to be separated from the support ring, the limiting rod is inserted into the limiting hole, so that the fixed connection between the inner pot and the outer pot is realized, the lifting of the planting pot can be completed only by lifting the inner pot, and the convenience of operation is improved.

The utility model discloses further set up to: the fixed block sets up to two sets ofly, two sets of the fixed block is followed outer basin diameter symmetric distribution is in a turn-ups edge, and a set of two fixed blocks that are, the spacing hole on two fixed blocks in the same group supplies same root gag lever post to insert and establishes, and is relative between two fixed blocks in the same group the contained angle of outer basin axis equals the central angle of the shortest arc length between two adjacent fretwork portions one.

By adopting the technical scheme, the two fixed blocks in the same group limit the rotation angle of the inner pot relative to the outer pot, so that two gears for rotation of the inner pot are formed, the first gear is the state that the hollow parts are communicated with each other, and the state is the normal growth state of the nursery stock; the second gear is that the shielding part shields the hollow part, and the state is that the nursery stock needs to be taken out; thereby ensure that whether the basin rotates to the suitable position in the basin in-process can be clearly understood to operating personnel, improved the convenience of operation.

The utility model discloses further set up to: and two handles are fixed on the side wall of the second flanging, and are symmetrically distributed on the edges of the second flanging along the diameter of the inner basin.

By adopting the technical scheme, the handle is rotated to drive the inner basin to rotate relative to the outer basin, and the handle also plays a role in lifting the inner basin conveniently.

The utility model discloses further set up to: the axis position of the basin bottom of interior basin has seted up the round hole, the axis position protrusion of the basin bottom of outer basin is fixed with and wears to locate the round hole and rotate the round bulge of being connected with the round hole.

By adopting the technical scheme, the rotating coaxiality of the inner basin relative to the outer basin can be improved, and the rotating stability is improved.

The utility model discloses further set up to: the supporting rings are arranged into a plurality of groups, the supporting rings are arranged along the longitudinal equal distance and are arranged along the transverse equal distance.

By adopting the technical scheme, the nutrients absorbed by the seedlings can be ensured to be approximately the same, and the finally grown engineering seedlings are consistent in size, so that the requirement of large-scale engineering seedlings is met.

To sum up, the utility model discloses following beneficial effect has:

1. the planting pot is used for limiting the soil balls of the seedlings and is equivalent to a mold, so that the shape of each soil ball is approximately the same, the phenomenon that roots and stems are cut off due to the fact that the size of the soil ball cannot be controlled is avoided, and the survival rate of the seedlings is improved; meanwhile, the process of rotating the inner pot is soil ball repairing, so that the soil balls are not easy to loosen and are convenient for subsequent soil ball taking out, the soil balls do not need to be manually dug and taken out, the transplanting difficulty is reduced, and the labor cost is reduced;

2. through setting up two fixed blocks of the same group, limited the turned angle of interior basin outer basin relatively, constituted two gears of interior basin pivoted to guarantee that operating personnel rotates interior basin in-process and can know whether interior basin rotates to suitable position, improved the convenience of operation.

Drawings

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

fig. 2 is a schematic structural view of the support assembly of the present invention;

FIG. 3 is an exploded view of the structure of the planting pot of the present invention;

FIG. 4 is a sectional view of a planting pot of the present invention;

FIG. 5 is a plan view of the planting pot of the present invention.

In the figure, 1, planting ponds; 2. a support assembly; 3. planting pots; 4. a handle; 21. a support; 22. a support ring; 23. a bump; 24. a groove; 31. an outer basin; 311. a first hollow part; 312. a first shielding part; 313. round convex; 314. flanging one; 315. a fixed block; 316. a limiting hole; 32. an inner basin; 321. a hollow part II; 322. a second shielding part; 323. a circular hole; 324. flanging two; 325. a limiting rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

A seedling out-of-season planting device is shown in figure 1 and comprises a planting pool 1 for placing planting soil, a supporting component 2 is erected on the planting pool 1, and a planting pot 3 is placed on the supporting component 2; planting the nursery stock in a planting pot 3 filled with soil, then burying the planting pot 3 in the soil of the planting pond 1 and placing the planting pot on the supporting component 2, thus realizing the planting of the nursery stock.

As shown in fig. 2, the supporting assembly 2 comprises a bracket 21 fixed above the opening of the planting pond 1 and supporting rings 22 fixed on the bracket 21, the supporting rings 22 are arranged into a plurality of groups, the groups of supporting rings 22 are arranged at equal intervals along the longitudinal direction, and the supporting rings 22 in the same group are arranged at equal intervals along the transverse direction.

