CN114931059A - Ground anchor type anti-toppling structure for garden trees - Google Patents

Abstract

The application relates to an anchor type anti-toppling structure for garden trees, which relates to the technical field of anti-toppling structures for trees and comprises an abutting part and a connecting part; the abutting part comprises at least two positioning arc plates, and all the positioning arc plates are arranged around the peripheral wall of the arbor; connecting portion include locking unit and resistance to plucking unit, the locking unit is used for connecting adjacent location arc board, the resistance to plucking unit is used for making location arc board location on the subaerial at arbor place. This application has the improvement and prevents empting the support intensity of structure to the arbor, and the guarantee arbor is subaerial positional stability, and energy-concerving and environment-protective effect.

Description

Ground anchor type anti-toppling structure for garden trees

Technical Field

The application relates to the technical field of structure is prevented empting by the arbor, especially relates to a structure is prevented empting by gardens arbor land used anchor formula.

Background

Most of the trees in gardens are collected from different regions by garden workers and transplanted into the gardens in a unified way. The arbor of transplanting often has to prick the root not deeply, and easy strong wind blows and the problem of slope, consequently, the gardens staff sets up the structure of preventing empting mostly on the trunk of arbor to ensure arbor healthy and strong growth.

Most of the existing anti-toppling structures are symmetrically arranged on two opposite sides of a tree, and each anti-toppling structure comprises a steel plate and an inserted bar. The steel sheet slope sets up between arbor and ground, and steel sheet one end is supported tightly on the arbor, and the other end is fixed in subaerially through the inserted bar, and at this moment, steel sheet, ground and arbor form the triangle-shaped structure to reduce the phenomenon that appears empting after the arbor is blown by strong wind.

However, the support strength of the common anti-toppling structure for the arbor is limited, and the positional stability of the arbor in the weather of strong airflow is difficult to guarantee, so that improvement is needed.

Disclosure of Invention

In order to improve the limited problem of the support intensity of ordinary structure of preventing empting to the arbor, this application provides a structure is prevented empting by gardens arbor land used anchor formula.

The application provides a pair of structure is prevented empting with ground anchor formula in gardens arbor adopts following technical scheme:

a ground anchor type anti-toppling structure for garden trees comprises an abutting part and a connecting part; the abutting part comprises at least two positioning arc plates, and all the positioning arc plates are arranged around the peripheral wall of the arbor; connecting portion include locking unit and resistance to plucking unit, the locking unit is used for connecting adjacent location arc board, the resistance to plucking unit is used for making location arc board location on the subaerial at arbor place.

By adopting the technical scheme, after the positioning arc plates are arranged around the peripheral wall of the arbor, the locking units are connected with the adjacent positioning arc plates, so that all the positioning arc plates are fixed on the peripheral wall of the arbor; the anti-pulling unit makes and forms the counter-pull effort between location arc board and the ground through connecting the ground at location arc board and arbor place, and at this moment, all arc boards all can provide the supporting force to the arbor, have reduced the phenomenon that the arbor appears empting after receiving the wind-force drum blow, have ensured the position stability after the arbor is transplanted.

In a specific possible embodiment, the locking unit includes a limit plate, a connection bolt, and a lock nut; the limiting plates are arranged at two ends of each positioning arc plate in the length direction, and the adjacent positioning arc plates are abutted through the limiting plates; the connecting bolt penetrates through the abutted limiting plates, and the locking nut is in threaded connection with the connecting bolt to enable the abutted limiting plates to be connected.

By adopting the technical scheme, the limiting plates increase the contact area of the adjacent positioning arc plates after abutting against each other, so that the position stability of the positioning arc plates on the arbor is improved; after the connecting bolt penetrates the offsetting limiting plates, the position of the positioning arc plate on a tree is limited, and the locking nut is screwed on the connecting bolt in a threaded manner, so that the adjacent positioning arc plates are fixedly connected into a whole, and an operator can conveniently and quickly detach the positioning arc plates for maintenance and renewal.

In a specific implementation scheme, the locking unit further comprises a propping assembly, and the propping assembly is arranged between the positioning arc plate and the arbor; the abutting component comprises a clamping arc plate and a plurality of elastic pieces, one end of each elastic piece is arranged on the clamping arc plate, and the other end of each elastic piece is connected with the positioning arc plate.

By adopting the technical scheme, the clamping arc plate abuts against the arbor, so that the abutting tightness of the positioning arc plate and the arbor is improved; the elastic component is through the compression deformation of self in order to support tightly between screens arc board and location arc board, has improved the butt effort that the location arc board was applyed to the screens arc board, and then makes the screens arc board stabilize the butt on the periphery wall of arbor.

