CN116724849B - Fruit seedling planting device convenient for transplanting and application method thereof - Google Patents

Abstract

The invention belongs to the technical field of seedling transplanting devices, in particular to a seedling planting device convenient for transplanting and a using method thereof, comprising a placing table and a through groove, wherein the top of the placing table is provided with the through groove penetrating through the placing table; a first plant basin and a second plant basin are arranged in the through groove, the shapes and the sizes of the first plant basin and the second plant basin are the same, and a storage groove is formed in the bottom surface of the first plant basin; according to the invention, the first plant basin and the second plant basin are pulled out from the through groove of the placing table, and then the first plant basin and the second plant basin are pulled to move in the direction away from each other, and the first plant basin and the second plant basin are connected with the containing groove in a sliding manner through the fixing plate, so that the second plant basin cannot be separated from the first plant basin, and meanwhile, the gap between the first plant basin and the second plant basin is increased, so that the Chinese chestnut seedlings can be placed conveniently after the gap is increased.

Description

Fruit seedling planting device convenient for transplanting and application method thereof

Technical Field

The invention belongs to the technical field of seedling transplanting devices, and particularly relates to a seedling planting device convenient for transplanting and a using method thereof.

Background

The fruit seedlings are also called as nursery stock for short, and the fruit seedlings are called as various fruit tree seedlings, arbor seedlings and shrub seedlings: the seedlings with root systems and seedling stems are called seedlings no matter the ages of the seedlings cultivated in the nursery, and before the seedlings are transplanted, the seedlings are required to be loaded and transferred through a plant basin, and the seedlings are temporarily cultivated by utilizing the plant basin, so that the seedlings can normally grow to a transplanting place.

The chinese chestnut sapling also belongs to one kind of sapling, when transplanting chinese chestnut sapling, load chinese chestnut sapling through using the plant basin, transplant again, and traditional plant basin is loading the plant in, normally directly put into the plant basin with the plant, because chinese chestnut sapling root's earth is comparatively loose, when the root is bigger than the port of plant basin, the condition that chinese chestnut sapling is difficult to put into directly can appear, if the chinese chestnut sapling is packed into in the plant basin by the strong line, can lead to chinese chestnut sapling root loose earth to scatter to the panel of placing the platform, and traditional plant basin is inside does not possess fastening mechanism, lead to chinese chestnut sapling after getting into the plant basin, inside loose earth is difficult to hug closely chinese chestnut sapling root, be difficult to play the effect of very good protection to its root and promoting its growth.

Therefore, the invention provides a fruit seedling planting device convenient for transplanting and a using method thereof.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a fruit seedling planting device convenient for transplanting, which comprises a placing table and a through groove, wherein the top of the placing table is provided with the through groove penetrating through the placing table; the inside of the through groove is provided with a first plant basin and a second plant basin, the shapes and the sizes of the first plant basin and the second plant basin are the same, the bottom surface of the first plant basin is internally provided with a storage groove, one side of the second plant basin, which is close to the first plant basin, is fixedly provided with a fixed plate, the fixed plate is in sliding connection with the storage groove, the inside of the storage groove is fixedly provided with a hollow elastic block, the other end of the elastic block is connected with the fixed plate, the inside of the elastic block is preloaded with nutrient solution, the top of the first plant basin is fixedly provided with a liquid outlet pipe, the liquid outlet pipe is communicated with the elastic block, and the outer surfaces of the first plant basin and the second plant basin are respectively provided with an end cover; the Chinese chestnut seedlings also belong to one of the seedlings, when the Chinese chestnut seedlings are transplanted, the Chinese chestnut seedlings are loaded by using a plant pot and transplanted, and when the traditional plant pot is loaded with plants, the plants are usually directly put into the plant pot, because the soil at the root of the Chinese chestnut seedlings is loose, when the root is bigger than the port of the plant pot, the condition that the Chinese chestnut seedlings are difficult to directly put can occur, if the Chinese chestnut seedlings are plugged into the plant pot by a strong line, the soil at the loose root of the Chinese chestnut seedlings can be scattered onto the panel of the placing table, and the fastening mechanism is not arranged in the traditional plant pot, so that the loose soil at the inner part is difficult to cling to the root of the Chinese chestnut seedlings after entering the plant pot, the root of the Chinese chestnut seedlings is difficult to be well protected and the growth of the Chinese chestnut seedlings can be promoted. The first plant basin and the second plant basin are pulled to move towards the direction away from each other, and the first plant basin and the second plant basin are in sliding connection with the storage groove through the fixing plate, so that the second plant basin cannot be separated from the first plant basin, meanwhile, the gap between the first plant basin and the second plant basin is increased, after the gap is increased, the placing of Chinese chestnut seedlings can be facilitated, meanwhile, the situation that loose soil at the root of the Chinese chestnut seedlings falls off when the Chinese chestnut seedlings are placed can be reduced, the Chinese chestnut seedlings are placed between the first plant basin and the second plant basin at the moment, after the Chinese chestnut seedlings are placed, the first plant basin slides towards the direction of the second plant basin to reset, the Chinese chestnut seedlings inside the Chinese chestnut seedlings are extruded by the first plant basin and the second plant basin, and then the loose soil at the root of the Chinese chestnut seedlings is compacted, so that the soil can tightly wrap the root of the Chinese chestnut seedlings, and then play the effect of supplementary chinese chestnut sapling growth, when the second plant basin resets under the drive of fixed plate, the fixed plate can extrude the elastic block of accomodating the inslot for nutrient solution in the elastic block passes through the drain pipe and sprays on the chinese chestnut sapling, thereby play the effect of spraying nutrient solution to chinese chestnut sapling, promote the growth of chinese chestnut sapling, accomplish the loading back to chinese chestnut sapling, put it again into the logical inslot of placing the platform, and utilize the end cover to place the surface contact of platform, and then let the end cover play the effect of supporting, the condition that first plant basin and second plant basin can not follow logical inslot landing takes place, place the plant planting car again into the platform, drive chinese chestnut sapling through the plant planting car and remove, and then play the effect of conveniently once only planting a plurality of chinese chestnut saplings.

