CN113748879A

CN113748879A - No wadding fast-growing poplar sapling cultivates equipment

Info

Publication number: CN113748879A
Application number: CN202111077940.7A
Authority: CN
Inventors: 刘茂华; 刘赛
Original assignee: Guoyang Huali Wood Industry Co ltd
Current assignee: Guoyang Huali Wood Industry Co ltd
Priority date: 2021-09-15
Filing date: 2021-09-15
Publication date: 2021-12-07
Anticipated expiration: 2041-09-15
Also published as: CN113748879B

Abstract

The invention relates to the technical field of sapling cultivation, in particular to a flocculation-free fast-growing poplar sapling cultivation device, which comprises a cultivation box, wherein a chassis is sleeved at the lower end of the cultivation box, support plates are respectively arranged at the upper parts of two side surfaces of the cultivation box, which are adjacent to a support plate, a driving part for forcing the chassis to move upwards is arranged on each support plate, a detachable pressing plate for pressing cultivation soil is arranged in the cultivation box, two connecting parts fixedly connected with the cultivation box are symmetrically arranged on the lower surface of each pressing plate, and a hemispherical bulge is fixedly connected at the middle position of the bottom in the chassis. Force poplar branch root system to grow to the direction all around, be favorable to reducing the thickness of soil in the artificial containers, reduce the later stage and change, turn the work load in the artificial containers, reduce intensity of labour, make poplar branch root system grow all around simultaneously after, when the later stage is transplanted, increase the scope of poplar branch root system in ground, improve wind resistance.

Description

No wadding fast-growing poplar sapling cultivates equipment

Technical Field

The invention relates to a device for cultivating a non-flocculent fast-growing poplar seedling, belonging to the technical field of sapling cultivation.

Background

The non-cotton fast-growing poplar generally adopts a cuttage mode to cultivate the saplings. At present, generally, the poplar branch is inserted in the incubator and is cultivated, but the incubator structure is fixed, and after the poplar branch is inserted in the incubator, its root system grows at will, and the root system of poplar branch is the trend of growing downwards always promptly, not only need lay thicker soil horizon in the incubator, increases the use amount of soil, and the later stage is changed and the soil work load that turns over is big, and the root system scope of poplar branch growth is less moreover, and the scope of root system in the ground is less during later stage transplantation, influences its wind resistance.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a flocculation-free fast-growing poplar seedling cultivation device to solve the problems in the background technology.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a no wadding fast-growing poplar sapling cultivates equipment, includes the artificial containers, equal fixedly connected with mounting panel on two sides that parallel of artificial containers, the mounting panel is L type structure, the fixed ear of one end fixedly connected with of artificial containers is kept away from to the mounting panel, artificial containers upper end and lower extreme are the opening form, the pot head is equipped with the chassis under the artificial containers, the extension board is all installed with two side upper portion positions that the mounting panel is adjacent to the artificial containers, install the driving piece that is used for forcing chassis rebound on the extension board, install detachable in the artificial containers and be used for pressing the clamp plate of holding cultivation soil, the opening that is used for cuttage sapling is offered to clamp plate upper surface middle part position, two connecting pieces with artificial containers fixed connection are installed to clamp plate lower surface symmetry, the hemispherical arch of bottom intermediate position fixedly connected with in the chassis.

Specifically, the driving piece includes the drum, the drum run through the extension board and with extension board fixed connection, the drum upper end is for sealing the form, equal fixedly connected with vertical arrangement's connecting rod on two parallel sides on the chassis, the connecting rod upper end extends to in the drum and the spacing dish of fixedly connected with, spacing dish slidable mounting is in the drum, spacing dish downside is equipped with the spring that is in compression state, the spring housing is established on the connecting rod, the spring downside is equipped with the rubber seal ring that is used for restricting the adjustable position of spring lower extreme position, the rubber seal ring cover is established on the connecting rod and is laminated mutually with the connecting rod surface.

