CN110419354B - Modeling device and modeling method for podocarpus macrophyllus - Google Patents

Abstract

The invention belongs to the technical field of forest planting, and relates to a modeling device for a podocarpus macrophyllus, which comprises a fixed base, wherein a plurality of groups of supporting pieces are hinged on the fixed base, a sliding rod is connected on a supporting base rod in a sliding manner, the end part of the sliding rod is hinged with a semi-annular fixed block, the fixed block on the same supporting piece is buckled on a main rod of the podocarpus macrophyllus in a ring manner, an accommodating groove is formed in the outer side wall of the fixed block, a winding shaft is rotatably connected in the accommodating groove, and an aluminum wire for winding on a main branch of a top cloud sheet of the podocarpus macrophyllus is wound on the winding shaft, so that the distortion of the main branch in the top cloud sheet of the podocarpus macrophyllus can be avoided; also relates to a modeling method of the modeling device for the podocarpus macrophyllus, which can make the podocarpus macrophyllus grow vigorously, simultaneously can avoid the distortion of the main branches in the top cloud piece of the podocarpus macrophyllus and improve the modeling quality and the ornamental effect of the podocarpus macrophyllus.

Description

Modeling device and modeling method for podocarpus macrophyllus

The technical purpose of the invention is realized by the following technical scheme:

a modeling device for Arhat pine comprises a fixed base, wherein a plurality of groups of supporting pieces are hinged on the fixed base, each group of supporting pieces comprises two supporting base rods which are symmetrically arranged by taking the central axis of the fixed base as a symmetry axis, a sliding rod is connected on the supporting base rods in a sliding manner, a fixing device for fixing the sliding rod is arranged on the supporting base rods, the end parts of the sliding rods are hinged with semi-annular fixing blocks, a magnetic block is embedded on the end surface of one end of each fixing block, an iron block is embedded on the end surface of the other end of each fixing block, the magnetic blocks on different fixing blocks on the same supporting piece are matched and adsorbed with the iron blocks, the fixing blocks on the same supporting piece are buckled on the main rods of the Arhat pine, a containing groove is formed in the outer side wall of each fixing block, a winding shaft is rotatably connected in the containing, the winding shaft is wound with an aluminum wire used for being wound on a main branch of the top cloud sheet of the Grosvenor momordica tree, the fixed block is fixedly connected with a telescopic rod, and a plurality of clamping hooks fixed with the aluminum wire are embedded in the rod body of the telescopic rod.

By adopting the technical scheme, the supporting angle of the supporting base rod is adjusted and the sliding rod is pulled, the fixed block in the same group of supporting pieces is buckled on the main rod of the Han pine by utilizing the adsorption rings of the magnetic block and the iron block, the contact positions of different supporting pieces and the Han pine are different, the contact height of the supporting pieces and the main rod of the Han pine is higher as the distance from the center of the fixed base is longer, after the fixed block is fixed, the main branch of the Han pine top cloud piece is pulled to enable the main branch to be in a stretched state, the aluminum wire is pulled to enable the aluminum wire to be spirally wound on the main branch, the winding interval of the aluminum wire is 4-7 cm, then the other small branch rods of the Han pine are pulled to enable the small branches to be in a stretched state, the small branches are manually wound by adopting the plastic thin rope, the end parts of the aluminum wire are fixedly connected on the telescopic rods with different heights after the winding is completed, and the arrangement can avoid the main branch in the Han pine top cloud piece from being twisted, is beneficial to improving the forming quality and the ornamental effect of the podocarpus macrophyllus.

The invention is further configured to: the fixing device comprises a plurality of first positioning grooves formed in the rod body of the sliding rod, second positioning grooves formed in the supporting base rod and aligned with the first positioning grooves in a sliding mode, and positioning rods inserted into the first positioning grooves and the second positioning grooves in a sliding mode.

Through adopting above-mentioned technical scheme, the pulling slide bar makes the slide bar be in corresponding position to make the locating lever slide and peg graft in constant head tank one, constant head tank two, thereby make the position of slide bar can fix.

The invention is further configured to: the positioning rod is back to slide bar one end fixedly connected with end cap, the end cap sets up along the perpendicular to positioning rod direction, fixedly connected with is used for the taut spring of pulling end cap between the lateral wall of end cap and support base rod, taut spring sets up along the direction that is on a parallel with the positioning rod.

