CN111492928B

CN111492928B - Method for improving landscape plant transplanting survival rate

Info

Publication number: CN111492928B
Application number: CN202010363864.5A
Authority: CN
Inventors: 张金峰; 伍勇军
Original assignee: Nanjing Garden Economic Development Co ltd
Current assignee: Nanjing Garden Economic Development Co.,Ltd.
Priority date: 2020-04-30
Filing date: 2020-04-30
Publication date: 2021-09-14
Anticipated expiration: 2040-04-30
Also published as: CN111492928A

Abstract

The invention provides a method for improving the survival rate of landscape plant transplantation, which is an operation completed by the cooperation of a pot body, a water cavity, a working groove, a sealing groove, a gap type extrusion device, an alignment device and a lifting type base, and can solve the problem that before transportation, personnel usually irrigate the soil at the root of a plant, but, in the long-distance transportation process, the humidity of the soil is difficult to maintain, the soil is easy to dry in the latter half of the transportation process, the dry soil is easy to destroy the absorption of the plant roots, thereby influencing the growth condition of the transplanted plants, when the plants temporarily placed in the flowerpot are taken out, the main plant rods are usually held by hands and then are lifted upwards forcibly, in the lifting process, soil near the inner wall of the flowerpot is scratched with the flowerpot to easily cause the condition that soil falls, and the main rod is possibly damaged under the hand-holding of personnel.

Description

Method for improving landscape plant transplanting survival rate

Technical Field

The invention relates to the technical field of transplantation, in particular to a method for improving the survival rate of landscape plant transplantation.

Background

Landscape plant transplantation, which is to move landscape plants to other places for planting, in the transplantation process, people usually temporarily place landscape plants in ordinary flowerpots to avoid loose soil at the roots of the plants in the transportation process, but the temporary placement in ordinary flowerpots often encounters the following problems:

1. before transportation, personnel usually irrigate soil at plant roots, but in the long-distance transportation process, the humidity of the soil is difficult to maintain, the soil is easy to dry in the latter half of the transportation process, and the dry soil is easy to damage the absorption of the plant roots, so that the growth condition of the transplanted plants is influenced;

2. when the plant temporarily placed in the flowerpot is taken out, the plant main rod is usually held by hands and then lifted forcibly, soil close to the inner wall of the flowerpot is scraped with the flowerpot in the lifting process, and then the soil is easy to fall off, and the main rod is possibly damaged when being held by hands of personnel.

Disclosure of Invention

In order to solve the problems, the invention provides a method for improving the survival rate of landscape plant transplantation, which can solve the problems that before transportation, personnel usually wet the soil at the root of a plant, but in the transportation process of a longer distance, the humidity of the soil is difficult to maintain, the soil is easy to dry in the latter half of the transportation process, the dry soil is easy to damage the absorption of the root of the plant, so that the growth condition of the transplanted plant is influenced, when the plant temporarily put into a flowerpot is taken out, the plant main rod is usually lifted by hand and forcefully, in the lifting process, the soil close to the inner wall of the flowerpot is scratched by the flowerpot and then the soil is easy to fall off, the main rod is possibly damaged by the hand of the personnel, and the like.

In order to achieve the purpose, the invention adopts the following technical scheme that a method for improving the survival rate of landscape plant transplantation uses a landscape pot, the landscape pot comprises a pot body, a water cavity, a working groove, a sealing groove, a gap type extrusion device, an alignment device and a portable base, and the method for improving the survival rate of landscape plant transplantation by adopting the landscape pot comprises the following steps:

s1, temporary placement: injecting clear water into the water cavity, selecting a proper replantable landscape plant, and transferring the replantable landscape plant and soil to the portable base;

s2, alignment: the sealing plate is pressed down after being pressurized, so that the corresponding hole is aligned with the through hole, and the wet spraying hole is aligned with the alignment hole;

s3, humidity keeping: during the transportation of the landscape plants, the transmission unit drives the pressing plate to rotate circularly, and the piston rod is driven to lift and descend in a hanging mode, so that clear water is intermittently sprayed out from the corresponding holes and the wet spraying holes, and the humidity of soil is further kept;

s4, taking out and transplanting: after the landscape plant is transported to a designated position, the two portable handles are held by hands to lift synchronously, so that the pot base and the landscape plant are driven to lift together, and the landscape plant is taken out and transplanted to the designated position.