Specifically, the bottom is fixed with the support cover in the drum, it has the seal cover to paste through glue to support cover internal surface, the seal cover is established on the connecting rod and is laminated mutually with the connecting rod surface, drum lower extreme surface links to each other with the inflator through the connecting pipe and communicates with each other, the inflator runs through the extension board and with extension board fixed connection, slidable mounting has the piston in the inflator, piston upper surface rotates and is connected with the screw rod of vertical arrangement, the screw rod runs through the inflator and with inflator threaded connection, the external surface mounting in screw rod upper end has the handle.

Specifically, a first through hole is formed in the position where the support plate is provided with the air cylinder, the air cylinder penetrates through the first through hole and is fixed in the first through hole, a second through hole is formed in the position where the support plate is provided with the cylinder, and the cylinder penetrates through the second through hole and is fixed in the second through hole.

Specifically, the upper surface of the rubber sealing ring is fixedly connected with a ring, and the ring is sleeved on the connecting rod.

Specifically, the lower end of the connecting rod is fixedly connected with a bump, and the bump is fixedly connected with the chassis.

Specifically, the connecting piece includes the bobbin, the bobbin run through the clamp plate and with clamp plate fixed connection, the bobbin lower extreme is the opening form, slidable mounting has the rubber buffer in the bobbin, fixedly connected with vertical arrangement's branch under the rubber buffer, branch lower extreme fixedly connected with horizontal pole, horizontal pole and branch be the integrated into one piece structure, the one end and the artificial containers fixed connection of branch are kept away from to the horizontal pole, the bobbin upper end install with the communicating branch pipe of bobbin, branch pipe upper end surface threaded connection has the screw cap.

Specifically, a plurality of holes that leak have evenly been seted up to chassis bottom edge, the chassis downside is equipped with the water-collecting box that is used for collecting moisture of pegging graft mutually with the chassis, equal fixedly connected with grafting strip on two sides that parallel of water-collecting box, grafting strip cross section is "L" shape, the grafting strip is inserted in the inserted rail, inserted rail and artificial containers fixed connection, the inserted rail cross section is "C" shape, inserted rail upper surface symmetry fixedly connected with triangle block, triangle block and artificial containers fixed connection.

The invention has the beneficial effects that:

1. the invention relates to a device for cultivating a cotton-free fast-growing poplar seedling, which is characterized in that a support plate is arranged at a required position by utilizing a bolt to limit the position of an incubator, after a proper amount of soil for cultivating the poplar seedling is added into a chassis and the incubator, a pressure plate is pressed and held on the upper side of the soil to limit the position of the soil in the incubator, a poplar branch is inserted into the soil and then downwards grows along with the root system of the poplar branch, the gradually growing root system of the poplar branch downwards extrudes the chassis, the chassis drives a limiting disc to downwards move in a cylinder through a connecting rod when moving downwards, the limiting disc and a rubber sealing ring further compress a spring under the combined action of the limiting disc and the rubber sealing ring, the chassis is forced to move upwards under the action of the resilience force of the spring, on one hand, the effect of limiting the continuous downwards growth of the root system of the poplar branch is achieved, on the other hand, a buffer space is provided for the downwards growth of the root system of the poplar branch, under the combined action of upward jacking of the chassis and downward pressing of the pressing plate, the poplar branch root system is forced to grow towards the peripheral direction, the thickness of soil in the incubator is favorably reduced, the workload in the incubator for later-stage replacement and turning is reduced, the labor intensity is reduced, and after the poplar branch root system grows towards the periphery, the range of the poplar branch root system in the ground is increased during later-stage transplantation, and the wind resistance is improved.

2. According to the cultivation equipment for the non-flocculation fast-growing poplar seedlings, the screw rod is rotated by the handle, the screw rod drives the piston to move downwards in the air cylinder, air in the air cylinder is further pressed into the cylinder, air in a space between the rubber sealing ring and the sealing sleeve in the cylinder is increased, the rubber sealing ring is forced to move upwards, the distance between the limiting disc and the rubber sealing disc is reduced, the spring is further compressed, and the upward jacking force of the chassis is conveniently adjusted.