Preferably, a filter screen is fixedly arranged at a port of the liquid outlet pipe, a multistage rotating rod is connected in the liquid outlet pipe through torsion spring rotation, a rotating shaft is connected at the bottom end of the multistage rotating rod in a rotating mode, the surface of the rotating shaft is attached to the filter screen, a plurality of liquid distributing ports are formed in the side wall of the liquid outlet pipe, a cover plate for blocking the liquid distributing ports is connected to the side wall of the liquid outlet pipe through torsion spring rotation, a connecting rope is fixedly connected to one face of the cover plate, and the other end of the connecting rope is fixedly connected with the multistage rotating rod; when the utility model works, after the nutrient solution in the elastic block is extruded and is rapidly flushed into the drain pipe, the nutrient solution can drive multistage dwang (the pole of a plurality of sliding connection is constituteed) and rotate, make the dwang drive the pivot and rotate together, and utilize the pivot to rotate and beat the filter screen, and then the earth impurity of adhering on the filter screen surface knocks off, reduce the jam of earth impurity to the drain pipe, simultaneously the nutrient solution is when spraying through the filter screen, utilize the filter screen to refine the nutrient solution into the droplet form, and then can spray better in the earth of chinese chestnut sapling, make the earth can absorb the nutrient solution better, simultaneously multistage dwang is rotating, can be opened through the apron of connecting rope drive drain pipe lateral wall, and then spray the nutrient solution through the curb plate blowout, make the nutrient solution can diversified, spray more comprehensively on earth, make things convenient for chinese chestnut sapling to absorb the nutrient solution better.

Preferably, the two end covers are rotationally connected with the first plant basin and the second plant basin through torsion springs, an arc-shaped insert block is fixedly arranged on one surface of the end cover, the width of the insert block is gradually reduced from one end close to the end cover to one end far away from the end cover, through holes penetrating through the first plant basin and the second plant basin are formed in the inner walls of the first plant basin and the second plant basin, square grooves penetrating through the first plant basin and the second plant basin are formed in one side of the end cover, the square grooves and the through holes are in the same straight line, and when the end cover rotates, the free ends of the insert blocks can be driven to be inserted into the through holes; when the novel Chinese chestnut tree seedling box is operated, after Chinese chestnut tree seedlings are placed into a first plant basin and a second plant basin, the end covers are rotated to drive the insert blocks to enter the space between the first plant basin and the second plant basin, at the moment, soil at the top is compacted by the end covers (gaps exist between the end parts of the first plant basin and the second plant basin after the end covers are covered by the end covers, the seedlings at the middle of the plant basin cannot be extruded), meanwhile, the insert blocks are inserted into the soil and then enter the through holes, after the operation is completed, the end covers are rotated, the end covers are enabled to leave the first plant basin and the second plant basin to reset, at the moment, the insert blocks can generate two ventilation channels in soil in the basin to play a role of ventilation of the root parts of the Chinese chestnut tree seedlings, at the same time, the condition of dredging the through holes can be prevented, external air can be conveniently prevented from entering the first plant basin and the second plant basin through the through holes, and the growth of the Chinese chestnut tree seedlings can be promoted.

Preferably, a magnetic layer is arranged on the inner wall of the through hole, a rectangular groove is formed in the surface of the insertion block, a sliding block made of magnetic materials is connected in a sealing and sliding mode through an elastic piece in the rectangular groove, and an air hole communicated with the rectangular groove is formed in the surface of the insertion block; during operation, after the inserted block enters the through hole, the inserted block surface sliding block can be attracted by the opposite sides of the magnetic layer of the through hole, so that the sliding block slides in the direction away from the rectangular groove, the surface of the sliding block is always attached to the surface of the through hole, the sliding block plays a role in cleaning the inner wall of the through hole after the sliding block moves, and then the earth adhered to the inner wall of the through hole is scraped more sufficiently, and further the situation that the cone-shaped inserted block is difficult to scrape the earth in the through hole sufficiently to cause the external gas to be difficult to enter is avoided.

Preferably, a connecting frame is fixedly installed in the square groove, a connecting rod is fixedly installed on one side of the connecting frame, and a top plate is fixedly installed at one end of the connecting rod, which is far away from the connecting frame (in this embodiment, a gap is reserved between the upper end and the lower end of the top plate and the upper end and the lower end of the through hole); when during operation, when chinese chestnut sapling is placed in two plant pots, roof under the initial condition is located through-hole department and can carry out the shutoff to it this moment to can be when transplanting chinese chestnut sapling, compaction is carried out to the earth of through-hole department, prevent that earth from flowing out from great through-hole department, after the end cover rotates work and resets, can drive connecting rod on the connecting frame, the roof gets into in the through-hole together, and the roof can pass in the cavity that through-hole entering first plant pot and second plant pot are constituteed, because the kicking block is loose the back with the roof of chinese chestnut tree root, the circumstances that the very easily takes place to collapse and block up the through-hole of loose earth takes place, after the roof gets into through-hole, can promote earth to the root of chinese chestnut sapling to gather, and then compaction through-hole peripheral earth again, still play the effect of preventing that through-hole peripheral earth from collapsing simultaneously.

Preferably, an arc-shaped groove is formed in one end, far away from the connecting rod, of the top plate, an arc-shaped baffle is connected inside the arc-shaped groove in a sliding mode through an elastic piece, a square groove is formed in the surface of the baffle, a rotating column is connected to the top of the baffle in a rotating mode, and the surface of the rotating column is attached to the inner wall of the through hole; when the working, after the roof passes through the through hole and enters the cavity formed by the first plant basin and the second plant basin, the elastic piece in the arc-shaped groove can drive the baffle to slide out for resetting, so that the roller at the top of the baffle is attached to the inner wall of the through hole, the baffle plays a role in compensating the gap between the roof and the through hole, soil is prevented from flowing into the through hole through the gap, the outside air can still flow into the through hole through the square groove on the baffle, loose soil can be further ensured not to collapse and enter the through hole, the outside air can be effectively led to enter the soil, when the end cover needs to rotate, the rotating column at the top of the baffle plays an auxiliary role in rotating, friction is reduced, the baffle is conveniently driven to enter the arc-shaped groove, and the roof is conveniently moved out of the through hole.