In a specific practical implementation scheme, the tightening assembly further comprises an interference piece, the interference piece is arranged on the clamping arc plate, and the interference piece is tightly matched between the clamping arc plate and the arbor.

By adopting the technical scheme, the interference piece is tightly propped between the clamping arc plate and the arbor through the compression deformation of the interference piece, so that the connecting gap between the clamping arc plate and the arbor is reduced; meanwhile, due to the characteristic that the static friction coefficient of the abutting pieces is large, the phenomena of loosening and shaking and deviation of the clamping arc plate relative to the arbor are reduced, and the position stability of the clamping arc plate on the arbor is further guaranteed.

In a particular possible embodiment, the anti-pulling unit comprises an anti-pulling screw rod, a steering member and an orientation cone; one end of the anti-pulling screw rod is arranged on the connecting bolt through a steering piece, and the directional cone is provided with a locking groove for threaded connection of the anti-pulling screw rod; one end of the directional cone, which is far away from the anti-pulling screw rod, is arranged on the ground for planting the arbor.

By adopting the technical scheme, the steering piece is used for enabling the anti-pulling screw rod to rotate relative to the connecting bolt so as to improve the operation convenience of connecting the anti-pulling screw rod and the directional cone by an operator; anti-pulling lead screw is at locking inslot internal thread tightening back, has formed between anti-pulling lead screw and the directional awl to drawing the effort, has ensured the support intensity of location arc board to the arbor, helps improving the arbor stability in position subaerial.

In a particular possible embodiment, the steering member comprises a butt plate and a profiled column; a through channel for a connecting bolt to pass through is arranged on the butt joint plate in a penetrating manner; the special-shaped column is arranged on the anti-pulling screw rod, and the butt plate is provided with a preset cavity which is used for allowing the special-shaped column to be abutted and rotated, so that the anti-pulling screw rod rotates relative to the butt plate.

Through adopting above-mentioned technical scheme, but special-shaped post is located predetermines the cavity and free rotation for the butt joint board rotates with the resistance to plucking lead screw to be connected, has both ensured the resistance to plucking intensity on location arc board and ground, helps improving the simple operation degree that operating personnel installed the resistance to plucking lead screw on directional awl again.

In a specific embodiment, the abutting plates are magnetically attracted to the limiting plate.

Through adopting above-mentioned technical scheme, the butt plate is inhaled with limiting plate back magnetism mutually, has improved the joint strength of butt plate with the limiting plate, has ensured the positional stability of butt plate in limiting plate one side, and then has helped improving the stability of support of location arc board to the arbor.

In a specific possible embodiment, the anti-pulling unit further comprises an anti-deviation assembly, and the anti-deviation assembly comprises an external connecting plate and a clamping and fixing bolt; the external connecting plate is arranged on the directional cone, and the clamping and fixing bolt is used for enabling the external connecting plate to be positioned on the ground where the arbor is located.

By adopting the technical scheme, the contact area of the directional cone and the ground is increased by the external connection plate, and the position stability of the directional cone inserted on the ground is guaranteed; the external connecting plate is positioned on the ground by clamping and fixing the bolt, so that the phenomena of loosening and swinging of the external connecting plate on the ground and deflection are reduced, and the positioning stability of the directional cone on the ground is further improved.

In a specific embodiment, a plurality of deviation-preventing channels are arranged on the directional cone in a penetrating mode.

By adopting the technical scheme, after the deviation-preventing channel is contacted with the ground, the soil on the ground is embedded into the deviation-preventing channel, so that the contact area of the directional cone and the ground is increased, the frictional resistance of the directional cone relative to the ground is increased, and the phenomena of loosening and shaking and deviation of the directional cone on the ground are reduced.