3. According to the device for cultivating the non-flocculation fast-growing poplar seedlings, the hemispherical protrusion is fixed at the middle position of the bottom in the chassis, and when water is sprayed into the cultivating box, the water in the soil in the cultivating box is gathered towards the periphery in the chassis under the action of the protrusion, and the root system of branches of the poplar is induced to grow towards the periphery by utilizing the characteristic that the root system tends to water.

4. According to the device for cultivating the non-flocculation fast-growing poplar seedlings, when the pressing plate is used for pressing soil in the cultivating box, the threaded cover is opened, the rubber plug on the supporting rod is inserted into the tube on the pressing plate, air in the tube is pressed out by the rubber plug, after the pressing plate is installed, the threaded cover is screwed on the branch tube, the air can not enter and exit the tube through the branch tube, the rubber plug is limited in the tube under the action of pressure difference, and the pressing plate is quickly connected with the cultivating box.

5. According to the device for cultivating the non-flocculation fast-growing poplar seedlings, the water collecting box is arranged on the lower side of the chassis, the two inserting strips on the water collecting box are inserted into the two inserting rails on the chassis, the water collecting box is inserted into the chassis, the water collecting box is convenient to disassemble and assemble, when water is sprayed into the cultivating box, part of the water drops into the water collecting box through the water leakage holes, the leaked water is collected in a centralized mode, the seepage-proof water flows randomly, and the neatness of a working environment is kept.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic structural view of a device for cultivating a catkin-free fast-growing poplar seedling according to the present invention;

FIG. 2 is an enlarged view of the area A of the cultivation apparatus for a non-flocculation fast-growing poplar seedling according to the present invention;

FIG. 3 is an enlarged view of the area B of the cultivation apparatus for a non-flocculation fast-growing poplar seedling according to the present invention;

FIG. 4 is a schematic structural diagram of a driving member of the flocculation-free fast-growing poplar seedling cultivation apparatus according to the present invention;

FIG. 5 is a schematic view showing the assembly of a pressing plate, a base plate and an incubator in a flocculation-free fast-growing poplar seedling growing apparatus according to the present invention;

FIG. 6 is an enlarged view of FIG. 5 at C;

in the figure: 1. the cultivation box comprises a cultivation box body, 2, a support plate, 3, a first through hole, 4, a second through hole, 5, a cylinder, 6, an air cylinder, 7, a connecting pipe, 8, a connecting rod, 9, a bump, 10, a chassis, 11, a water collecting box, 12, a support plate, 13, a fixing lug, 14, a handle, 15, a screw rod, 16, an insertion rail, 17, an insertion strip, 18, a triangular block, 19, a limiting disc, 20, a spring, 21, a ring, 22, a rubber sealing ring, 23, a support sleeve, 24, a sealing sleeve, 25, a piston, 26, a pressing plate, 27, a through hole, 28, a protrusion, 29, a water leakage hole, 30, a cross rod, 31, a support rod, 32, a barrel, 33, a rubber plug, 34, a branch pipe, 35 and a threaded cover.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1, fig. 4 and fig. 5, the present invention provides a technical solution: the utility model provides a no wadding fast-growing poplar sapling cultivates equipment, includes artificial containers 1, equal fixedly connected with mounting panel 12 on two sides that parallel of artificial containers 1, and mounting panel 12 is L type structure, and the fixed ear 13 of one end fixedly connected with of artificial containers 1 is kept away from to mounting panel 12, utilizes the bolt to fix fixed ear 13 in required position department, accomplishes the fixed of mounting panel 12 position, and the position of artificial containers 1 is restricted promptly.