Preferably, the baffle plate is in sealed sliding connection with the arc-shaped groove, one end of the top plate, which is close to the baffle plate, is fixedly connected with an air outlet pipe, the air outlet pipe is communicated with the arc-shaped groove, the inside of the air outlet pipe is in sealed sliding connection with a disc through an elastic rope, and one side of the disc is fixedly connected with a conical dredging rod; during operation, when the baffle slides and contracts to the arc wall, can extrude the gas in the arc wall for in the gas in the arc wall got into the outlet duct, because sealed sliding connection has the disc in the outlet duct, so gas can promote disc and mediation pole to keeping away from the direction slip of outlet duct, make the mediation pole insert the square groove of baffle in, and then play the effect in mediation baffle square groove, prevent that it from taking place the condition of jam, when the baffle no longer slides and contracts to the arc wall in, disc and mediation pole reset under the effect of elastic rope, and then make things convenient for the next time to use.

Preferably, a groove is formed in one end, close to the placement table, of the end cover, a connecting plate is connected in the groove in a sliding mode through a spring seal, and a vent pipe communicated with the groove is fixedly arranged in the square groove; during operation, through design recess and connecting plate, when the plant species plants the car and runs into jolting in carrying chinese chestnut sapling, because the bottom of connecting plate and the surface contact of placing the platform, so end cover can slide each other with the connecting plate when jolting to utilize the spring in the recess to play the effect of buffering, and then reduce jolting, utilize the connecting plate to slide in the recess simultaneously and extrude its inside air, make the air in the recess pass through the breather pipe blowout, and then promote in the earth of gaseous entering chinese chestnut sapling through square groove and through-hole, the entering of supplementary fresh air, and then promote the growth of chinese chestnut sapling.

Preferably, the staving cross-sectional shape that first plant basin and second plant basin constitute is trapezoidal form, and the width of staving is by supreme increase gradually down, during operation, because be sliding connection between first plant basin and the second plant basin, and when putting into chinese chestnut sapling, need pull open first plant basin and second plant basin, this just leads to producing the clearance between lateral wall and the bottom surface that first plant basin and second plant basin laminate mutually, in the earth very easily gets into the clearance of chinese chestnut sapling root this moment, lead to first plant basin and second plant basin when being close to each other, earth in the clearance leads to first plant basin and second plant basin to be difficult to fully close, cause first plant basin and second plant basin to be difficult to put into logical groove, and design into top big, the bottom is little with first plant basin and second plant basin, and the shape of slope, alright smoothly put into first plant basin and second plant basin bottom logical inslot earlier, and through pressing first plant basin and second plant basin shape extrusion first plant basin and second plant basin, and the clearance can not be reduced in the clearance and the realization simultaneously can be reduced by the extrusion of first plant basin and second plant basin, and the clearance is more difficult to reduce the cooperation simultaneously.

The method for using the fruit seedling planting device convenient for transplanting comprises the following steps:

s1: after the gap between the first plant basin and the second plant basin is increased by pulling the first plant basin and the second plant basin to move in the direction away from each other, the Chinese chestnut sapling is put between the first plant basin and the second plant basin, and the first plant basin and the second plant basin are slid again to reset and close;

s2: the first plant basin slides towards the second plant basin for resetting, the first plant basin and the second plant basin are utilized to squeeze the Chinese chestnut seedlings inside, loose soil at the roots of the Chinese chestnut seedlings is compacted, and the soil can tightly wrap the roots of the Chinese chestnut seedlings;

s3: when the second plant basin resets under the drive of fixed plate, the fixed plate can extrude the elastic block of accomodating the inslot for nutrient solution in the elastic block sprays on the chinese chestnut sapling through the drain pipe.

The beneficial effects of the invention are as follows:

1. according to the fruit seedling planting device convenient to transplant and the application method thereof, the first plant basin and the second plant basin are pulled out of the through groove of the placing table, the first plant basin and the second plant basin are pulled to move away from each other, and the first plant basin and the second plant basin are connected with the containing groove in a sliding mode, so that the second plant basin cannot be separated from the first plant basin, meanwhile, the gap between the first plant basin and the second plant basin is increased, the placement of Chinese chestnut seedlings can be facilitated after the gap is increased, meanwhile, the situation that loose soil at the root of the Chinese chestnut seedlings falls when the Chinese chestnut seedlings are placed can be reduced, the Chinese chestnut seedlings are placed between the first plant basin and the second plant basin at the moment, after the Chinese chestnut seedlings are placed, the first plant basin is slid to be reset towards the direction of the second plant basin, the Chinese chestnut seedlings inside are extruded by the first plant basin and the second plant basin, soil at the root of the Chinese chestnut seedlings is compacted, and the root of the Chinese chestnut seedlings can be tightly packed, and the Chinese chestnut seedlings can grow in a growth assisting mode.

2. According to the fruit seedling planting device convenient to transplant and the application method thereof, after the nutrient solution in the elastic block is extruded and quickly rushed into the liquid outlet pipe, the nutrient solution drives the multistage rotating rod (formed by a plurality of rods which are connected in a sliding mode) to rotate, so that the rotating rod drives the rotating shaft to rotate together, the filter screen is knocked by the rotating shaft, soil impurities adhered to the surface of the filter screen are knocked off, the blockage of the liquid outlet pipe by the soil impurities is reduced, meanwhile, the nutrient solution is thinned into small water drops by the filter screen when sprayed out through the filter screen, and then the nutrient solution can be better sprayed into soil of the Chinese chestnut tree seedlings, so that the soil can absorb the nutrient solution better, and meanwhile, the cover plate on the side wall of the liquid outlet pipe is driven to be opened by the connecting ropes when the multistage rotating rod, so that the nutrient solution is sprayed out through the side plates, the effect of spraying the nutrient solution through a plurality of outlets is realized, the nutrient solution can be sprayed onto soil more comprehensively, and the Chinese chestnut tree seedlings can absorb the nutrient solution better.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic perspective view of a placement stage according to the present invention;

