CN113615533A - Planting method of landscaping nursery stocks - Google Patents

Abstract

The application relates to the technical field of seedling planting, in particular to a planting method of landscaping seedlings, which comprises the following steps of S1: processing a planting area, and detecting the quality of planting soil; s2: digging a pit, and digging a plurality of pits in the planting area; s3: planting seedlings, namely planting each seedling into a corresponding pit; s4: mounting supports, namely mounting support frames for supporting the nursery stocks around each pit, wherein the support parts of the support frames change along with the diameter change of the trunks along with the growth of the trunks of the nursery stocks to form continuous supports; s5: and (5) watering and maintaining, namely watering water in the pit until water is accumulated on the surface of the soil, and stopping. This application has the effect that improves the survival rate that the nursery stock was planted.

Description

Planting method of landscaping nursery stocks

Technical Field

The application relates to the technical field of seedling planting, in particular to a planting method of landscaping seedlings.

Background

The seedlings are tree seedlings with root systems and trunk branches, and are commonly used in urban landscaping, such as urban area greening, residential area greening, highway greening, barren mountain greening, river bank greening and the like.

At present, the planting of nursery stocks is mainly divided into the following steps: the method comprises the following steps that firstly, a pit is dug in a designated area; secondly, planting the nursery stocks in the pits; thirdly, compacting the backfilled soil in a treading mode; fourthly, watering around the nursery stock; although the whole planting method is simple and convenient to operate, the planted seedlings are prone to toppling over under the influence of geographical environments such as strong wind and the like, and the survival rate is low.

In view of the above-mentioned related art, the inventors consider that the conventional planting method has a drawback of low survival rate.

Disclosure of Invention

In order to improve the survival rate of seedling planting, the application provides a planting method of landscaping seedlings.

The application provides a planting method of afforestation nursery stocks, which adopts the following technical scheme:

a planting method of landscaping nursery stocks comprises the following steps,

s1: processing a planting area, and detecting the quality of planting soil;

s2: digging a pit, and digging a plurality of pits in the planting area;

s3: planting seedlings, namely planting each seedling into a corresponding pit;

s4: mounting supports, namely mounting support frames for supporting the nursery stocks around each pit, wherein the support parts of the support frames change along with the diameter change of the trunks along with the growth of the trunks of the nursery stocks to form continuous supports;

s5: and (5) watering and maintaining, namely watering water in the pit until water is accumulated on the surface of the soil, and stopping.

By adopting the technical scheme, the stability of the planted nursery stock is greatly improved by installing and supporting each nursery stock, the possibility that the nursery stock is toppled due to the influence of geographical environments such as strong wind and the like is reduced, and the overall survival rate is improved.

Preferably, the step S2 further includes:

a1: mixing loam and decomposed organic fertilizer to serve as a nutrient soil layer and paving the nutrient soil layer in the pit;

a2: and (3) pouring clear water with the water depth of 2/3 into the pit 2-3 days before planting, mixing the clear water with organic fertilizer to form nutrient solution, and permeating the nutrient solution into the surrounding soil for storage.

Through adopting above-mentioned technical scheme, clear water has formed the nutrient solution after mixing with the fertilizer, and partial nutrient solution is operated the soil layer of nourishing and is permeated and be retained in the soil around, and this mode can provide the nourishment for the growth in nursery stock later stage on the one hand, and on the other hand can avoid the too high fever seedling phenomenon that leads to of nutrient concentration.

Preferably, the step S3 further includes:

b1: before planting, pruning and shaping branches and leaves of the nursery stock;

b2: before planting, preparing rooting solution by using rooting powder and clear water according to a proportion, and soaking the root of the seedling for 24 hours.

By adopting the technical scheme, the pruning has the main function of preventing necrotic or broken branches from competing for nutrients after being planted; the mode of preparing the rooting solution and soaking the root system of the seedling can promote the root of the seedling to grow and improve the survival rate.

Preferably, the support frame comprises an outer cylinder which is hollow inside and has openings at two ends, two groups of self-adaptive clamping assemblies which are symmetrically arranged on the outer cylinder to support the nursery stock trunk, and supporting legs hinged to the outer wall of the support ring.

By adopting the technical scheme, the supporting legs which are hinged can be adjusted according to the requirement so as to be stably supported; and the setting of two sets of self-adaptation centre gripping subassemblies, what can be better carries out the centre gripping to the nursery stock and struts.