In summary, the present application has the following beneficial technical effects:

1. after the positioning arc plates are arranged around the outer peripheral wall of the arbor, the locking units are connected with the adjacent positioning arc plates, so that all the positioning arc plates are fixed on the outer peripheral wall of the arbor; the anti-pulling unit enables a counter-pulling acting force to be formed between the positioning arc plates and the ground by connecting the positioning arc plates and the ground where the arbor is located, at the moment, all the arc plates can provide supporting acting force for the arbor, the phenomenon that the arbor is toppled after being blown by wind power is reduced, and the position stability of the transplanted arbor is guaranteed; in addition, the forming materials of the abutting part 1 and the connecting part 2 are energy-saving titanium alloy, so that the steel plate has the characteristics of light weight, high strength and low energy consumption, the resource waste and the environmental pollution generated in the cutting process of common steel can be effectively reduced, and the energy-saving and environment-friendly effects are improved;

2. the steering piece is used for enabling the anti-pulling screw rod to rotate relative to the connecting bolt so as to improve the operation convenience degree of connecting the anti-pulling screw rod and the directional cone by an operator; the anti-pulling lead screw has formed the counter-pulling effort between anti-pulling lead screw and the directional awl at the locking inslot internal thread back of screwing up, has ensured the support intensity of location arc board to the arbor, helps improving the position stability of arbor subaerial.

Drawings

FIG. 1 is a schematic structural diagram of an anchor type anti-toppling structure for garden trees in an embodiment of the application;

FIG. 2 is a schematic view showing a positional relationship between an abutting portion and a connecting portion in an embodiment of the present application;

FIG. 3 is a schematic vertical sectional view of the connection relationship between the anti-pulling screw rod and the orientation cone in the embodiment of the present application;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

fig. 5 is an enlarged schematic view of a portion B in fig. 3.

Description of reference numerals:

1. an abutting portion; 2. a connecting portion; 3. positioning the arc plate; 4. a locking unit; 41. a limiting plate; 42. a connecting bolt; 43. locking the nut; 5. a tightening assembly; 51. a clamping arc plate; 52. an elastic member; 53. an interference piece; 6. an anti-pulling unit; 61. an anti-pulling screw rod; 62. a steering member; 621. a butt plate; 6211. a pass-through channel; 6212. presetting a cavity; 622. a profiled pole; 63. a directional cone; 631. a deviation prevention channel; 632. a locking groove; 7. a deviation prevention assembly; 71. an outer connecting plate; 72. and clamping and fixing the bolt.

Detailed Description

The embodiment of the application discloses structure is prevented empting by gardens arbor land used anchor formula.

The present application is described in further detail below with reference to figures 1-5.

Referring to fig. 1, the ground-anchored anti-toppling structure includes an abutting portion 1 and a connecting portion 2. In this embodiment, the forming materials of the abutting portion 1 and the connecting portion 2 are all energy-saving titanium alloys, and have the characteristics of light weight, high strength and low energy consumption, so that the phenomena of resource waste and environmental pollution caused by common steel materials in the cutting process can be effectively reduced. Butt portion 1 includes two piece at least location arc boards 3, and in this embodiment, the quantity of location arc board 3 can be four, and four location arc boards 3 set up around the periphery wall of arbor to jointly around the arbor.

Referring to fig. 2, the connecting portion 2 includes four locking units 4, the number of the locking units 4 may be four, and each locking unit 4 is used for connecting two adjacent positioning arc plates 3, so that the positioning arc plates 3 are fixed on the peripheral wall of the arbor. Each group of locking units 4 comprises a limiting plate 41, a connecting bolt 42 and a locking nut 43, wherein the limiting plate 41 is made of a cathode neodymium iron boron magnet, the number of the limiting plates 41 in each group of locking units 4 can be two, and the two limiting plates 41 are respectively located at two ends of the positioning arc plate 3 in the length direction. After the two adjacent limiting plates 41 are abutted, the rod body of the connecting bolt 42 penetrates through the two abutted limiting plates 41, and the locking nut 43 is in threaded connection with the rod body of the connecting bolt 42, so that the two abutted limiting plates 41 are fixedly connected, and the adjacent positioning arc plates 3 are fixed on the peripheral wall of the arbor.

Referring to fig. 2, in order to improve the abutting strength of the positioning arc plate 3 on the arbor, the locking unit 4 further includes a tightening assembly 5. The abutting assembly 5 includes a locking arc plate 51 and a plurality of elastic members 52, and in this embodiment, the elastic members 52 may be compression springs made of steel. One end of the elastic element 52 in the length direction is welded to the sidewall of the positioning arc plate 3 facing the arbor, and the other end is welded to the clamping arc plate 51. Screens arc board 51 keeps away from the lateral wall butt of elastic component 52 behind the periphery wall of arbor, and compression deformation through elastic component 52 makes location arc board 3 support tight screens arc board 51, and then links to each other the back as adjacent location arc board 3, improves the butt intensity of location arc board 3 on the arbor.