FIG. 2 is a schematic view of the structure of the two plant pots of the present invention;

FIG. 3 is a schematic cross-sectional view of the fixing plate of the present invention;

FIG. 4 is a schematic cross-sectional view of an end cap of the present invention;

FIG. 5 is a schematic view of the structure of the liquid outlet pipe in the present invention;

FIG. 6 is a schematic view of a multi-stage turn bar according to the present invention;

FIG. 7 is a schematic view of the structure of FIG. 4A in accordance with the present invention;

FIG. 8 is a schematic view of the structure of FIG. 7B in accordance with the present invention;

FIG. 9 is a schematic cross-sectional view of the outlet tube of the present invention;

FIG. 10 is a schematic cross-sectional view of a web of the present invention;

FIG. 11 is a flow chart of a method of using the fruit seedling planting device of the present invention for facilitating transplanting;

FIG. 12 is a schematic view of a two-by-two plant pot according to the second embodiment of the present invention;

in the figure: 1. a placement table; 2. a through groove; 3. a first plant pot; 4. a second plant pot; 5. an end cap; 6. a storage groove; 7. a fixing plate; 8. an elastic block; 9. a liquid outlet pipe; 10. a filter screen; 11. a multi-stage rotating lever; 12. a rotating shaft; 13. a cover plate; 14. a connecting rope; 15. inserting blocks; 16. a through hole; 17. rectangular grooves; 18. a slide block; 19. a square groove; 20. a connection frame; 21. a connecting rod; 22. a top plate; 23. a baffle; 24. rotating the column; 25. an arc-shaped groove; 26. an air outlet pipe; 27. a disc; 28. a dredging rod; 29. a groove; 30. a connecting plate; 31. and (5) a vent pipe.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Embodiment one:

as shown in fig. 1 to 11, the fruit seedling planting device convenient for transplanting according to the embodiment of the invention comprises a placing table 1 and a through groove 2, wherein the top of the placing table 1 is provided with the through groove 2 penetrating through the placing table; the inside of the through groove 2 is provided with a first plant basin 3 and a second plant basin 4, the shapes and the sizes of the first plant basin 3 and the second plant basin 4 are the same, the bottom surface of the first plant basin 3 is internally provided with a storage groove 6, one side, close to the first plant basin 3, of the second plant basin 4 is fixedly provided with a fixed plate 7, the fixed plate 7 is in sliding connection with the storage groove 6, the inside of the storage groove 6 is fixedly provided with a hollow elastic block 8, the other end of the elastic block 8 is connected with the fixed plate 7, the inside of the elastic block 8 is pre-provided with nutrient solution, the top of the first plant basin 3 is fixedly provided with a liquid outlet pipe 9, the liquid outlet pipe 9 is communicated with the elastic block 8, and the outer surfaces of the first plant basin 3 and the second plant basin 4 are respectively provided with an end cover 5; the Chinese chestnut seedlings also belong to one of the seedlings, when the Chinese chestnut seedlings are transplanted, the Chinese chestnut seedlings are loaded by using a plant pot and transplanted, and when the traditional plant pot is loaded with plants, the plants are usually directly put into the plant pot, because the soil at the root of the Chinese chestnut seedlings is loose, when the root is bigger than the port of the plant pot, the condition that the Chinese chestnut seedlings are difficult to directly put can occur, if the Chinese chestnut seedlings are plugged into the plant pot by a strong line, the soil at the loose root of the Chinese chestnut seedlings can be scattered on the panel of the placing table 1, and the traditional plant pot is not provided with a fastening mechanism, so that the loose soil at the inner part of the Chinese chestnut seedlings is difficult to cling to the root of the Chinese chestnut seedlings after entering the plant pot, and the effect of protecting and promoting the growth of the root of the Chinese chestnut seedlings is difficult to be achieved. The first plant basin 3 and the second plant basin 4 are pulled to move away from each other, and the first plant basin 3 and the second plant basin 4 are connected with the containing groove 6 in a sliding way through the fixing plate 7, so that the second plant basin 4 cannot be separated from the first plant basin 3, a gap between the first plant basin 3 and the second plant basin 4 is increased, the placing of Chinese chestnut seedlings can be facilitated, the situation that loose soil at the root of the Chinese chestnut seedlings falls off when the Chinese chestnut seedlings are placed can be reduced, the Chinese chestnut seedlings are placed between the first plant basin 3 and the second plant basin 4 at the moment, after the Chinese chestnut seedlings are placed, the first plant basin 3 slides towards the second plant basin 4 for resetting, the Chinese chestnut seedlings inside the Chinese chestnut seedlings are extruded by the first plant basin 3 and the second plant basin 4, and then the loose soil at the root of the Chinese chestnut seedlings is compacted, make earth can tightly wrap up the root of chinese chestnut sapling, and then play the effect of supplementary chinese chestnut sapling growth, simultaneously when second plant basin 4 resets under the drive of fixed plate 7, fixed plate 7 can extrude the elastic block 8 of accomodating in the groove 6, make the nutrient solution in the elastic block 8 spray chinese chestnut sapling through drain pipe 9 on, thereby play the effect of spraying the nutrient solution to chinese chestnut sapling, promote the growth of chinese chestnut sapling, accomplish the loading back to chinese chestnut sapling, put it again into put the logical inslot 2 of platform 1, and utilize end cover 5 and place the surface contact of platform 1, and then let end cover 5 play the effect of supporting, guaranteed that the condition that first plant basin 3 and second plant basin 4 can not follow logical inslot 2 take place, will place in the plant planting car again, drive chinese chestnut sapling through the plant planting car and remove, and then play the effect of conveniently once only planting a plurality of chinese chestnut saplings.