The water cavity has evenly been seted up along its circumference to the intermediate layer of the basin body, and the work groove has evenly been seted up along its circumference in the outside of the basin body, is equipped with clearance formula extrusion device in the work groove, and the seal groove has evenly been seted up along its circumference to the inner wall of the basin body, is equipped with alignment apparatus in the seal groove, and the bottom of the basin body is equipped with portable base.

The lower extreme middle part of the basin body block up and to have the rubber buffer, the through-hole has evenly been seted up to the upper end of seal groove inner wall, the alignment hole has evenly been seted up to the lower extreme of seal groove inner wall, and the diameter of through-hole is greater than the alignment hole, after entering into soil from through-hole spun clear water, can flow downwards when keeping soil humidity, and then the complementary humidity that has improved below soil, the diameter in alignment hole is less than the design of through-hole diameter, it is even to have maintained the humidity between each position of soil, thereby the too big condition of humidity of soil the latter half has been avoided.

The clearance formula extrusion device include the conveying unit, press the clamp plate, inlay the board, piston rod and dead slot, the conveying unit is installed in the work groove, the last clamp plate of installing of conveying unit, the lower extreme mid-mounting of work groove has the piston rod, the dead slot has been seted up to the lower extreme inboard of work groove, the outside embedding of work groove has the embedding board, concrete during operation, drive through the conveying unit and press the clamp plate circulation to rotate, thereby drive the reciprocating type decline of piston rod, clearance formula extrusion device's setting makes the clear water of pouring into in soil for the intermittent type formula injection, and adjacent injection time is separated by longer, the humidity of soil has been guaranteed.

The aligning device include the closing plate, correspond the hole, the embedding head, spout wet hole, jack-up spring and holding down plate, be sliding fit connection between closing plate and the seal groove, the first half of closing plate has evenly seted up and has corresponded the hole, it is equipped with the embedding head to correspond downthehole portion, spout wet hole has evenly been seted up to the latter half of closing plate, the lower extreme of closing plate even has the jack-up spring with the lower extreme of seal groove, install the holding down plate on the inside wall of closing plate, concrete during operation, the view plant of placing temporarily on the basin base pushes down the closing plate, make to correspond between hole and the through-hole position and aim at, spout the position alignment between hole and the alignment hole, the mobility of clear water has been guaranteed, aligning device's setting is when having guaranteed not placing the plant through coordinated type gravity extrusion's design, the spout is closed condition, after placing, each spout is the open mode after aiming at.

The portable base include basin base, two couples, two connection collude, two connect rope and two portable handles, two couples are installed at both ends about the basin base, couple and connection collude between for mutual hasp connection, the two is releasable connection, connect even to be connected the rope between colluding and the portable handle, the setting of portable base has guaranteed the view plant of placing at the basin base temporarily, the smoothness of taking out of soil.

Preferably, the conveying unit comprises a driven roller, a driving roller, a motor and a conveying belt, the driven roller is installed at the upper end of the working groove through a bearing, the driven roller is connected with the driving roller through the conveying belt, one end of the driving roller is connected with an output shaft of the motor, the motor is installed in the working groove, and the other end of the driving roller is connected with the lower end of the working groove through a bearing.

Preferably, the piston rod include rubber piston dish, lower beam, upper boom, built-in spring, seal baffle, linkage plate, extrusion piece and reset spring, seal baffle is installed to the inner of rubber piston dish, and the lower beam is installed to the upper end of rubber piston dish, is connected for sliding fit between lower beam and the upper boom, and even there is built-in spring between the upper end of lower beam and the lower extreme of upper boom, and the linkage plate is installed to the upper end of upper boom, and the extrusion piece is installed to the outer end of linkage plate, even has reset spring between the upper end of linkage plate and the work groove.

Preferably, the lower rod is connected with the sleeve barrel in a sliding fit mode, the sleeve barrel is installed in the working groove, and the inner end face of the linkage plate in the initial state is tightly attached to the inner side wall of the working groove.

Preferably, the lower side of the inner end of the pressing plate is of a structure which is gradually inclined inwards from bottom to top, and the upper side of the outer end of the extrusion block is of a structure which is gradually inclined inwards from bottom to top.

Preferably, the diameter that corresponds the hole equal to the through-hole diameter, guaranteed that the later stage can be aimed at, the diameter that spouts wet hole equals to aim at the hole diameter, guaranteed that the later stage can be aimed at, and correspond the initial position between hole and the through-hole and stagger the arrangement from top to bottom, spout wet hole and aim at the initial position between the hole and stagger the arrangement from top to bottom.