Preferably, the self-adaptation centre gripping subassembly includes that the slide is worn to locate the guide bar on the urceolus, the grip block of rigid coupling in the one end that the guide bar is located the urceolus, the stopper of rigid coupling in the guide bar and keeping away from grip block one end to and the cover is established on the guide bar and the first spring of compressing all the time, the one end and the grip block looks butt of first spring, the other end and the inner wall looks butt of urceolus of first spring.

Through adopting above-mentioned technical scheme, when the diameter of nursery stock trunk grow gradually, the grip block is pushed away and is removed towards the direction of being close to the semicircle board, and first spring is further compressed this moment for the grip block can be better strut the nursery stock, provides better righting effect simultaneously.

Preferably, the clamping plates are arc-shaped, and a clamping cavity is formed between the two clamping plates of the two groups of self-adaptive clamping assemblies.

Through adopting above-mentioned technical scheme, the grip block is curved design, can adapt to the surface profile of nursery stock trunk more to improve the reliability of strutting.

Preferably, a flexible pad is bonded to one side of the clamping plate, which is far away from the guide rod.

Through adopting above-mentioned technical scheme, mainly used protects the trunk of nursery stock.

Preferably, the number of the supporting legs is four, and the four supporting legs are circumferentially and equidistantly distributed on the outer cylinder by taking the axis of the outer cylinder as a center;

the landing leg is including articulating the sleeve on the outer wall of urceolus to and can dismantle the bracing piece of connecting on the sleeve.

Through adopting above-mentioned technical scheme, the mode of connection can be dismantled to bracing piece and sleeve, is convenient for assemble and transport.

Preferably, the support rod is provided with two symmetrically arranged accommodating grooves which are radially arranged, a movable pin is arranged in each accommodating groove in a sliding manner, one end of each movable pin extends out of each accommodating groove, and a second spring is fixedly connected between one end of each movable pin in each accommodating groove and the inner wall of each accommodating groove;

the sleeve is provided with a limit hole for clamping the movable pin.

By adopting the technical scheme, during installation, the movable pin is pressed to be retracted into the accommodating groove, then one end of the supporting rod is inserted into the sleeve, and when the movable pin is aligned with the limiting hole, the free end of the movable pin extends out of the limiting hole to realize fixation; when the movable pin is detached, the movable pin is only required to be pressed back into the accommodating groove, and then the supporting rod is pulled out.

Preferably, one end of the support rod far away from the sleeve is provided with a tip.

Through adopting above-mentioned technical scheme, most advanced setting for the bracing piece can break open the soil layer better, makes things convenient for the staff to operate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by installing supports on each seedling, the stability of the seedlings after being planted is greatly improved, the possibility that the seedlings topple over due to the influence of geographical environments such as strong wind and the like is reduced, and the overall survival rate is improved;

2. the clear water is mixed with the organic fertilizer to form the nutrient solution, and part of the nutrient solution permeates into the surrounding soil to be reserved through the nutrient soil layer, so that on one hand, nutrients can be provided for the later growth of the nursery stock, and on the other hand, the seedling burning phenomenon caused by overhigh nutrient concentration can be avoided;

3. when the diameter of nursery stock trunk grow gradually, the grip block is pushed away and is removed towards the direction of being close to the semicircle board, and first spring is further compressed this moment for the grip block can be better strut the nursery stock, provides better effect of rightting simultaneously.

Drawings

FIG. 1 is a schematic view of the overall structure of a support frame in an embodiment of the present application;

FIG. 2 is a schematic diagram showing the specific structure of the outer cylinder and the adaptive clamping assembly;

FIG. 3 is a schematic view showing the overall structure of the leg;

FIG. 4 is a cross-sectional view showing the mating relationship between the sleeve and the support rod;

FIG. 5 is a schematic view showing the overall structure of the tie bar assembly;

FIG. 6 is a cross-sectional view showing the internal structure of the tie bar assembly;

fig. 7 is a partially enlarged schematic view of a portion a in fig. 6.