Through adopting above-mentioned technical scheme, this kind is provided with and does benefit to make locating lever and two peggings of constant head tank more firm to friend way and the firm support of slide bar, this kind of setting can also avoid the locating lever landing, lose simultaneously.

The invention is further configured to: fixing device including set up in the elastic pin of slide bar body, set up on supporting the base stock inner wall with the spacing groove of elastic pin cooperation grafting, the round pin groove has been seted up on the pole body of slide bar, the elastic pin includes spacing ball and push spring, spacing ball sliding connection is in the round pin groove, push spring one end fixed connection is on the lateral wall of round pin groove its notch dorsad, other end fixed connection is on the terminal surface of spacing ball.

By adopting the technical scheme, after the position of the sliding rod is adjusted, the limiting ball is inserted in the limiting groove in a sliding manner under the action of the pushing spring, so that the position of the sliding rod is fixed. The fixing mode is simple and convenient to operate, and the sliding rod can be quickly fixed conveniently.

The invention is further configured to: the fixed block includes a plurality of festival piece, and is adjacent the mounting groove has been seted up to the symmetry on the lateral wall that sets up in opposite directions on the festival piece, be provided with locking spring in the mounting groove, locking spring sets up along the direction that is on a parallel with the fixed block, locking spring's both ends difference fixed connection is on the bottom lateral wall of different holding tanks on adjacent festival piece.

By adopting the technical scheme, the diameter of the main rod of the podocarpus pine is continuously increased along with the continuous growth of the podocarpus pine, the arrangement of the locking spring reserves a movable expansion space for the fixing block, so that the fixing block can be firmly buckled on the main rod of the podocarpus pine, the fixing block can be prevented from being clamped into the epidermis of the podocarpus pine, and the protection of the tree body of the podocarpus pine is facilitated.

The invention is further configured to: the side wall of the fixed block, which is attached to the main rod of the Arhat pine tree, is fixedly connected with an elastic cushion, and the elastic cushion is attached to and extruded with the main rod of the Arhat pine tree.

Through adopting above-mentioned technical scheme, the cushion self has certain shrink performance, can enough make the fixed block and the inseparabler of the pine of grosvenor momordica lock joint, also can avoid the fixed block to the damage of the mobile jib grass rope of pine of grosvenor momordica.

The invention is further configured to: the side wall of the elastic cushion, which is attached to the main rod of the Arhat pine tree, is provided with anti-slip lines.

By adopting the technical scheme, the anti-slip lines can increase the friction force between the elastic cushion and the podocarpus pine, and the fixing block and the podocarpus pine are buckled more firmly.

A second object of the present invention is to provide a modeling method applied to the above-described modeling apparatus for a pine tree, including S1: planting of the podocarpus macrophyllus: digging planting pits at the designated positions according to a plan, wherein the depth of each planting pit is 15-20 cm, the interval between every two adjacent planting pits is 2-3 m, and planting the Arhat pine trees at the designated positions;

s2: forming of the podocarpus macrophyllus top cloud slice: integrally observing the podocarpus pine before molding, cutting residual branches and dead branches of the podocarpus pine, and sealing cut openings with tinfoil;

adjusting the supporting angle of the supporting base rod and pulling the sliding rod to enable the fixing blocks in the same group of supporting pieces to be buckled on the main rods of the Arhat pine trees in a looping mode, wherein the contact positions of different supporting pieces and the Arhat pine trees are different, and the contact height of the supporting pieces and the main rods of the Arhat pine trees is higher as the distance from the center of the fixing base is farther;

after the fixing block is fixed, pulling the main branches of the top cloud sheets of the podocarpus macrophyllus to enable the main branches to be in a stretched state, pulling the aluminum wires to enable the aluminum wires to be spirally wound on the main branches, wherein the winding distance of the aluminum wires is 4-7 cm, then pulling the other fine branch rods of the podocarpus macrophyllus to enable the fine branch rods to be in the stretched state, manually winding the fine branches by adopting thin plastic ropes, and fixedly connecting the end parts of the aluminum wires to telescopic rods at different heights after winding is completed;

s3: cutting, curing and forming the podocarpus pine: watering the podocarpus macrophyllus once every 12 hours, and pruning residual branches and dead branches on the main branches and the fine branches of the pulled podocarpus macrophyllus every 2 days.