Preferably, the embedding head include connecting rod, rubber post, blowout head and rust-resistant spring, the connecting rod is installed at corresponding downtheholely, the rubber post is installed to the inner of connecting rod, the rubber post cover is established at the blowout head inside, even there is rust-resistant spring between blowout head and the corresponding hole.

Preferably, the lower end of the basin base is provided with a bottom end face with an inverted circular truncated cone structure, and the middle of the lower end of the basin base is provided with a water outlet hole.

The invention has the beneficial effects that:

the invention provides a method for improving the survival rate of landscape plant transplantation, which adopts a design concept of linkage type circular extrusion to drive a piston rod to reciprocate, so that clear water is intermittently injected into soil, the humidity in the soil is kept, the condition of soil drying in the transportation process is avoided, the landscape plant and the soil are integrally lifted in a hanging basket type mode, the damage to a plant main rod is avoided, the condition that the soil falls to the bottom of a pot body after being cut and rubbed is also reduced, and the survival rate is improved;

secondly, the invention provides a method for improving the survival rate of landscape plant transplantation, the gap type extrusion device drives the piston rod to reciprocate through the press plate in the circulating rotation state, so that clear water is sprayed into the soil from the corresponding hole and the wet spraying hole, the embedding head in the corresponding hole is inserted into the soil after being subjected to the pressure of water, and the clear water can be directly injected into the soil, thereby increasing the way of the clear water entering the soil and keeping the humidity of the soil;

the liftable base is designed in a hanging basket mode, so that the structure is simple, the lifting is easy, and the plants can be conveniently taken out and put in.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a flow chart of a method for increasing survival of landscape plants after transplantation;

FIG. 2 is a schematic perspective view of the present invention;

FIG. 3 is a cross-sectional view of FIG. 2 of the present invention;

FIG. 4 is an enlarged view of the X-direction portion of FIG. 3 of the present invention;

FIG. 5 is an enlarged view of the Y-direction portion of FIG. 3 of the present invention;

FIG. 6 is an enlarged view of the invention in the Z-direction of FIG. 3;

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 explained below by combining the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

As shown in fig. 1 to 6, a method for improving the survival rate of landscape plant transplantation, which uses a landscape pot, the landscape pot comprises a pot body 1, a water cavity 2, a working groove 3, a sealing groove 4, a gap type extrusion device 5, an alignment device 6 and a portable base 7, and the method for improving the survival rate of landscape plant transplantation by using the landscape pot comprises the following steps:

s1, temporary placement: injecting clear water into the water cavity 2, selecting a proper replantable landscape plant, and transferring the replantable landscape plant and soil to the portable base 7;

s2, alignment: the sealing plate 61 is pressed down after being pressurized, so that the corresponding hole 62 is aligned with the through hole, and the wet spraying hole 64 is aligned with the aligned hole;

s3, humidity keeping: in the process of transporting the landscape plants, the conveying unit 51 drives the pressing plate 52 to rotate circularly, and the piston rod 54 is driven to lift and descend in a hanging mode, so that clear water is intermittently sprayed out from the corresponding holes 62 and the wet spraying holes 64, and the humidity of soil is further kept;

s4, taking out and transplanting: after the landscape plant is transported to a designated position, the two handle handles 75 are held by hands to lift synchronously, so that the pot base 71 and the landscape plant are driven to lift together, and the landscape plant is taken out and transplanted to the designated position.

The water cavity 2 has evenly been seted up along its circumference in the intermediate layer of the basin body 1, and work groove 3 has evenly been seted up along its circumference in the outside of the basin body 1, is equipped with clearance formula extrusion device 5 in the work groove 3, and seal groove 4 has evenly been seted up along its circumference in the inner wall of the basin body 1, is equipped with aligning device 6 in the seal groove 4, and the bottom of the basin body 1 is equipped with portable base 7.

Basin body 1's lower extreme middle part stopper has the rubber buffer, the through-hole has evenly been seted up to the upper end of 4 inner walls in seal groove, the alignment hole has evenly been seted up to the lower extreme of 4 inner walls in seal groove, and the diameter of through-hole is greater than the alignment hole, after entering into soil from through-hole spun clear water, can flow down when keeping soil moisture, and then the complementary humidity that has improved below soil, the diameter in alignment hole is less than the design of through-hole diameter, it is even to have maintained the humidity between each position of soil, thereby the too big condition of humidity of soil the latter half has been avoided.