As shown in FIG. 3, the planting pot 3 comprises an inner pot 32 and an outer pot 31 sleeved on the inner pot 32, the outer pot 31 is connected with the support ring 22 in a rotation stopping manner, and the inner pot 32 is connected with the outer pot 31 in a rotating manner along the axis of the outer pot 31; the axis position of the bottom of the inner basin 32 is provided with a round hole 323, the axis position of the bottom of the outer basin 31 is fixed with a round protrusion 313 in a protruding mode, the round protrusion 313 penetrates through the round hole 323, and the round protrusion 313 is rotatably connected with the round hole 323.

As shown in fig. 3, a plurality of first hollow portions 311 are formed in the peripheral side wall of the outer tub 31, each first hollow portion 311 is uniformly distributed along the circumferential direction of the outer tub 31, the sum of the areas of the first hollow portions 311 is equal to half of the area of the peripheral side wall of the outer tub 31, and a part between two adjacent first hollow portions 311 is named as a first blocking portion 312; the peripheral side wall of the inner basin 32 is provided with a plurality of second hollow parts 321, each second hollow part 321 is uniformly distributed along the circumferential direction of the inner basin 32, the sum of the areas of the second hollow parts 321 is equal to half of the area of the peripheral side wall of the inner basin 32, and the part between every two adjacent second hollow parts 321 is named as a second shielding part 322; when the first shielding portion 322 completely shields the first hollow portion 311, the second hollow portion 321 is shielded by the first shielding portion 312 during the rotation of the inner tub 32 relative to the outer tub 31.

As shown in fig. 4, the outer edge of the basin mouth of the outer basin 31 is turned over outwards by a first turned-over edge 314, the inner concave surface of the first turned-over edge 314 is sleeved on the upper side surface of the support ring 22, the outer edge of the basin mouth of the inner basin 32 is turned over outwards by a second turned-over edge 324, and the inner concave surface of the second turned-over edge 324 is sleeved on the upper side surface of the first turned-over edge 314; as shown in fig. 3, at least one protrusion 23 is vertically protruded from the side surface of the upper portion of the support ring 22, and a groove 24 for vertically clamping and embedding the protrusion 23 is formed in the concave surface of the first turned edge 314; the anti-rotation connection of the outer basin 31 and the support ring 22 can be realized through the clamping and embedding of the convex block 23 and the concave groove 24.

As shown in fig. 3 and 5, two limiting rods 325 are fixed on the second flange 324, and the limiting rods 325 are symmetrically distributed on the edge of the second flange 324 along the diameter of the inner basin 32; two groups of fixing blocks 315 are fixed on the first flanging 314, the two groups of fixing blocks 315 are symmetrically distributed on the edge of the first flanging 314 along the diameter of the outer basin 31, one group is two fixing blocks 315, the side walls of the two fixing blocks 315 in the same group are provided with limiting holes 316 for inserting one limiting rod 325 along the circumferential rotation direction of the limiting rod 325, namely the limiting holes 316 on the two fixing blocks 315 in the same group are used for inserting the same limiting rod 325; the included angle between the two fixed blocks 315 in the same group relative to the axis of the outer basin 31 is equal to the central angle of the shortest arc length between the two adjacent hollow parts 311.

As shown in fig. 3, two handles 4 are fixed on the side wall of the second flange 324, and the handles 4 are symmetrically distributed on the edge of the second flange 324 along the diameter of the inner pot 32.

Working principle;

as shown in fig. 1, the nursery stock is planted in the planting pot 3 filled with soil, then the planting pot 3 is buried in the soil of the planting pool 1 and placed on the support ring 22, so that the root system of the nursery stock can grow in the inner pot 32, and the first hollow part 311 is communicated with the second hollow part 321 to form a through hole for ensuring the normal growth of the root system of the nursery stock, namely, the root system of the nursery stock is prevented from soaking water and rotting and air circulation is kept; when the seedlings grow to the scale of engineering seedlings and need to be taken out, as shown in fig. 3, the inner pot 32 is rotated relative to the outer pot 31, the hollow part is shielded by the shielding part in the process, the shielding part I312 and the shielding part II 322 form a closed pot for shielding the inside and the outside of the planting pot 3, the peripheral side wall of the soil ball in the planting pot 3 is compacted, the redundant root hairs extending out of the hollow part are cut off in a ring mode, the soil ball and the seedlings form a whole body, so that the subsequent soil ball can be taken out conveniently, then the whole planting pot 3 is taken out from the planting pool 1, and finally the seedlings are taken out from the planting pot 3; the planting pot 3 is used for limiting the soil balls of the seedlings, the planting pot 3 is equivalent to a mold, the shape of each soil ball is approximately the same, the phenomenon that roots and stems are cut off due to the fact that the size of the soil ball cannot be controlled is avoided, and therefore the survival rate of the seedlings is improved; meanwhile, the process of rotating the inner basin 32 is the soil ball repairing process, so that the soil balls are not easy to loosen and are convenient for subsequent soil ball taking out, the soil balls do not need to be manually dug and taken out, the transplanting difficulty is reduced, and the labor cost is reduced;