Description of reference numerals: 1. an outer cylinder; 11. a semicircular plate; 12. an ear plate; 2. a self-adaptive clamping assembly; 21. a guide bar; 22. a clamping plate; 23. a limiting block; 24. a first spring; 3. a support leg; 31. a sleeve; 311. a limiting hole; 32. a support bar; 321. accommodating grooves; 322. a movable pin; 323. a second spring; 324. a lock hole; 325. a card slot; 4. a connecting component; 41. a connecting rod; 42. a collar; 43. adjusting a rod; 44. a universal joint; 45. a slider; 46. a chute; 5. a clamping piece; 51. clamping a plate; 52. a fixed cylinder; 53. a swing lever; 54. a sphere; 55. and (4) an anti-drop plate.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses a planting method of landscaping seedlings.

The planting method comprises the following steps: s1: treating a planting area; s2: digging a pit; s3: planting nursery stocks; s4: mounting and supporting; s5: and (5) watering and maintaining.

In step S1, the planting area processing mainly includes two parts, namely, detecting the quality of the planting soil and removing impurities; when the quality of the planting soil is detected, one point is spot-checked and sampled every 200 square meters, each point is not less than 40 square meters, and detection items comprise conventional indexes, heavy metal pollution, trace elements, fertility indexes and the like; meanwhile, the depth of the underground water level is detected, and if an impermeable layer is arranged below the planting soil layer, the impermeable layer needs to be smashed or perforated so as to meet the planting standard.

In step S2, digging a plurality of pits in the planting area by manual or mechanical equipment; the method is characterized in that prepared loam and decomposed organic fertilizer are fully mixed and paved in pits as a nutrient soil layer, and the loam has the characteristics of ventilation, water retention, heat preservation and the like, so that the survival rate of seedlings after being planted can be greatly improved; 2-3 days before planting, clear water with the water depth of 2/3 is poured into the pit holes, nutrient solution is formed after the clear water and the organic fertilizer are mixed, and partial nutrient solution permeates into the surrounding soil to be reserved through the nutrient soil layer.

In step S3, before planting, pruning and shaping the branches and leaves of the nursery stock to prevent the necrotic or broken branches from competing for nutrients after planting; meanwhile, a rooting solution is prepared by the rooting powder and clear water according to a proportion, and the roots of the seedlings are soaked for 24 hours, so that the growth of the roots of the seedlings is promoted, and the survival rate is improved; when planting, the root of the seedling is accurately placed in the pit, when the soil is backfilled to half of the depth of the pit, the seedling is righted, after the soil is tamped, the soil is continuously backfilled to four fifths of the depth of the pit and tamped, so that a shallow pit is formed in the pit, and water is stored in the pit.

In step S4, a support frame is installed around each hole for supporting the nursery stock.

Referring to fig. 1, the support frame includes an outer cylinder 1 with a hollow interior and two open ends, two sets of adaptive clamping assemblies 2 symmetrically installed on the outer cylinder 1 for supporting the nursery stock trunk, and support legs 3 hinged on the outer wall of the support ring.

Referring to fig. 2, the outer cylinder 1 includes two semicircular plates 11, and lugs 12 extending along the radial direction of the semicircular plates 11 are integrally formed at both ends of each semicircular plate 11, and when the outer cylinder is installed, the two semicircular plates 11 are surrounded outside the seedling main rod, and then the lugs 12 are mutually attached and fixed by bolts.

The self-adaptive clamping assembly 2 comprises a guide rod 21, a clamping plate 22, a limiting block 23 and a first spring 24, wherein the guide rod 21 is slidably arranged in the middle of the semicircular plate 11 in a penetrating mode, the clamping plate 22 is fixedly connected to one end, located in the outer cylinder 1, of the guide rod 21, the limiting block 23 is fixedly connected to one end, far away from the clamping plate 22, of the guide rod 21, the first spring 24 is sleeved on the guide rod 21 and is always in a compressed state, one end of the first spring 24 is abutted to the clamping plate 22, and the other end of the first spring 24 is abutted to the inner concave surface of the semicircular plate 11; the grip block 22 is the arc, and its concave surface is used for centre gripping nursery stock trunk, and along with the growth of nursery stock trunk, the supporting part of support frame can follow the change of trunk diameter and change to continuously strut the nursery stock, grip block 22 removes towards the direction that is close to semicircle board 11 promptly, and first spring 24 is further compressed this moment, makes grip block 22 can provide better effect of rightting for the nursery stock.