The intermittent extrusion device 5 comprises a conveying unit 51, a pressing plate 52, an embedding plate 53, a piston rod 54 and an empty groove 55, wherein the conveying unit 51 is installed in the working groove 3, the pressing plate 52 is installed on the conveying unit 51, the piston rod 54 is installed in the middle of the lower end of the working groove 3, the empty groove 55 is formed in the inner side of the lower end of the working groove 3, the embedding plate 53 is embedded into the outer side of the working groove 3, and during specific working, the conveying unit 51 drives the pressing plate 52 to rotate circularly, so that the piston rod 54 is driven to descend in a reciprocating mode, the intermittent extrusion device 5 is arranged to enable clear water injected into soil to be injected intermittently, adjacent injection time is long in interval, and the humidity of the soil is guaranteed.

The conveying unit 51 comprises a driven roller 511, a driving roller 512, a motor 513 and a conveying belt 514, wherein the driven roller 511 is installed at the upper end of the working groove 3 through a bearing, the driven roller 511 is connected with the driving roller 512 through the conveying belt 514, one end of the driving roller 512 is connected with an output shaft of the motor 513, the motor 513 is installed in the working groove 3, the other end of the driving roller 512 is connected with the lower end of the working groove 3 through a bearing, and during specific work, the driving roller 512 is driven to rotate through the motor 513, so that the conveying belt 514 is driven to rotate.

The piston rod 54 comprises a rubber piston disk 541, a lower rod 542, an upper rod 543, a built-in spring 544, a sealing baffle 545, a linkage plate 546, an extrusion block 547 and a return spring 548, the sealing baffle 545 is installed at the inner end of the rubber piston disk 541, the lower rod 542 is installed at the upper end of the rubber piston disk 541, the lower rod 542 is connected with the upper rod 543 in a sliding fit manner, the built-in spring 544 is connected between the upper end of the lower rod 542 and the lower end of the upper rod 543, the linkage plate 546 is installed at the upper end of the upper rod 543, the extrusion block 547 is installed at the outer end of the linkage plate 546, and the return spring 548 is connected between the upper end of the linkage plate 546 and the working groove 3.

During specific work, the transmission unit 51 drives the pressing plate 52 to rotate, the linkage plate 546 is driven to descend synchronously after the pressing plate 52 is contacted with the extrusion block 547, so that the rubber piston disc 541 is driven to descend, at the moment, the synchronous descending sealing baffle 545 separates clear water in the water cavity 2, the descending rubber piston disc 541 sprays the clear water at the lower end in the water cavity 2 into the soil from the corresponding hole 62 and the wet spraying hole 64 in an opened state respectively, when the linkage plate 546 descends to be at the same level with the empty groove 55, the extrusion block 547 moves inwards due to extrusion of the pressing plate 52, so that the inner side of the linkage plate 546 is driven to enter the empty groove 55, at the moment, the pressing plate 52 is separated from the extrusion block 547, the pressing plate 52 continues to be dragged and rotated by the transmission unit 51, the linkage plate 546 rises and resets under the elastic force of the return spring 548, and the lower end in the water cavity 2 enters the clear water again.

The lower rod 542 is connected with the sleeve barrel in a sliding fit mode, the sleeve barrel is installed in the working groove 3, the inner end face of the linkage plate 546 in the initial state is tightly attached to the inner side wall of the working groove 3, it is guaranteed that the extrusion block 547 is extruded by the pressing plate 52, the linkage plate 546 cannot be extruded inwards, the pressing plate 52 in the descending state can only drive the extrusion block 547 to descend synchronously due to blocking of the extrusion block 547, when the linkage plate 546 descends to be at the same level with the empty groove 55, the extrusion block 547 can move inwards due to extrusion of the pressing plate 52, so that the inner side of the linkage plate 546 is driven to enter the empty groove 55, and at the moment, the pressing plate 52 is separated from the extrusion block 547.

The lower side of the inner end of the pressing plate 52 is a structure gradually inclined inwards from bottom to top, and the upper side of the outer end of the extrusion block 547 is a structure gradually inclined inwards from bottom to top, so that the extrusion effect is achieved.