1 upper end of artificial containers and lower extreme are the opening form, and the pot head is equipped with chassis 10 under artificial containers 1, and extension board 2 is all installed with two adjacent side upper portion positions of mounting panel 12 to artificial containers 1, installs drum 5 on extension board 2, and the second poling hole 4 has been seted up to the position department of extension board 2 installation drum 5, and drum 5 runs through second poling hole 4 and fixes in second poling hole 4, and second poling hole 4 provides installation space for drum 5.

The upper end of a cylinder 5 is closed, two parallel side surfaces of a chassis 10 are fixedly connected with a connecting rod 8 which is vertically arranged, the lower end of the connecting rod 8 is fixedly connected with a lug 9, the lug 9 is fixedly connected with the chassis 10, the lug 9 plays a role of connecting the connecting rod 8 with the chassis 10, the upper end of the connecting rod 8 extends into the cylinder 5 and is fixedly connected with a limiting disc 19, the limiting disc 19 is slidably installed in the cylinder 5, the lower side of the limiting disc 19 is provided with a spring 20 in a compressed state, the spring 20 is sleeved on the connecting rod 8, the lower side of the spring 20 is provided with a rubber sealing ring 22 which is used for limiting the position of the lower end of the spring 20, the rubber sealing ring 22 is sleeved on the connecting rod 8 and is attached to the surface of the connecting rod 8, a detachable pressing plate 26 which is used for pressing and holding cultivation soil is installed in a cultivation box 1, the middle position of the upper surface of the pressing plate 26 is provided with a through hole 27 for cutting the poplar seedling, after a proper amount of cultivation soil for cultivating the poplar seedling is added in the chassis 10 and the cultivation box 1, the pressing plate 26 is pressed on the upper side of the soil to limit the position of the soil in the incubator 1, the poplar branches are inserted into the soil and then grow downwards along with the root systems of the poplar branches, the gradually growing root systems of the poplar branches downwards press the chassis 10, the chassis 10 drives the limiting disc 19 to move downwards in the cylinder 5 through the connecting rod 8 when moving downwards, the limiting disc 19 and the rubber sealing ring 22 act together to further compress the spring 20, the chassis 10 is forced to move upwards under the action of resilience force of the spring 20, on one hand, the effect of limiting the root systems of the poplar branches to grow downwards continuously is achieved, on the other hand, a buffer space is provided for the downward growth of the root systems of the poplar branches, the root systems of the poplar branches are forced to grow towards the peripheral direction under the combined effect of upward pressing of the chassis 10 and downward pressing of the pressing plate 26, the thickness of the soil in the incubator 1 is reduced, and the later-stage replacement is reduced, The workload in the cultivating box 1 is turned, the labor intensity is reduced, and simultaneously, after the root system of the branches of the poplar grows to the periphery, the range of the root system of the branches of the poplar in the ground is increased during later transplantation, and the wind resistance is improved.

As an embodiment of the present invention: referring to fig. 1, 2 and 4, a supporting sleeve 23 is fixed at the bottom of a cylinder 5, a sealing sleeve 24 is adhered to the inner surface of the supporting sleeve 23 through glue, the sealing sleeve 24 is sleeved on a connecting rod 8 and is attached to the surface of the connecting rod 8, a ring 21 is fixedly connected to the upper surface of a rubber sealing ring 22, the ring 21 is sleeved on the connecting rod 8, the ring 21 plays a role of supporting the rubber sealing ring 22 to improve the structural stability of the rubber sealing ring 22, the outer surface of the lower end of the cylinder 5 is connected and communicated with an air cylinder 6 through a connecting pipe 7, a first through hole 3 is formed at the position of the supporting plate 2 where the air cylinder 6 is installed, the air cylinder 6 penetrates through the first through hole 3 and is fixed in the first through hole 3, a piston 25 is slidably installed in the air cylinder 6, a vertically arranged screw rod 15 is rotatably connected to the upper surface of the piston 25, the screw rod 15 penetrates through the air cylinder 6 and is in threaded connection with the air cylinder 6, a handle 14 is fixed to the outer surface of the upper end of the screw rod 15, the handle 14 is used for rotating the screw rod 15, so that the screw rod 15 drives the piston 25 to move downwards in the air cylinder 6, air in the air cylinder 6 is pressed into the cylinder 5, air in a space between the rubber sealing ring 22 and the sealing sleeve 24 in the cylinder 5 is increased, the rubber sealing ring 22 is forced to move upwards, the distance between the limiting disc 19 and the rubber sealing disc is reduced, the spring 20 is further compressed, and the upward jacking force of the chassis 10 is conveniently adjusted.