By adopting the technical scheme, the planting pits are 15-20 cm deep, so that the podocarpus macrophyllus can fully absorb nutrition in soil, the influence of the over-deep burying of the podocarpus macrophyllus on the air permeability of the roots of the podocarpus macrophyllus can be avoided, and the growth of the podocarpus macrophyllus is facilitated;

the cutting before the forming is beneficial to the pre-forming of the podocarpus macrophyllus top cloud piece, and the forming difficulty of the podocarpus macrophyllus top cloud piece is reduced;

the cut is covered by the tinfoil, so that the water loss of the podocarpus macrophyllus can be avoided, and the growth of the podocarpus macrophyllus is facilitated;

the arrangement of the fixed block and the telescopic rod can avoid the main branches in the cloud piece on the top of the Arhat pine from being distorted, and is beneficial to enabling the main branches and the fine branches to grow in the preset direction; the modeling method can make the podocarpus macrophyllus exuberantly grow, simultaneously can avoid the main branches in the top cloud piece of the podocarpus macrophyllus from being distorted, and improves the molding quality and the ornamental effect of the podocarpus macrophyllus.

In conclusion, the beneficial technical effects of the invention are as follows:

1. through the arrangement of the fixed block and the contraction rod, the main branches in the top cloud piece of the podocarpus macrophyllus can be prevented from being distorted, and the forming quality and the ornamental value of the podocarpus macrophyllus are improved;

2. through the process flow of S1-S3, the effect of enabling the podocarpus macrophyllus to flourish and improving the molding quality and the ornamental value of the podocarpus macrophyllus can be achieved.

Drawings

FIG. 1 is a schematic view showing the overall construction of the molding machine of the present invention;

FIG. 2 is a schematic view showing the structure of the fixing device according to embodiment 1;

FIG. 3 is a schematic view of the structure for embodying the tension spring in embodiment 1;

FIG. 4 is a schematic view of a structure for embodying an elastic pad;

FIG. 5 is a schematic view for showing the internal structure of the accommodating groove;

FIG. 6 is a schematic view of an enlarged view at A in FIG. 5;

FIG. 7 is a schematic view of an enlarged view at B in FIG. 5;

FIG. 8 is a schematic view showing a cross-sectional view for embodying the structure of the fixing means in example 2;

fig. 9 is a schematic view of the steps of the molding method of the present invention.

In the figure, 1, a base is fixed; 2. a fixing leg; 3. a support member; 31. a support base rod; 32. a slide bar; 4. a fixing device; 41. positioning a first groove; 42. positioning a second groove; 43. positioning a rod; 44. an elastic pin; 441. a limiting ball; 442. a push spring; 45. a limiting groove; 6. an end cap; 7. tensioning the spring; 8. a fixed block; 81. segment block; 9. mounting grooves; 10. a locking spring; 11. a magnetic block; 12. an iron block; 13. an elastic pad; 14. anti-skid lines; 15. accommodating grooves; 16. a spool; 17. a torsion spring; 18. a telescopic rod; 19. a hook; 20. a pin slot; 21. and (4) aluminum wires.

Detailed Description

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

Example 1: the utility model provides a molding device of arhat pine, refers to fig. 1, includes fixed baseplate 1, and fixed baseplate 1 is the cuboid setting, and fixed baseplate 1's bottom surface fixed connection is in 4 fixed feet 2, and fixed feet 2 are the setting of inversion coniform and lie in fixed baseplate 1's four corners, and fixed feet 2 peg graft in ground.

Referring to fig. 2, fixed baseplate 1 is last to be provided with 3 support piece 3 of group, and every support piece 3 of group includes two support base rods 31, and the bottom of supporting base rod 31 articulates in fixed baseplate 1's upper surface, and support base rod 31 is cylindric setting and uses fixed baseplate 1's axis to set up as symmetry axis symmetry. The 3 groups of supporting pieces 3 are positioned on different horizontal lines, the distance from each group of supporting pieces 3 to the center of the fixed base 1 is different, and the farther the distance from the center of the fixed base 1 is, the higher the contact height of the supporting pieces 3 and the main rod of the pine arhat tree is.