The aligning device 6 comprises a sealing plate 61, a corresponding hole 62, an embedding head 63, a moisture spraying hole 64, a jacking spring 65 and a lower pressing plate 66, the sealing plate 61 is connected with the sealing groove 4 in a sliding fit manner, the upper half part of the sealing plate 61 is uniformly provided with the corresponding hole 62, the embedding head 63 is arranged in the corresponding hole 62, the lower half part of the sealing plate 61 is uniformly provided with the moisture spraying hole 64, the lower end of the sealing plate 61 and the lower end of the sealing groove 4 are connected with the jacking spring 65, the lower pressing plate 66 is arranged on the inner side wall of the sealing plate 61, when the aligning device works specifically, landscape plants temporarily placed on the pot base 71 press the sealing plate 61 downwards to align the corresponding hole 62 with the through hole, the moisture spraying hole 64 is aligned with the aligning hole to ensure the flowability of clear water, the aligning device 6 is arranged to ensure that when the plants are not placed through a linkage type gravity extrusion design, the spraying hole is in a closed state, after the placement, the ejection ports are aligned and then opened.

The diameter that corresponds hole 62 equal through-hole diameter, guaranteed that the later stage can be aimed at, spout wet hole 64's diameter and equal to and aim at the hole diameter, guaranteed that the later stage can be aimed at, and correspond the initial position between hole 62 and the through-hole and arrange for staggering from top to bottom, spout wet hole 64 and aim at the initial position between the hole and arrange for staggering from top to bottom, guaranteed that initial position corresponds hole 62, spout wet hole 64 and be the closed condition.

Embedding head 63 include connecting rod 631, rubber post 632, blowout head 633 and rust-resistant spring 634, connecting rod 631 is installed in corresponding hole 62, rubber post 632 is installed to the inner of connecting rod 631, rubber post 632 cover is established inside blowout head 633, the rubber post 632 of initial position, blowout head 633 is mutual sealed state, it has rust-resistant spring 634 to spout the head 633 with corresponding to even between the hole 62, the effect that resets has been played, correspond hole 62 and through-hole alignment back, thereby the clear water can extrude blowout head 633 and insert in soil when corresponding hole 62 blowout, and then directly pour into the clear water in the soil, the possibility that the clear water flowed down from soil outer wall and basin body 1 inner wall has been reduced.

The portable base 7 include basin base 71, two couples 72, two connect to collude 73, two connect rope 74 and two portable handles 75, two couples 72 are installed at both ends about basin base 71, couple 72 and connect to collude for mutual hasp connection between the 73, the two is releasable connection, connect to collude even there is connection rope 74 between 73 and the portable handle 75, the setting of portable base 7 has guaranteed the temporary landscape plant who places at basin base 71, the smoothness of taking out of soil.

The lower end of the basin base 71 is provided with a bottom end face of an inverted round platform structure, so that water in soil can flow out of the water outlet hole, and the middle of the lower end of the basin base 71 is provided with the water outlet hole.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a method for improving landscape plant and transplanting survival rate, its has used a landscape basin, and this landscape basin includes the basin body (1), water cavity (2), work groove (3), seal groove (4), clearance formula extrusion device (5), aligning device (6) and can carry formula base (7), its characterized in that: the method for improving the landscape plant transplanting survival rate by adopting the landscape pot comprises the following steps:

s1, temporary placement: clear water is injected into the water cavity (2), and a proper replantable landscape plant is selected and is transplanted onto the portable base (7) together with the soil;

s2, alignment: the sealing plate (61) is pressed down after being pressurized, so that the corresponding hole (62) is aligned with the through hole, and the wet spraying hole (64) is aligned with the alignment hole;

s3, humidity keeping: in the process of transporting the landscape plants, the conveying unit (51) drives the pressing plate (52) to rotate circularly, and the piston rod (54) is driven to lift and descend in a hanging mode, so that clear water is intermittently sprayed out from the corresponding hole (62) and the wet spraying hole (64), and the humidity of soil is further kept;

s4, taking out and transplanting: after the landscape plant is transported to a designated position, the two handheld handles (75) are held by hands to be lifted synchronously, so that the pot base (71) and the landscape plant are driven to rise together, and the landscape plant is taken out and transplanted to the designated position;

the water-saving flowerpot is characterized in that a water cavity (2) is uniformly formed in the interlayer of the flowerpot body (1) along the circumferential direction of the interlayer, a working groove (3) is uniformly formed in the outer portion of the flowerpot body (1) along the circumferential direction of the interlayer, a gap type extrusion device (5) is arranged in the working groove (3), a sealing groove (4) is uniformly formed in the inner wall of the flowerpot body (1) along the circumferential direction of the inner wall of the flowerpot body, an alignment device (6) is arranged in the sealing groove (4), and a lifting type base (7) is arranged at the bottom end of the flowerpot body (1);