The filter screen 10 is fixedly arranged at the port of the liquid outlet pipe 9, the multistage rotating rod 11 is connected in the liquid outlet pipe 9 through torsion spring rotation, the rotating shaft 12 is connected at the bottom end of the multistage rotating rod 11 through rotation, the surface of the rotating shaft 12 is attached to the filter screen 10, a plurality of liquid separation ports are formed in the side wall of the liquid outlet pipe 9, the cover plate 13 for blocking the liquid separation ports is connected to the side wall of the liquid outlet pipe 9 through torsion spring rotation, the connecting rope 14 is fixedly connected to one surface of the cover plate 13, and the other end of the connecting rope 14 is fixedly connected with the multistage rotating rod 11; when the multifunctional Chinese chestnut seedling spraying machine works, after nutrient solution in the elastic block 8 is extruded to be quickly flushed into the liquid outlet pipe 9, the nutrient solution can drive the multistage rotating rod 11 (formed by rods in sliding connection) to rotate, so that the rotating rod drives the rotating shaft 12 to rotate together, the filter screen 10 is knocked by the rotating shaft 12, soil impurities adhered to the surface of the filter screen 10 are knocked off, the blocking of the soil impurities on the liquid outlet pipe 9 is reduced, meanwhile, the nutrient solution is thinned into small water drops by the filter screen 10 when sprayed out through the filter screen 10, and then the nutrient solution can be sprayed into soil of the Chinese chestnut seedling better, the soil can absorb the nutrient solution better, meanwhile, the multistage rotating rod 11 can drive the cover plate 13 on the side wall of the liquid outlet pipe 9 to be opened through the connecting rope 14 when rotated, and then the nutrient solution is sprayed out through the side plates, so that the nutrient solution can be sprayed on the soil in a plurality of directions, and the Chinese chestnut seedling can absorb the nutrient solution better.

The two end covers 5 are rotationally connected with the first plant basin 3 and the second plant basin 4 through torsion springs, an arc-shaped insert block 15 is fixedly arranged on one surface of the end cover 5, the width of the insert block 15 is gradually reduced from one end close to the end cover 5 to one end far away from the end cover 5, through holes 16 penetrating through the inner walls of the first plant basin 3 and the second plant basin 4 are formed in the inner walls of the first plant basin 3 and the second plant basin 4, square grooves 19 penetrating through the inner walls of the end cover 5 are formed in one side of the end cover 5, the square grooves 19 and the through holes 16 are on the same straight line, and when the end cover 5 rotates, the free ends of the insert blocks 15 can be driven to be inserted into the through holes 16; when the Chinese chestnut tree seedling box is in operation, after the Chinese chestnut tree seedling is placed in the first plant basin 3 and the second plant basin 4, the end cover 5 is rotated to drive the insert block 15 to enter between the first plant basin 3 and the second plant basin 4, soil at the top is compacted by the end cover 5 (after the two end covers 5 are covered, gaps are reserved between the end parts of the two end covers and the middle part of the plant basin, the tree seedling positioned in the middle of the plant basin is not extruded), meanwhile, the insert block 15 is inserted into the soil, after the operation is completed, the end cover 5 is rotated, the end cover 5 is enabled to leave the first plant basin 3 and the second plant basin 4 with the insert block 15 to reset, at the moment, the insert block 15 can generate two ventilation channels in soil in the basin to play a role of ventilation of the root of the Chinese chestnut tree seedling, and at the same time, the effect of dredging the through hole 16 can be played, the situation that the through hole 16 is blocked is prevented, and external air is further facilitated to enter the first plant basin 3 and the second plant basin 4 through the through hole 16, so that the growth of the Chinese chestnut tree seedling is promoted.

The inner wall of the through hole 16 is provided with a magnetic layer, the surface of the insertion block 15 is provided with a rectangular groove 17, the inside of the rectangular groove 17 is connected with a sliding block 18 made of magnetic materials in a sealing and sliding way through an elastic piece, and the surface of the insertion block 15 is provided with an air hole communicated with the rectangular groove 17; during operation, after the insert 15 enters the through hole 16, the slider 18 on the surface of the insert 15 is attracted by the magnetic layer of the through hole 16, so that the slider 18 slides in a direction away from the rectangular groove 17, the surface of the slider 18 and the surface of the through hole 16 are always attached, the slider 18 plays a role in cleaning the inner wall of the through hole 16 after the insert 15 moves, and then earth adhered to the inner wall of the through hole 16 is scraped more fully, and the situation that the cone-shaped insert 15 is difficult to scrape earth in the through hole 16 sufficiently, so that external gas is difficult to enter is avoided.

A connecting frame 20 is fixedly installed in the square groove 19, a connecting rod 21 is fixedly installed on one side of the connecting frame 20, and a top plate 22 is fixedly installed on one end of the connecting rod 21 away from the connecting frame 20 (in this embodiment, a gap exists between the upper and lower ends of the top plate 22 and the upper and lower sides of the through hole 16); when the chestnut tree seedling transplanting machine works, when chestnut tree seedlings are placed in two plant pots, the top plate 22 in the initial state is located at the through hole 16 and can be used for blocking the through hole 16, so that soil at the through hole 16 can be compacted when the chestnut tree seedlings are transplanted, the soil is prevented from flowing out of the larger through hole 16, after the end cover 5 rotates to work and resets, the connecting rod 21 on the connecting frame 20 and the top plate 22 are driven to enter the through hole 16 together, the top plate 22 can penetrate through the through hole 16 and enter a cavity formed by the first plant pot 3 and the second plant pot 4, and the loose soil is very easy to collapse and block the through hole 16 after the top plate 22 is loose at the root of the chestnut tree, and the soil can be pushed to gather towards the root of the chestnut tree seedlings after the top plate 22 enters through the through hole 16, so that the soil at the periphery of the through hole 16 is compacted again, and meanwhile the effect of preventing the soil at the periphery of the through hole 16 from collapsing is also played.