In order to protect the main rods of the seedlings in the supporting process, a flexible pad is bonded on one side of the clamping plate 22 away from the guide rod 21.

Referring to fig. 1 and 3, four legs 3 are provided, the four legs 3 are circumferentially and equidistantly distributed around the axis of the outer cylinder 1, and each semicircular plate 11 is provided with two legs 3. The supporting leg 3 comprises a sleeve 31 hinged on the outer wall of the semicircular plate 11 and a supporting rod 32 detachably connected on the sleeve 31, and one end of the supporting rod 32 far away from the sleeve 31 is provided with a tip convenient for jacking.

Referring to fig. 3 and 4, two receiving grooves 321 radially opened and symmetrically arranged along the radial direction of the support rod 32 are formed in the side wall of the support rod 32 away from the tip end, a movable pin 322 is slidably disposed in the receiving groove 321, a second spring 323 is fixedly connected between one end of the movable pin 322 located in the receiving groove 321 and the inner wall of the receiving groove 321, and normally, one end of the movable pin 322 away from the second spring 323 extends out of the receiving groove 321; the sleeve 31 is provided with limiting holes 311 corresponding to the movable pins 322 one by one, during installation, the movable pins 322 are pressed to be retracted into the accommodating grooves 321, then one end of the support rod 32 is inserted into the sleeve 31, and when the movable pins 322 are aligned with the limiting holes 311, the free ends of the movable pins 322 extend out of the limiting holes 311 to realize fixation.

Referring to fig. 1 and 5, a cross member 4 is provided at one side of each of the support bars 32 to connect the adjacent support bars 32 as a whole, thereby stabilizing the entire support frame. The cross connecting component 4 comprises a connecting rod 41 which is hollow inside and is provided with an opening at one end, a sleeve ring 42 which is rotatably connected with the opening end of the connecting rod 41, and an adjusting rod 43 which penetrates through the sleeve ring 42 and extends into the connecting rod 41 to be matched with the connecting rod 41 in a sliding way, wherein one end of the connecting rod 41 far away from the sleeve ring 42 is hinged on the supporting rod 32 through a universal joint 44.

Referring to fig. 5 and 6, an external thread is processed on the outer wall of the adjusting rod 43, an internal thread is processed on the inner wall of the collar 42, the adjusting rod 43 and the collar 42 are connected through the internal and external threads, a sliding block 45 is fixedly connected to the outer wall of the adjusting rod 41, and a sliding groove 46 extending along the axial direction of the connecting rod 41 is formed in the inner wall of the connecting rod 41 corresponding to the sliding block 45.

When the collar 42 is rotated, the adjusting rod 43 moves in the axial direction of the connecting rod 41 by the screw transmission because the circumferential rotation of the adjusting rod 43 is limited by the arrangement of the sliding block 45 and the sliding groove 46.

Referring to fig. 6 and 7, the free end of the adjusting rod 43 is provided with a clamping member 5, the clamping member 5 includes a clamping plate 51, a fixed cylinder 52 fixedly connected to one side of the clamping plate 51, a swinging rod 53 slidably inserted into the fixed cylinder 52 and having one end extending out of the fixed cylinder 52, and a sphere 54 fixedly connected to the free end of the swinging rod 53, one end of the swinging rod 53 far away from the sphere 54 is fixedly connected with an anti-disengaging plate 55, and the anti-disengaging plate 55 mainly functions to prevent the fixed cylinder 52 from disengaging from the swinging rod 53; the sphere 54 is embedded at the free end of the adjusting rod 43, so that the clamping plate 51 and the adjusting rod 43 form a ball hinge connection; each support rod 32 is provided with a locking hole 324 and a locking groove 325 at one side of the transverse connecting component 4, the locking groove 325 extends along the axial direction of the support rod 32, and the locking hole 324 is higher than the hinge point between the connecting rod 41 and the support rod 32.

During the use, lift connecting rod 41, adjust the extension length of adjusting pole 43 through rotating lantern ring 42, and then realize the regulation to cardboard 51 position, then finely tune through the relative slip between solid fixed cylinder 52 and swinging arms 53 for cardboard 51 can get into lockhole 324 and slide along draw-in groove 325 downwards, and gliding in-process adjusts the withdrawal length of adjusting pole 43 through rotating lantern ring 42, makes the taut inner wall of draw-in groove 325 of cardboard 51, realizes chain fixed.