a rubber plug is plugged in the middle of the lower end of the pot body (1), through holes are uniformly formed in the upper end of the inner wall of the sealing groove (4), alignment holes are uniformly formed in the lower end of the inner wall of the sealing groove (4), and the diameter of each through hole is larger than that of each alignment hole;

the intermittent extrusion device (5) comprises a conveying unit (51), a pressing plate (52), an embedded plate (53), a piston rod (54) and an empty groove (55), wherein the conveying unit (51) is installed in the working groove (3), the pressing plate (52) is installed on the conveying unit (51), the piston rod (54) is installed in the middle of the lower end of the working groove (3), the empty groove (55) is formed in the inner side of the lower end of the working groove (3), and the embedded plate (53) is embedded into the outer side of the working groove (3);

the piston rod (54) comprises a rubber piston disc (541), a lower rod (542), an upper rod (543), a built-in spring (544), a sealing baffle (545), a linkage plate (546), an extrusion block (547) and a reset spring (548), the sealing baffle (545) is installed at the inner end of the rubber piston disc (541), the lower rod (542) is installed at the upper end of the rubber piston disc (541), the lower rod (542) is connected with the upper rod (543) in a sliding fit mode, the built-in spring (544) is connected between the upper end of the lower rod (542) and the lower end of the upper rod (543), the linkage plate (546) is installed at the upper end of the upper rod (541), the extrusion block (547) is installed at the outer end of the linkage plate (546), and the reset spring (548) is connected between the upper end of the linkage plate (546) and the working groove (3);

the aligning device (6) comprises a sealing plate (61), a corresponding hole (62), an embedding head (63), a wet spraying hole (64), a jacking spring (65) and a lower pressing plate (66), the sealing plate (61) is connected with the sealing groove (4) in a sliding fit manner, the corresponding hole (62) is uniformly formed in the upper half part of the sealing plate (61), the embedding head (63) is arranged in the corresponding hole (62), the wet spraying hole (64) is uniformly formed in the lower half part of the sealing plate (61), the jacking spring (65) is connected between the lower end of the sealing plate (61) and the lower end of the sealing groove (4), and the lower pressing plate (66) is installed on the inner side wall of the sealing plate (61);

the portable base (7) comprises a basin base (71), two hooks (72), two connecting hooks (73), two connecting ropes (74) and two portable handles (75), wherein the two hooks (72) are installed at the left end and the right end of the basin base (71), the hooks (72) and the connecting hooks (73) are connected through mutual buckles, and the connecting hooks (73) and the portable handles (75) are connected through the connecting ropes (74).

2. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: the conveying unit (51) comprises a driven roller (511), a driving roller (512), a motor (513) and a conveying belt (514), wherein the driven roller (511) is installed at the upper end of the working groove (3) through a bearing, the driven roller (511) is connected with the driving roller (512) through the conveying belt (514), one end of the driving roller (512) is connected with an output shaft of the motor (513), the motor (513) is installed in the working groove (3), and the other end of the driving roller (512) is connected with the lower end of the working groove (3) through the bearing.

3. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: the lower rod (542) is connected with the sleeve barrel in a sliding fit mode, the sleeve barrel is installed in the working groove (3), and the inner end face of the linkage plate (546) in the initial state is tightly attached to the inner side wall of the working groove (3).

4. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: the lower side of the inner end of the pressing plate (52) is of a structure which is gradually inclined inwards from bottom to top, and the upper side of the outer end of the extrusion block (547) is of a structure which is gradually inclined inwards from bottom to top.

5. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: the diameter of the corresponding hole (62) is equal to that of the through hole, the diameter of the moisture spraying hole (64) is equal to that of the alignment hole, the initial position between the corresponding hole (62) and the through hole is vertically staggered, and the initial position between the moisture spraying hole (64) and the alignment hole is vertically staggered.

6. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: embedding head (63) including connecting rod (631), rubber post (632), blowout head (633) and rust-resistant spring (634), connecting rod (631) are installed in corresponding hole (62), rubber post (632) are installed to the inner of connecting rod (631), rubber post (632) cover is established inside blowout head (633), even there is rust-resistant spring (634) between blowout head (633) and corresponding hole (62).

7. The method for improving the survival rate of transplanted landscape plants according to claim 1, which is characterized in that: the lower end of the basin base (71) is provided with a bottom end face with an inverted frustum structure, and the middle of the lower end of the basin base (71) is provided with a water outlet hole.