as shown in fig. 5, the two fixing blocks 315 in the same group define a rotation angle of the inner pot 32 relative to the outer pot 31, and form two gears for rotating the inner pot 32, where the first gear is a state where the hollowed parts are communicated with each other, and the state is a state where the nursery stock normally grows; the second gear is that the shielding part shields the hollow part, and the state is that the nursery stock needs to be taken out; thereby ensuring that an operator can clearly see whether the inner basin 32 rotates to a proper position in the process of rotating the inner basin 32, and improving the convenience of operation.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent laws within the scope of the present invention.

Claims

1. The utility model provides a seedling out of season planting device which characterized by: comprises a planting pool (1) for placing planting soil, a supporting component (2) is erected on the planting pool (1), the supporting component (2) comprises a bracket (21) fixed above the opening of the planting pool (1) and a supporting ring (22) fixed on the bracket (21), a planting pot (3) is arranged in the support ring (22), the planting pot (3) comprises an inner pot (32) and an outer pot (31) sleeved on the inner pot (32), the outer basin (31) is connected with the support ring (22) in a rotation stopping way, the inner basin (32) is connected with the outer basin (31) in a rotating way along the axis of the outer basin (31), the peripheral side wall of the outer basin (31) is provided with a plurality of hollow parts (311) which are uniformly distributed along the circumferential direction of the outer basin (31), the sum of the areas of the first hollow parts (311) is equal to half of the area of the inner peripheral side wall of the outer basin (31), and the part between every two adjacent first hollow parts (311) is named as a first shielding part (312); the week lateral wall of interior basin (32) has seted up a plurality of and has followed interior basin (32) circumference evenly distributed's fretwork portion two (321), the area sum of fretwork portion two (321) equals interior basin (32) interior circumference lateral wall's area half, adjacent two part between fretwork portion two (321) is named shielding portion two (322), and interior basin (32) rotate the in-process outside basin (31) relatively, and when shielding portion two (322) sheltered from fretwork portion one (311) completely, fretwork portion two (321) are sheltered from by shielding portion one (312).

2. The out-of-season nursery stock planting device as claimed in claim 1, wherein: the outer edge of the pot mouth of the outer pot (31) is outwards turned over by a first flanging (314), and the inner concave surface of the first flanging (314) is sleeved on the side surface of the upper part of the support ring (22); the outer edge of the basin mouth of the inner basin (32) is outwards turned over with a second flanging (324), and the inner concave surface of the second flanging (324) is sleeved on the side surface of the upper part of the first flanging (314).

3. The out-of-season seedling planting device as claimed in claim 2, wherein: at least one lug (23) is vertically protruded from the side face of the upper part of the support ring (22), and a groove (24) for vertically clamping and embedding the lug (23) is formed in the inner concave face of the first flanging (314).

4. The out-of-season seedling planting device as claimed in claim 2, wherein: the second flanging (324) is fixed with two limiting rods (325), the limiting rods (325) are arranged on the edge of the second flanging (324) along the diameter of the inner basin (32) in a symmetrical mode, the first flanging (314) is fixed with a fixing block (315), and the side wall of the fixing block (315) is arranged in the circumferential rotation direction of the limiting rods (325) and is provided with limiting holes (316) for the limiting rods (325) to be inserted.

5. The out-of-season seedling planting device as claimed in claim 4, wherein: the fixed block (315) sets up to two sets ofly, two sets of fixed block (315) are followed outer basin (31) diameter symmetric distribution is on turn-ups one (314) edge, and a set of two fixed blocks (315) that are, and spacing hole (316) on two fixed blocks (315) of the same group supply same root gag lever post (325) to insert and establish, and is relative between two fixed blocks (315) of the same group the contained angle of outer basin (31) axis equals the central angle of the shortest arc length between two adjacent fretwork portions one (311).

6. The out-of-season seedling planting device as claimed in claim 4, wherein: two handles (4) are fixed on the side wall of the second flanging (324), and the handles (4) are symmetrically distributed on the edge of the second flanging (324) along the diameter of the inner basin (32).

7. The out-of-season nursery stock planting device as claimed in claim 1, wherein: round hole (323) have been seted up to the axis position of the pelvic floor of interior basin (32), the axis position protrusion of the pelvic floor of outer basin (31) is fixed with and wears to locate round hole (323) and rotate round bulge (313) of being connected with round hole (323).

8. The out-of-season nursery stock planting device as claimed in claim 1, wherein: the support rings (22) are arranged into a plurality of groups, the support rings (22) are arranged along the longitudinal direction at equal intervals, and the support rings (22) are arranged along the transverse direction at equal intervals.