An arc-shaped groove 25 is formed in one end, far away from the connecting rod 21, of the top plate 22, an arc-shaped baffle plate 23 is connected inside the arc-shaped groove 25 in a sliding mode through an elastic piece, a square groove is formed in the surface of the baffle plate 23, a rotating column 24 is connected to the top of the baffle plate 23 in a rotating mode, and the surface of the rotating column 24 is attached to the inner wall of the through hole 16; when the operation, after roof 22 passes through in the cavity that through-hole 16 got into first plant basin 3 and second plant basin 4 are constituteed, the inside elastic component of arc wall 25 can drive baffle 23 roll-off and restore to the throne for the gyro wheel at baffle 23 top and the inner wall of through-hole 16 laminate mutually, the baffle 23 plays the effect that compensates roof 22 and through-hole 16 department space this moment, prevent that earth from flowing into through-hole 16 through this space's effect, outside air still can flow into through the square groove on baffle 23 this moment, when having further guaranteed loose earth can not collapse and get into through-hole 16, can also let outside air get into in the earth effectively, when end cover 5 needs to rotate, the pivoted post 24 at baffle 23 top plays supplementary rotation this moment, reduce the friction, conveniently drive baffle 23 get into arc wall 25, and then make things convenient for roof 22 to shift out the effect of through-hole 16.

The baffle plate 23 is in sealed sliding connection with the arc-shaped groove 25, one end of the top plate 22, which is close to the baffle plate 23, is fixedly connected with an air outlet pipe 26, the air outlet pipe 26 is communicated with the arc-shaped groove 25, a disc 27 is in sealed sliding connection with the inside of the air outlet pipe 26 through an elastic rope, and one side of the disc 27 is fixedly connected with a conical dredging rod 28; during operation, when baffle 23 slides and contracts to arc groove 25, can extrude the gas in the arc groove 25 for in the gas in the arc groove 25 got into outlet duct 26, because sealed sliding connection has disc 27 in the outlet duct 26, gas can promote disc 27 and mediation pole 28 to keeping away from the direction slip of outlet duct 26, make mediation pole 28 insert in baffle 23's the square groove, and then play the effect of mediation baffle 23 square groove, prevent that it from taking place the condition of jam, when baffle 23 no longer slides and contracts to arc groove 25, disc 27 and mediation pole 28 reset under the effect of elasticity rope, and then make things convenient for the next time to use.

A groove 29 is formed in one end, close to the placement table 1, of the end cover 5, a connecting plate 30 is connected in a sliding manner in the groove 29 through a spring seal, and a vent pipe 31 communicated with the groove 29 is fixedly arranged in the square groove 19; during operation, through design recess 29 and connecting plate 30, when the plant species plants the car and runs into jolting in carrying chinese chestnut sapling to transport, because the bottom of connecting plate 30 and the surface contact of placing platform 1, end cover 5 can slide each other with connecting plate 30 when jolting to utilize the spring in the recess 29 to play the cushioning effect, and then reduce jolting, utilize connecting plate 30 to slide in recess 29 simultaneously and extrude its inside air, make the air in the recess 29 pass through breather pipe 31 blowout, and then promote in the earth of gas entering chinese chestnut sapling through square groove 19 and through-hole 16, supplementary fresh air's entering, and then promote the growth of chinese chestnut sapling.

The method for using the fruit seedling planting device convenient for transplanting comprises the following steps:

s1: after the gap between the first plant pot 3 and the second plant pot 4 is increased by pulling the first plant pot 3 and the second plant pot 4 to move away from each other, the chestnut seedlings are put between the first plant pot 3 and the second plant pot 4, and the first plant pot 3 and the second plant pot 4 are slid again to reset and close;

S2: the first plant basin 3 slides towards the second plant basin 4 for resetting, the first plant basin 3 and the second plant basin 4 are utilized to squeeze the Chinese chestnut seedlings inside, loose soil at the roots of the Chinese chestnut seedlings is compacted, and the soil can tightly wrap the roots of the Chinese chestnut seedlings;

s3: when the second plant pot 4 is reset under the drive of the fixing plate 7, the fixing plate 7 can extrude the elastic block 8 in the storage groove 6, so that the nutrient solution in the elastic block 8 is sprayed onto the Chinese chestnut seedlings through the liquid outlet pipe 9.

Embodiment two:

as shown in fig. 12, a comparative example one, in which another embodiment of the present invention is: the staving cross-sectional shape that first plant basin 3 and second plant basin 4 constitute is trapezoidal form, and the width of staving is by supreme increase gradually down, during operation, because be sliding connection between first plant basin 3 and the second plant basin 4, and when putting into chinese chestnut sapling, need pull open first plant basin 3 and second plant basin 4, this just leads to producing the clearance between lateral wall and the bottom surface that first plant basin 3 and second plant basin 4 laminate mutually, in the earth very easily gets into the clearance of chinese chestnut sapling root this moment, lead to first plant basin 3 and second plant basin 4 when being close to each other, earth in the clearance leads to first plant basin 3 and second plant basin 4 to be difficult to fully close, cause first plant basin 3 and second plant basin 4 to be difficult to put into logical groove 2, and design into top big, the bottom is little, and the shape of slope with first plant basin 3 and second plant basin 4 bottom put into logical inslot 2 earlier, and through pressing first plant basin 3 and second plant basin 4, and the clearance is more easily pressed down in the second plant basin 4, and the clearance is not reduced with the extrusion that first plant basin 3 is difficult to put into with the second plant basin 4, and the clearance is better, and the diameter is reduced.