As an embodiment of the present invention: referring to fig. 5, a hemispherical protrusion 28 is fixedly connected to the middle position of the bottom plate 10, the hemispherical protrusion 28 is fixed to the middle position of the bottom plate 10, and when water is sprayed into the cultivation box 1, the water in the soil in the cultivation box 1 is gathered to the periphery of the bottom plate 10 under the action of the protrusion 28, and the root system of the branch of the poplar is induced to grow to the periphery by utilizing the characteristic that the root system tends to be water.

As an embodiment of the present invention: referring to fig. 5 and 6, two tubes 32 are symmetrically installed on the pressing plate 26, the tubes 32 penetrate the pressing plate 26 and are fixedly connected with the pressing plate 26, the lower ends of the tubes 32 are open, rubber stoppers 33 are slidably installed in the tubes 32, vertically arranged support rods 31 are fixedly connected to the lower surfaces of the rubber stoppers 33, cross rods 30 are fixedly connected to the lower ends of the support rods 31, the cross rods 30 and the support rods 31 are in an integrated structure, one ends of the cross rods 30, far away from the support rods 31, are fixedly connected with the incubator 1, branch pipes 34 communicated with the tubes 32 are installed at the upper ends of the tubes 32, threaded covers 35 are connected to the outer surfaces of the upper ends of the branch pipes 34 in a threaded manner, when the soil in the incubator 1 is pressed by the pressing plate 26, the threaded covers 35 are opened first, then the rubber stoppers 33 on the support rods 31 are inserted into the tubes 32 on the pressing plate 26, at this time, the air in the tubes 32 are pressed by the rubber stoppers 33, after the pressing plate 26 is installed, the threaded covers 35 are screwed on the branch pipes 34, and the air is not moved in and out of the bobbin 32 through the branch pipe 34 any more, the rubber stopper 33 is restrained in the bobbin 32 by the pressure difference, and the quick connection of the pressing plate 26 to the incubator 1 is achieved.

As an embodiment of the present invention: referring to fig. 1, 3 and 5, a plurality of water leakage holes 29 are uniformly formed at the bottom edge of the chassis 10, a water collecting box 11 inserted into the chassis 10 for collecting water is disposed at the lower side of the chassis 10, insertion strips 17 are fixedly connected to two parallel side surfaces of the water collecting box 11, the cross section of each insertion strip 17 is in an L shape, the insertion strips 17 are inserted into insertion rails 16, the insertion rails 16 are fixedly connected with the cultivation box 1, the cross section of each insertion rail 16 is in a C shape, triangular blocks 18 are symmetrically and fixedly connected to the upper surface of each insertion rail 16, the triangular blocks 18 are fixedly connected with the cultivation box 1, the water collecting box 11 is disposed at the lower side of the chassis 10, the two insertion strips 17 on the water collecting box 11 are inserted into the two insertion rails 16 on the chassis 10, the insertion of the water collecting box 11 and the chassis 10 is completed, the water collecting box 11 is convenient to be assembled and disassembled, when water is sprayed into the cultivation box 1, part of water drops into the water collecting box 11 through the water leakage holes 29, the device realizes centralized collection of the exuded water and prevents the exuded water from flowing randomly, and is favorable for keeping the cleanness of the working environment.