Referring to fig. 2, in order to reduce the connection gap between the locking arc plate 51 and the arbor, the tightening assembly 5 further includes an interference member 53. In this embodiment, the interference piece 53 may be a rubber pad that is flexible and easily deformable. Interference piece 53 is fixed in screens arc 51 through the gluing and is kept away from the lateral wall of elastic component 52, and interference piece 53 supports tightly between screens arc 51 and arbor through the compression deformation of self and the great characteristic of coefficient of static friction to reduce the connection space between screens arc 51 and the arbor.

Referring to fig. 2, the connecting part 2 further includes an anti-pulling unit 6, and the anti-pulling unit 6 is used to connect the positioning arc plate 3 with a ground for planting trees. The anti-pulling unit 6 comprises an anti-pulling screw rod 61, a steering piece 62 and an orientation cone 63, wherein the orientation cone 63 is impacted by external force to be plugged on the ground.

Referring to fig. 2, in order to improve the positional stability of the directional cone 63 on the ground, the anti-pulling unit 6 further includes an anti-deviation assembly 7, and the anti-deviation assembly 7 includes an external connection plate 71 and a fastening bolt 72. The number of the outer joint plates 71 can be two, and the two outer joint plates 71 are oppositely welded at the two radial ends of the orientation cone 63. After the directional cone 63 is driven into the ground to a certain depth, the bottom wall of the external connection plate 71 is abutted against the top wall of the ground, and the clamping and fixing bolt 72 penetrates through the external connection plate 71 and then is abutted against the ground so as to limit the position of the external connection plate 71 on the ground, and further improve the position stability of the directional cone 63 on the ground.

Referring to fig. 3 and 4, in order to reduce the phenomena of loosening and deviation of the directional cone 63 relative to the ground, a plurality of deviation preventing channels 631 are further provided on the directional cone 63. Each anti-deviation channel 631 extends along the length direction of the directional cone 63, and all the anti-deviation channels 631 are equidistantly distributed along the outer edge wall of the directional cone 63 to increase the static friction coefficient of the directional cone 63 on the ground, thereby reducing the phenomena of loosening and deviation of the directional cone 63 on the ground.

Referring to fig. 3 and 5, the resistance wire rod 61 is connected to the connecting bolt 42 through a steering member 62, and the steering member 62 includes an abutting plate 621 and a profiled post 622. In this embodiment, the docking plate 621 is made of an anode neodymium iron boron magnet, a through passage 6211 is disposed through the docking plate 621, and an inner diameter of the through passage 6211 is larger than an outer diameter of the rod body of the connecting bolt 42, so that the rod body of the connecting bolt 42 can pass through the through passage. After the two limiting plates 41 are abutted, the abutting plate 621 is located on one side of one of the limiting blocks, the abutted abutting plate 621 and the limiting plates 41 are attracted magnetically, at the moment, the rod body of the connecting bolt 42 sequentially penetrates through the passing channel 6211 and the two limiting plates 41, and then is screwed up through the threads of the locking nut 43 on the connecting bolt 42, so that the position of the abutting plate 621 is limited.

Referring to fig. 5, in the present embodiment, the vertical section of the special-shaped column 622 is T-shaped, and the special-shaped column 622 is welded to one end of the pulling-resistant screw 61 in the length direction. The butt joint plate 621 is provided with a preset cavity 6212 adapted to the special-shaped column 622, and one end of the special-shaped column 622 far away from the anti-pulling screw rod 61 is located in the preset cavity 6212 and can freely rotate, so that the anti-pulling screw rod 61 can freely rotate relative to the butt joint plate 621.

Referring to fig. 3, the end wall of the orientation cone 63 away from the ground is provided with a locking groove 632, and the locking groove 632 is an internal thread groove body matched with the anti-pulling screw rod 61. An operator rotates the anti-pulling screw rod 61 to rotate the anti-pulling screw rod 61 relative to the abutting plate 621, so that one end of the anti-pulling screw rod 61, which is far away from the special-shaped column 622, is in threaded connection with the locking groove 632. At this moment, the anti-pulling screw rod 61 plays a supporting action force for the positioning arc plate 3, and the anti-pulling screw rod 61 and the positioning arc plate 3 form a counter-pulling action force therebetween, so that the phenomenon that the arbor inclines to one side after being blown by wind is reduced, and the position stability of the arbor on the ground is guaranteed.