Working principle: the first plant basin 3 and the second plant basin 4 are pulled out from the through groove 2 of the placing table 1, the first plant basin 3 and the second plant basin 4 are pulled to move away from each other, the first plant basin 3 and the second plant basin 4 are connected with the containing groove 6 in a sliding way through the fixing plate 7, so that the second plant basin 4 cannot be separated from the first plant basin 3, the gap between the first plant basin 3 and the second plant basin 4 is increased, after the gap is increased, the placing of Chinese chestnut seedlings can be facilitated, meanwhile, the situation that loose soil at the root part falls when the Chinese chestnut seedlings are placed can be reduced, at the moment, the Chinese chestnut seedlings are placed between the first plant basin 3 and the second plant basin 4, after the Chinese chestnut seedlings are placed, the first plant basin 3 is slid and reset towards the second plant basin 4, the Chinese chestnut seedlings inside the first plant basin 3 and the second plant basin 4 are extruded, the loose soil at the root of the chestnut tree seedling is compacted, so that the soil can tightly wrap the root of the chestnut tree seedling, the effect of assisting the growth of the chestnut tree seedling is achieved, meanwhile, when the second plant basin 4 is driven by the fixing plate 7 to reset, the fixing plate 7 can squeeze the elastic block 8 in the storage groove 6, nutrient solution in the elastic block 8 is sprayed onto the chestnut tree seedling through the liquid outlet pipe 9, the effect of spraying the nutrient solution onto the chestnut tree seedling is achieved, the growth of the chestnut tree seedling is promoted, after the loading of the chestnut tree seedling is achieved, the chestnut tree seedling is placed in the through groove 2 of the placement table 1 again, the end cover 5 is contacted with the surface of the placement table 1, the end cover 5 plays a supporting role, the condition that the first plant basin 3 and the second plant basin 4 cannot slide from the through groove 2 is guaranteed, the placement table 1 is placed in a plant planting vehicle, the chestnut tree seedling is driven to move through the plant planting vehicle, thereby playing a role in conveniently planting a plurality of Chinese chestnut seedlings at one time. After the nutrient solution in the elastic block 8 is extruded and quickly rushed into the liquid outlet pipe 9, the nutrient solution can drive the multistage rotating rod 11 (the rod of a plurality of sliding connections) to rotate, so that the rotating rod drives the rotating shaft 12 to rotate together, and the rotating shaft 12 is utilized to rotate to knock the filter screen 10, and then the soil impurities adhered to the surface of the filter screen 10 are knocked off, the blockage of the soil impurities to the liquid outlet pipe 9 is reduced, and meanwhile, the nutrient solution is thinned into small water drops by utilizing the filter screen 10 when sprayed out through the filter screen 10, and then can be sprayed into the soil of the Chinese chestnut tree seedlings better, so that the soil can absorb the nutrient solution better, and meanwhile, the multistage rotating rod 11 can drive the cover plate 13 on the side wall of the liquid outlet pipe 9 to be opened through the connecting rope 14 when rotating, so that the nutrient solution is sprayed out through the side plates, so that the nutrient solution can be sprayed onto the soil in a plurality of directions, and the Chinese chestnut tree seedlings can absorb the nutrient solution better.

After the chinese chestnut sapling is put into first plant basin 3 and second plant basin 4, through the end cover 5 of rotation side, let end cover 5 drive insert 15 get into between first plant basin 3 and the second plant basin 4, utilize end cover 5 to press the earth compaction at top this moment (after the end cover 5 covers, there is the clearance between the tip of both, can not cause the extrusion at plant basin middle part), insert 15 inserts in the earth simultaneously in the back, can get into through-hole 16, after accomplishing this operation, rotate end cover 5, let end cover 5 leave in first plant basin 3 and the second plant basin 4 with insert 15 reset in, insert 15 can generate two ventilative passageways in the earth in the basin this moment, play the ventilative effect of chinese chestnut sapling root, simultaneously can also play the effect of mediation through-hole 16, prevent that the condition of through-hole 16 from taking place, and then make things convenient for external gas to get into in first plant basin 3 and the second plant basin 4 through-hole 16, thereby promote the growth of chinese chestnut sapling. After the insert 15 enters the through hole 16, the sliding blocks 18 on the surface of the insert 15 are attracted by the magnetic layers of the through hole 16, so that the sliding blocks 18 slide in the direction away from the rectangular grooves 17, the surfaces of the sliding blocks 18 and the surfaces of the through holes 16 are always attached, the sliding blocks 18 play a role in cleaning the inner walls of the through holes 16 after the sliding blocks 18 move along with the movement of the insert 15, and then earth adhered to the inner walls of the through holes 16 is scraped more fully, and the situation that the cone-shaped insert 15 is difficult to scrape earth in the through holes 16 sufficiently, so that external gas is difficult to enter is avoided. When the chestnut sapling is placed in the two plant pots, the top plate 22 in the initial state is positioned at the through hole 16 and can be used for blocking the through hole, so that soil at the through hole 16 can be compacted when the chestnut sapling is transplanted, the soil is prevented from flowing out of the larger through hole 16, after the end cover 5 rotates to work and resets, the connecting rod 21 and the top plate 22 on the connecting frame 20 are driven to enter the through hole 16 together, the top plate 22 can penetrate through the through hole 16 to enter a cavity formed by the first plant pot 3 and the second plant pot 4, and the loose soil is easy to collapse to block the through hole 16 after the top plate 22 is loosened by the inserting block 15, and the soil is pushed to gather towards the root of the chestnut sapling after the top plate 22 enters through the through hole 16, so that the soil around the through hole 16 is compacted again, and meanwhile, the effect of preventing the soil around the through hole 16 from collapsing is also played. After roof 22 passes through in the cavity that through-hole 16 got into first plant basin 3 and second plant basin 4 and constitutes, the inside elastic component of arc groove 25 can drive baffle 23 roll-off and restore to the throne for the gyro wheel at baffle 23 top and the inner wall of through-hole 16 laminate mutually, baffle 23 play the effect that compensates roof 22 and through-hole 16 department space this moment, prevent that earth from flowing into through-hole 16 through the effect in here space, outside air can still flow into through the square groove on baffle 23 this moment, when having further guaranteed that loose earth can not collapse and get into through-hole 16, can also let outside air get into earth effectively, when end cover 5 needs to rotate, the pivoted post 24 at baffle 23 top plays supplementary rotation this moment, reduce the friction, conveniently drive baffle 23 get into arc groove 25, and then make things convenient for roof 22 to shift out through-hole 16's effect. When baffle 23 slides and contracts to arc groove 25, can extrude the gas in the arc groove 25 for in the gas in the arc groove 25 got into outlet duct 26, because sealed sliding connection has disc 27 in the outlet duct 26, gas can promote disc 27 and mediation pole 28 to keeping away from the direction slip of outlet duct 26, make the mediation pole 28 insert in baffle 23's the square groove, and then play the effect in mediation baffle 23 square groove, prevent that it from taking place the condition of jam, when baffle 23 no longer slides and contracts to arc groove 25, disc 27 and mediation pole 28 reset under the effect of elastic rope, and then convenient to use next time. Through designing recess 29 and connecting plate 30, when the plant species plants the car and runs into jolting in carrying chinese chestnut sapling to transport, because the bottom of connecting plate 30 and the surface contact of placing platform 1, end cover 5 can slide each other with connecting plate 30 when jolting to utilize the spring in the recess 29 to play the cushioning effect, and then reduce jolting, utilize connecting plate 30 to slide in recess 29 simultaneously and extrude its inside air, make the air in the recess 29 pass through breather pipe 31 blowout, and then promote in the earth of gaseous entering chinese chestnut sapling through square groove 19 and through-hole 16, supplementary fresh air's entering, and then promote the growth of chinese chestnut sapling.