In step S5, clear water is poured into the pit, and the water is poured thoroughly for the first time, based on the water accumulated on the soil surface.

According to the embodiment of the application, each seedling is supported, so that the stability of the planted seedlings is greatly improved, the possibility that the seedlings are toppled due to the influence of geographical environments such as strong wind and the like is reduced, and the overall survival rate is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A planting method of landscaping nursery stocks is characterized by comprising the following steps,

s1: processing a planting area, and detecting the quality of planting soil;

s2: digging a pit, and digging a plurality of pits in the planting area;

s3: planting seedlings, namely planting each seedling into a corresponding pit;

s4: mounting supports, namely mounting support frames for supporting the nursery stocks around each pit, wherein the support parts of the support frames change along with the diameter change of the trunks along with the growth of the trunks of the nursery stocks to form continuous supports;

s5: and (5) watering and maintaining, namely watering water in the pit until water is accumulated on the surface of the soil, and stopping.

2. The method for planting nursery stock for landscaping according to claim 1, wherein the step of S2 further comprises:

a1: mixing loam and decomposed organic fertilizer to serve as a nutrient soil layer and paving the nutrient soil layer in the pit;

a2: and (3) pouring clear water with the water depth of 2/3 into the pit 2-3 days before planting, mixing the clear water with organic fertilizer to form nutrient solution, and permeating the nutrient solution into the surrounding soil for storage.

3. The method for planting nursery stock for landscaping according to claim 1, wherein the step of S3 further comprises:

b1: before planting, pruning and shaping branches and leaves of the nursery stock;

b2: before planting, preparing rooting solution by using rooting powder and clear water according to a proportion, and soaking the root of the seedling for 24 hours.

4. The planting method of landscaping seedlings as claimed in claim 1, wherein the planting method comprises the following steps: the support frame comprises an outer barrel (1) which is hollow inside and has two open ends, two groups of self-adaptive clamping assemblies (2) which are symmetrically arranged on the outer barrel (1) to support the nursery stock trunk, and supporting legs (3) which are hinged on the outer wall of the support ring.

5. The planting method of landscaping seedlings as claimed in claim 4, wherein the planting method comprises the following steps: self-adaptation centre gripping subassembly (2) are including sliding guide bar (21) of wearing to locate on urceolus (1), grip block (22) that the rigid coupling is located the one end of urceolus (1) in guide bar (21), stopper (23) that grip block (22) one end was kept away from in guide bar (21) to and the cover establish on guide bar (21) and compressed first spring (24) all the time, the one end and grip block (22) looks butt of first spring (24), the other end and the inner wall looks butt of urceolus (1) of first spring (24).

6. The planting method of landscaping seedlings as claimed in claim 5, wherein the planting method comprises the following steps: the clamping plates (22) are arc-shaped, and a clamping cavity is formed between the two clamping plates (22) of the two groups of self-adaptive clamping assemblies (2).

7. The planting method of landscaping seedlings as claimed in claim 5, wherein the planting method comprises the following steps: and a flexible pad is bonded on one side of the clamping plate (22) far away from the guide rod (21).

8. The planting method of landscaping seedlings as claimed in claim 4, wherein the planting method comprises the following steps: the four supporting legs (3) are circumferentially and equidistantly distributed on the outer barrel (1) by taking the axis of the outer barrel (1) as the center;

the supporting legs (3) comprise sleeves (31) hinged on the outer walls of the outer cylinders (1) and supporting rods (32) detachably connected to the sleeves (31).

9. The planting method of landscaping seedlings as claimed in claim 8, wherein: the support rod (32) is provided with two accommodating grooves (321) which are radially arranged along the support rod and symmetrically arranged, a movable pin (322) is arranged in each accommodating groove (321) in a sliding mode, one end of each movable pin (322) extends out of each accommodating groove (321), and a second spring (323) is fixedly connected between one end, located in each accommodating groove (321), of each movable pin (322) and the inner wall of each accommodating groove (321);

the sleeve (31) is provided with a limit hole (311) for clamping the movable pin (322).

10. The planting method of landscaping seedlings as claimed in claim 8, wherein: and a tip is processed at one end of the support rod (32) far away from the sleeve (31).

Images