Referring to fig. 2, a sliding groove is formed in the support base rod 31, an inner cavity of the sliding groove is cylindrically formed, and a notch of the sliding groove is located on the upper end surface of the support base rod 31. A sliding rod 32 is connected in the sliding groove in a sliding manner, and a fixing device 4 for fixing the sliding rod 32 is arranged between the supporting base rod 31 and the sliding rod 32.

Referring to fig. 2, the fixing device 4 is a plurality of first positioning grooves 41 formed in the shaft of the sliding rod 32, second positioning grooves 42 formed in the supporting base 31 and slidably aligned with the first positioning grooves 41, and positioning rods 43 slidably inserted into the first positioning grooves 41 and the second positioning grooves 42. Wherein, the length direction of the first 41-hole positioning slot slide bar 32 is arranged linearly. The second positioning groove 42 is positioned at the upper end of the shaft of the support base rod 31.

Referring to fig. 2, an end cap 6 is fixedly connected to one end of the positioning rod 43 opposite to the sliding rod 32, the end cap 6 is cylindrically disposed and is disposed along a direction perpendicular to the positioning rod 43, a tension spring 7 for pulling the end cap 6 is fixedly connected between the end cap 6 and a side wall of the supporting base rod 31, and the tension spring 7 is disposed along a direction parallel to the positioning rod 43.

Referring to fig. 3, the end of the sliding rod 32 far away from the fixing base 1 is hinged with a semi-annular fixing block 8, the fixing block 8 comprises a plurality of 3 segments 81, mounting grooves 9 are symmetrically formed in the side walls of the adjacent segments 81, which are oppositely arranged, locking springs 10 are arranged in the mounting grooves 9, the locking springs 10 are arranged in the direction parallel to the fixing block 8, and two ends of each locking spring 10 are respectively and fixedly connected to the side walls of the bottoms of the different accommodating grooves 15 of the adjacent segments 81.

Referring to fig. 4, the end faces of the two ends of different fixing blocks 8 on the same supporting member 3 are fitted and abutted and fastened to the main rod of the mataires. Wherein, inlay on the one end terminal surface of fixed block 8 and be equipped with magnetic path 11, inlay on the other end terminal surface and be equipped with iron plate 12, magnetic path 11 and the iron plate 12 cooperation absorption on the different fixed blocks 8 on same support piece 3.

Referring to fig. 4, an elastic pad 13 is fixedly connected to the side wall of the fixed block 8 attached to the main trunk of the mataire, and the elastic pad 13 is attached to and pressed against the main trunk of the mataire. Wherein, the side wall of the elastic cushion 13 jointed with the main pole of the Arhat pine tree is provided with an anti-skid grain 14. The anti-slip patterns 14 can increase the friction force between the elastic pad 13 and the podocarpus pine, which is beneficial to making the fastening of the fixing block 8 and the podocarpus pine more firm.

Referring to fig. 5 and 6, two receiving grooves 15 are formed in the outer side wall of each fixing block 8, a spool 16 is rotatably connected to each receiving groove 15 in the vertical direction, and a torsion spring 17 is fixedly connected between each spool 16 and the inner wall of each receiving groove 15. An aluminum wire 21 is wound on the winding shaft 16, and the aluminum wire 21 can be manually wound on the main branch of the Yunyan on the top of the Arhat pine tree.

Referring to fig. 5 and 7, a telescopic rod 18 is fixedly connected to the fixed block 8, the telescopic rod 18 is arranged along a direction perpendicular to the side wall of the fixed block 8, and a plurality of hooks 19 fixed with aluminum wires 21 are embedded in the rod body of the telescopic rod 18.

The specific implementation mode is as follows: the supporting angle of the supporting base rod 31 is adjusted and the sliding rod 32 is pulled, the fixing blocks 8 in the same group of supporting pieces 3 are buckled on the main rods of the arhat pine by utilizing the adsorption rings of the magnetic blocks 11 and the iron blocks 12, the position of the sliding rod 32 is fixed by utilizing the positioning rod 43, different supporting pieces 3 are buckled at different positions of the arhat pine, the farther the distance from the center of the fixing base 1, the higher the contact height of the supporting pieces 3 and the main rods of the arhat pine is, after the fixing of the fixing blocks 8 is finished, the main branches of the top cloud sheets of the arhat pine are pulled to be in a stretched state, and the aluminum wires 21 are pulled to spirally wind the aluminum wires 21 on the main branches.