The front, rear, left, right, up and down are all based on fig. 1 in the drawings of the specification, the face of the device facing the observer is defined as front, the left side of the observer is defined as left, and so on, according to the viewing angle of the person.

In the description of the present invention, it should be understood that the terms "center," "longitudinal," "lateral," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate describing the present invention and simplify the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the scope of the present invention.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The utility model provides a fruit seedling planting device convenient to transplant, includes places platform (1) and logical groove (2), place the top of platform (1) and set up logical groove (2) that runs through oneself; the method is characterized in that: the inside of logical groove (2) is equipped with first plant basin (3) and second plant basin (4), the shape and the size of first plant basin (3) and second plant basin (4) are the same, accomodate groove (6) have been seted up to the bottom surface inside of first plant basin (3), one side fixed mounting that second plant basin (4) is close to first plant basin (3) has fixed plate (7), fixed plate (7) and accomodate groove (6) sliding connection, the inside fixed mounting of accomodate groove (6) has hollow elastic block (8), the other end and the fixed plate (7) of elastic block (8) link to each other, the inside pre-installation of elastic block (8) has the nutrient solution, the top fixed mounting of first plant basin (3) has drain pipe (9), drain pipe (9) and elastic block (8) communicate with each other, the surface of first plant basin (3) and second plant basin (4) all is equipped with end cover (5), two end cover (5) all pass through first plant basin (3), the other end cover (5) of first plant basin (4) and the end cover (5) are kept away from to one end of arc-shaped end cover (15) that is close to one end of the end of rotation (15) of first plant basin (3), the utility model discloses a novel multifunctional plant pot, including first plant basin (3) and second plant basin (4), through-hole (16) that runs through self are all offered to the inner wall of first plant basin (3) and second plant basin (4), square groove (19) that runs through self are offered to one side of end cover (5), square groove (19) and through-hole (16) are on same straight line, during end cover (5) rotate, can drive the free end of inserted block (15) and insert inside through-hole (16), the inner wall of through-hole (16) is provided with the magnetic layer, rectangular groove (17) have been offered on the surface of inserted block (15), the inside slider (18) that has magnetic material through elastic component sealing sliding connection of rectangular groove (17), the communicating gas pocket with rectangular groove (17) has been offered on the surface of inserted block (15), the inside fixed mounting of square groove (19) has connecting frame (20), one side fixed mounting of connecting frame (20) has connecting rod (21), the one end fixed mounting that connecting frame (20) kept away from top plate (22), the one end that connecting rod (21) kept away from connecting frame (21) has top plate (22), the one end that connecting rod (25) kept away from connecting frame (25) has arc-shaped groove (23) and arc-shaped groove (23) have arc-shaped groove (23) to rotate, arc-shaped baffle (23), the surface of pivoted post (24) is laminated mutually with the inner wall of through-hole (16), baffle (23) and arc groove (25) seal sliding connection, the one end fixedly connected with outlet duct (26) that roof (22) is close to baffle (23), outlet duct (26) and arc groove (25) communicate with each other, the inside of outlet duct (26) is through sealed sliding connection of elastic rope has disc (27), one side fixedly connected with taper mediation pole (28) of disc (27), recess (29) have been seted up to the one end that end cover (5) is close to place platform (1), the inside of recess (29) is through spring seal sliding connection has connecting plate (30), the inside fixed mounting of square groove (19) has breather pipe (31) communicating with recess (29).

2. The fruit seedling planting device convenient for transplanting as set forth in claim 1, wherein: the utility model discloses a liquid outlet pipe, including drain pipe (9), port department fixed mounting of drain pipe (9) has filter screen (10), the inside of drain pipe (9) is connected with multistage dwang (11) through the torsional spring rotation, the bottom rotation of multistage dwang (11) is connected with pivot (12), the surface of pivot (12) is laminated with filter screen (10) mutually, a plurality of branch liquid mouth has been seted up on the lateral wall of drain pipe (9), the lateral wall of drain pipe (9) is connected with apron (13) to the shutoff of branch liquid mouth through the torsional spring rotation, the one side fixedly connected with connecting rope (14) of apron (13), the other end and multistage dwang (11) fixed connection of connecting rope (14).

3. The fruit seedling planting device convenient for transplanting as set forth in claim 1, wherein: the top of first plant basin (3) and second plant basin (4) is big, the bottom of first plant basin (3) and second plant basin (4) is little, the cross-section of first plant basin (3) and second plant basin (4) is the slope form.

4. A method of using a device for planting fruit seedlings for facilitating transplanting, the method employing the device for planting fruit seedlings for facilitating transplanting according to any one of claims 1 to 3, characterized in that: the method comprises the following steps:

S1: after the gap between the first plant basin (3) and the second plant basin (4) is increased by pulling the first plant basin (3) and the second plant basin (4) to move away from each other, chinese chestnut seedlings are placed between the first plant basin (3) and the second plant basin (4), and the first plant basin (3) and the second plant basin (4) are slid again to reset and close;

s2: the first plant basin (3) slides and resets towards the second plant basin (4), the first plant basin (3) and the second plant basin (4) are utilized to squeeze the Chinese chestnut seedlings inside, and loose soil at the roots of the Chinese chestnut seedlings is compacted, so that the soil can tightly wrap the roots of the Chinese chestnut seedlings;

s3: when the second plant basin (4) is reset under the drive of the fixed plate (7), the fixed plate (7) can extrude the elastic block (8) in the storage groove (6), so that nutrient solution in the elastic block (8) is sprayed onto the Chinese chestnut seedlings through the liquid outlet pipe (9).