The specific implementation mode is as follows: the support plate 12 is installed at a required position by using bolts to complete the position limitation of the incubator 1, after a proper amount of soil for cultivating poplar seedlings is added into the chassis 10 and the incubator 1, the pressure plate 26 is pressed and held on the upper side of the soil to limit the position of the soil in the incubator 1, after poplar branches are inserted into the soil, the gradually growing poplar branch root system downwards extrudes the chassis 10 along with the downward growth of the poplar branch root system, when the chassis 10 moves downwards, the connecting rod 8 drives the limiting plate 19 to downwards move in the cylinder 5, the limiting plate 19 and the rubber sealing ring 22 jointly act to further compress the spring 20, under the resilience force of the spring 20, the chassis 10 is forced to move upwards, on one hand, the effect of limiting the continuous downward growth of the poplar branch root system is achieved, on the other hand, a buffer space is provided for the downward growth of the poplar branch root system, under the combined action of upward pressing of the chassis 10 and downward pressing of the pressure plate 26, forcing the root system of the poplar branch to grow towards the periphery, being beneficial to reducing the thickness of soil in the incubator 1, reducing the workload of replacing and turning over the incubator 1 in the later period, reducing the labor intensity, simultaneously, after the root system of the poplar branch grows towards the periphery, increasing the range of the root system of the poplar branch in the ground when transplanting in the later period, improving the wind resistance, rotating the screw rod 15 by utilizing the handle 14, enabling the screw rod 15 to drive the piston 25 to move downwards in the inflator 6, further pressing the air in the inflator 6 into the cylinder 5, increasing the air in the space between the rubber sealing ring 22 and the sealing sleeve 24 in the cylinder 5 at the moment, thereby forcing the rubber sealing ring 22 to move upwards, further reducing the distance between the limiting disc 19 and the rubber sealing disc, further compressing the spring 20, and realizing convenient adjustment of the upward jacking force of the chassis 10.

The hemispherical bulge 28 is fixed at the middle position of the bottom in the chassis 10, when water is sprayed into the incubator 1, under the action of the bulge 28, the water in the soil in the incubator 1 is gathered to the periphery in the chassis 10, the root system of the poplar branches is induced to grow to the periphery by utilizing the characteristic that the root system tends to be wet, the water collecting box 11 is arranged at the lower side of the chassis 10, the two inserting strips 17 on the water collecting box 11 are inserted into the two inserting rails 16 on the chassis 10, the insertion connection between the water collecting box 11 and the chassis 10 is completed, the disassembly and assembly of the water collecting box 11 are convenient, when water is sprayed into the incubator 1, part of the water drops into the water collecting box 11 through the water leakage holes 29, the concentrated collection of the leaked water is realized, the seepage-proof water flows randomly, and the cleanness of the working environment is favorably maintained.

Although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should be able to integrate the description as a whole, and the embodiments can be appropriately combined to form other embodiments as will be understood by those skilled in the art.

Claims

1. The utility model provides a no wadding fast-growing poplar seedling cultivation equipment, includes artificial containers (1), its characterized in that: the cultivation box comprises a cultivation box body, wherein two parallel side faces of the cultivation box body (1) are fixedly connected with support plates (12), the support plates (12) are of an L-shaped structure, one end, far away from the cultivation box body (1), of each support plate (12) is fixedly connected with a fixing lug (13), the upper end and the lower end of the cultivation box body (1) are both in an open shape, a chassis (10) is sleeved at the lower end of the cultivation box body (1), support plates (2) are mounted at the upper portions of the two side faces, adjacent to the support plates (12), of the cultivation box body (1), driving pieces used for forcing the chassis (10) to move upwards are mounted on the support plates (2), a detachable pressing plate (26) used for pressing cultivation soil is mounted in the cultivation box body (1), through holes (27) used for cuttage of tree seedlings are formed in the middle positions of the upper surfaces of the pressing plates (26), and two connecting pieces fixedly connected with the cultivation box body (1) are symmetrically mounted on the lower surfaces of the pressing plate (26), a hemispherical bulge (28) is fixedly connected to the middle position of the bottom in the chassis (10).

2. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 1, wherein: the driving piece comprises a cylinder (5), the cylinder (5) penetrates through the support plate (2) and is fixedly connected with the support plate (2), the upper end of the cylinder (5) is closed, the connecting rod (8) which is vertically arranged is fixedly connected to two parallel side surfaces of the chassis (10), the upper end of the connecting rod (8) extends into the cylinder (5) and is fixedly connected with a limiting disc (19), the limiting disc (19) is slidably mounted in the cylinder (5), a spring (20) in a compression state is arranged on the lower side of the limiting disc (19), the spring (20) is sleeved on the connecting rod (8), a rubber sealing ring (22) which is used for limiting the position of the lower end of the spring (20) and can be adjusted is arranged on the lower side of the spring (20), and the rubber sealing ring (22) is sleeved on the connecting rod (8) and is attached to the surface of the connecting rod (8).

3. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 2, wherein: the bottom is fixed with supports cover (23) in drum (5), it has seal cover (24) to paste through glue to support cover (23) internal surface, seal cover (24) cover is established on connecting rod (8) and is laminated mutually with connecting rod (8) surface, drum (5) lower extreme surface links to each other with inflator (6) through connecting pipe (7) and communicates with each other, inflator (6) run through extension board (2) and with extension board (2) fixed connection, slidable mounting has piston (25) in inflator (6), piston (25) upper surface rotates and is connected with vertical arrangement's screw rod (15), screw rod (15) run through inflator (6) and with inflator (6) threaded connection, screw rod (15) upper end external fixed surface has handle (14).

4. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 3, wherein: the position of the supporting plate (2) for installing the air cylinder (6) is provided with a first through hole (3), the air cylinder (6) penetrates through the first through hole (3) and is fixed in the first through hole (3), the position of the supporting plate (2) for installing the cylinder (5) is provided with a second through hole (4), and the cylinder (5) penetrates through the second through hole (4) and is fixed in the second through hole (4).

5. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 3, wherein: the upper surface of the rubber sealing ring (22) is fixedly connected with a ring (21), and the ring (21) is sleeved on the connecting rod (8).

6. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 2, wherein: the lower end of the connecting rod (8) is fixedly connected with a lug (9), and the lug (9) is fixedly connected with a chassis (10).

7. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 1, wherein: the connecting piece includes bobbin (32), bobbin (32) run through clamp plate (26) and with clamp plate (26) fixed connection, bobbin (32) lower extreme is the opening form, slidable mounting has rubber buffer (33) in bobbin (32), fixed surface is connected with vertical branch (31) of arranging under rubber buffer (33), branch (31) lower extreme fixedly connected with horizontal pole (30), horizontal pole (30) and branch (31) are the integrated into one piece structure, the one end and artificial containers (1) fixed connection of branch (31) are kept away from in horizontal pole (30), bobbin (32) upper end is installed and is communicated with bobbin (32) branch pipe (34), branch pipe (34) upper end surface threaded connection has screw cap (35).

8. The cultivation apparatus of non-flocculation fast-growing poplar seedling as claimed in claim 1, wherein: a plurality of holes (29) that leak have evenly been seted up to chassis (10) bottom edge, chassis (10) downside is equipped with and collects water collecting box (11) of moisture that are used for with chassis (10) grafting mutually, equal fixedly connected with grafting strip (17) on two sides that parallel of water collecting box (11), grafting strip (17) cross section is "L" shape, grafting strip (17) are inserted in inserted rail (16), inserted rail (16) and artificial containers (1) fixed connection, inserted rail (16) cross section is "C" shape, three blocks of symmetrical fixedly connected with of surface (18) on inserted rail (16), three blocks of (18) and artificial containers (1) fixed connection.