Example 2: referring to fig. 8, the difference between the modeling apparatus and embodiment 1 is that a fixing apparatus 4 is an elastic pin 44 disposed on the shaft of a sliding rod 32, and a limiting groove 45 disposed on the inner wall of a supporting base rod 31 and engaged with the elastic pin 44, wherein the shaft of the sliding rod 32 is provided with a pin groove 20, the inner cavity of the pin groove 20 is disposed cylindrically and is disposed along a direction perpendicular to the sliding rod 32, the elastic pin 44 includes a limiting ball 441 and a pushing spring 442, the limiting ball 441 is slidably connected in the pin groove 20, one end of the pushing spring 442 is fixedly connected to a side wall of the pin groove 20 facing away from the notch thereof, and the other end of the pushing spring 442 is fixedly connected to an end surface of the limiting ball 441.

After the position of the sliding rod 32 is adjusted, the limiting ball 441 is slidably inserted into the limiting groove 45 under the action of the pushing spring 442, so that the position of the sliding rod 32 is fixed.

A modeling method applied to the above-described modeling apparatus for a pine tree, with reference to fig. 9, includes S1: planting of the podocarpus macrophyllus: digging planting pits at the designated positions according to a plan, wherein the depth of each planting pit is 16cm, the interval between every two adjacent planting pits is 2.5m, and planting the pine arhat trees at the designated positions;

s2: forming of the podocarpus macrophyllus top cloud slice: integrally observing the podocarpus pine before molding, cutting residual branches and dead branches of the podocarpus pine, and sealing cut openings with tinfoil;

the supporting angle of the supporting base rod 31 is adjusted and the sliding rod 32 is pulled, the fixed blocks 8 in the same group of supporting pieces 3 are buckled on the main rods of the arhat pine, the contact positions of different supporting pieces 3 and the arhat pine are different, and the contact height of the supporting pieces 3 and the main rods of the arhat pine is higher as the distance from the center of the fixed base 1 is longer;

after the fixing block 8 is fixed, pulling the main branches of the top cloud sheet of the Han pine trees to enable the main branches to be in a stretched state, pulling the aluminum wires 21 to enable the aluminum wires 21 to be spirally wound on the main branches, wherein the winding distance of the aluminum wires 21 is 5cm, then pulling the other small branches of the Han pine trees to enable the small branches to be in the stretched state, manually winding the small branches by adopting plastic thin ropes, wherein the winding distance of the plastic thin ropes is 1cm, and fixedly connecting the end parts of the aluminum wires 21 to the telescopic rods 18 at different heights according to requirements after the winding is completed;

s3: cutting, curing and forming the podocarpus pine: watering the podocarpus macrophyllus once every 12 hours, and pruning residual branches and dead branches on the main branches and the fine branches of the pulled podocarpus macrophyllus every 2 days.

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

Claims (8)

1. The utility model provides a molding device of pine of grosvenor momordica, includes fixed base (1), its characterized in that: articulated on fixed baseplate (1) have a plurality of support piece (3) of organizing, every group support piece (3) include two support base rod (31) that the axis with fixed baseplate (1) set up for symmetry axis symmetry, sliding connection has slide bar (32) on support base rod (31), be provided with fixing device (4) that are used for fixed slide bar (32) on support base rod (31), the tip of slide bar (32) articulates there is semi-annular fixed block (8), inlay on the one end terminal surface of fixed block (8) and be equipped with magnetic path (11), inlay on the other end terminal surface and be equipped with iron plate (12), it is same magnetic path (11) and iron plate (12) cooperation on different fixed block (8) on support piece (3) are adsorbed, it is same fixed block (8) latch closure on the mobile jib of arhat pine on support piece (3), holding tank (15) have been seted up on the lateral wall of fixed block (8), the rotation is connected with spool (16) in holding tank (15), fixedly connected with torsional spring (17) between spool (16) and holding tank (15) inner wall, the winding has aluminium silk (21) that are used for twining on the main branch of arhat pine top cloud piece on spool (16), fixedly connected with telescopic link (18) are gone up in fixed block (8), inlay on the pole body of telescopic link (18) and be equipped with a plurality of pothooks (19) fixed with aluminium silk (21).

2. The apparatus of claim 1, wherein: the fixing device (4) comprises a plurality of first positioning grooves (41) formed in the rod body of the sliding rod (32), second positioning grooves (42) formed in the supporting base rod (31) and aligned with the first positioning grooves (41) in a sliding mode, and positioning rods (43) inserted into the first positioning grooves (41) and the second positioning grooves (42) in a sliding mode.

3. The apparatus of claim 2, wherein: the positioning rod (43) is back to one end of the sliding rod (32) and is fixedly connected with an end cap (6), the end cap (6) is arranged along the direction perpendicular to the positioning rod (43), a tensioning spring (7) used for pulling the end cap (6) is fixedly connected between the end cap (6) and the side wall of the supporting base rod (31), and the tensioning spring (7) is arranged along the direction parallel to the positioning rod (43).

4. The apparatus of claim 1, wherein: fixing device (4) including set up in elastic pin (44) on slide bar (32) pole body, set up on supporting base rod (31) inner wall with spacing groove (45) that elastic pin (44) cooperation was pegged graft, keyway (20) have been seted up on the pole body of slide bar (32), elastic pin (44) are including spacing ball (441) and push spring (442), spacing ball (441) sliding connection is in keyway (20), push spring (442) one end fixed connection is on keyway (20) lateral wall dorsad its notch, other end fixed connection is on the terminal surface of spacing ball (441).

5. The apparatus of claim 1, wherein: fixed block (8) include a plurality of festival piece (81), and are adjacent mounting groove (9) have been seted up to the symmetry on the lateral wall that sets up in opposite directions on festival piece (81), be provided with locking spring (10) in mounting groove (9), locking spring (10) set up along the direction that is on a parallel with fixed block (8), the both ends difference fixed connection of locking spring (10) is on the bottom lateral wall of different holding tanks (15) on adjacent festival piece (81).

6. The apparatus of claim 1, wherein: the side wall of the fixed block (8) attached to the main rod of the Arhat pine is fixedly connected with an elastic pad (13), and the elastic pad (13) is attached to and extruded with the main rod of the Arhat pine.

7. The apparatus of claim 6, wherein: the side wall of the elastic pad (13) which is attached to the main rod of the Arhat pine is provided with anti-skid grains (14).

8. A modeling method applied to the device for modeling a podocarpus pine according to any one of claims 1 to 7, characterized in that:

s1: planting of the podocarpus macrophyllus: digging planting pits at the designated positions according to a plan, wherein the depth of each planting pit is 15-20 cm, the interval between every two adjacent planting pits is 2-3 m, and planting the Arhat pine trees at the designated positions;

s2: forming of the podocarpus macrophyllus top cloud slice: integrally observing the podocarpus pine before molding, cutting residual branches and dead branches of the podocarpus pine, and sealing cut openings with tinfoil;

adjusting the supporting angle of the supporting base rod (31) and pulling the sliding rod (32) to enable the fixed blocks (8) in the same group of supporting pieces (3) to be buckled on the main rods of the Arhat pine trees in a looping manner, wherein the contact positions of different supporting pieces (3) and the Arhat pine trees are different, and the farther the distance from the center of the fixed base (1), the higher the contact height of the supporting pieces (3) and the main rods of the Arhat pine trees is;

after the fixing block (8) is fixed, pulling the main branches of the top cloud sheet of the Grosvenor momordica tree to enable the main branches to be in a stretched straight state, pulling the aluminum wire (21) to enable the aluminum wire (21) to be spirally wound on the main branches, enabling the winding distance of the aluminum wire (21) to be 4-7 cm, then pulling the other small branches of the Grosvenor momordica tree to enable the small branches to be in the stretched straight state, manually winding the small branches by adopting a plastic thin rope, and after the winding is completed, fixedly connecting the end parts of the aluminum wire (21) to telescopic rods (18) at different heights, so that the main branches of the top cloud sheet of the Grosvenor momordica tree can grow towards a preset direction;

s3: cutting, curing and forming the podocarpus pine: watering the podocarpus macrophyllus once every 12 hours, and pruning residual branches and dead branches on the main branches and the fine branches of the pulled podocarpus macrophyllus every 2 days to enable the main branches and the fine branches to grow in a preset direction.

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