The utility model provides an implementation principle that gardens arbor is prevented empting structure with ground anchor formula is:

all location arc plates 3 set up around the periphery wall of arbor, and screens arc plate 51 offsets with the arbor, and the elastic component 52 supports tightly between screens arc plate 51 and location arc plate 3 through the compression deformation of self. After the connecting bolt 42 sequentially passes through the abutting plate 621 and the limiting plate 41, the locking nut 43 is screwed on the connecting bolt 42, so that the adjacent positioning arc plates 3 are fixedly connected into a whole. Operating personnel rotates anti-pulling lead screw 61 relative to butt joint plate 621, makes anti-pulling lead screw 61 keep away from the one end screw thread of butt joint plate 621 and screws up in locking groove 632 for anti-pulling lead screw 61 plays the support to location arc board 3, and makes and form between location arc board 3 and the ground and to drawing the effort, appears empting the phenomenon after reducing the arbor and receives the wind-force drum to blow, has improved the position stability after the arbor transplants. In addition, the forming materials of the abutting part 1 and the connecting part 2 are all energy-saving titanium alloy, so that the energy-saving titanium alloy has the characteristics of light weight, high strength and low energy consumption, can effectively reduce the phenomena of resource waste and environmental pollution generated in the cutting process of common steel, and improves the energy-saving and environment-friendly effects.

The above are preferred embodiments of the present application, and the scope of protection of the present application is not limited thereto, 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 (9)

1. The utility model provides a structure is prevented empting by gardens earth anchor formula for arbor, its characterized in that: comprises an abutting part (1) and a connecting part (2); the abutting part (1) comprises at least two positioning arc plates (3), and all the positioning arc plates (3) are arranged around the peripheral wall of the arbor; connecting portion (2) are including locking unit (4) and resistance to plucking unit (6), locking unit (4) are used for connecting adjacent location arc board (3), resistance to plucking unit (6) are used for making location arc board (3) fix a position on the ground at arbor place.

2. The anchor type anti-toppling structure for garden trees according to claim 1, wherein: the locking unit (4) comprises a limiting plate (41), a connecting bolt (42) and a locking nut (43); the limiting plates (41) are arranged at two ends of each positioning arc plate (3) in the length direction, and the adjacent positioning arc plates (3) are abutted through the limiting plates (41); the connecting bolt (42) penetrates through the abutted limiting plates (41), and the locking nut (43) is in threaded connection with the connecting bolt (42) to enable the abutted limiting plates (41) to be connected.

3. The anchor type anti-toppling structure for garden trees according to claim 2, wherein: the locking unit (4) further comprises a tightening component (5), and the tightening component (5) is arranged between the positioning arc plate (3) and the arbor; the abutting component (5) comprises a clamping arc plate (51) and a plurality of elastic pieces (52), one end of each elastic piece (52) is arranged on the clamping arc plate (51), and the other end of each elastic piece (52) is connected with the positioning arc plate (3).

4. The anchor type anti-toppling structure for garden trees according to claim 3, wherein: the abutting component (5) further comprises an interference piece (53), the interference piece (53) is arranged on the clamping arc plate (51), and the interference piece (53) is tightly matched between the clamping arc plate (51) and a tree.

5. The anchor type anti-toppling structure for garden trees according to claim 2, wherein: the anti-pulling unit (6) comprises an anti-pulling screw rod (61), a steering piece (62) and an orientation cone (63); one end of the anti-pulling screw rod (61) is arranged on the connecting bolt (42) through a steering piece (62), and a locking groove (632) for the threaded connection of the anti-pulling screw rod (61) is formed in the orientation cone (63); one end of the directional cone (63) far away from the anti-pulling screw rod (61) is arranged on the ground for planting the arbor.

6. The anchored anti-toppling structure for garden trees according to claim 5, wherein: the steering member (62) comprises a butt plate (621) and a profiled column (622); a through channel (6211) for a connecting bolt (42) to pass through is arranged on the butt joint plate (621) in a penetrating way; the special-shaped column (622) is arranged on the anti-pulling screw rod (61), the butt joint plate (621) is provided with a preset cavity (6212) which is used for allowing the special-shaped column (622) to abut into and rotate, and the anti-pulling screw rod (61) rotates relative to the butt joint plate (621).

7. The anchor type anti-toppling structure for garden trees according to claim 6, wherein: the abutting plate (621) and the limiting plate (41) are in magnetic attraction.

8. The anchored anti-toppling structure for garden trees according to claim 5, wherein: the anti-pulling unit (6) further comprises an anti-deviation assembly (7), and the anti-deviation assembly (7) comprises an external connection plate (71) and a clamping and fixing bolt (72); the outer connecting plate (71) is arranged on the directional cone (63), and the clamping and fixing bolt (72) is used for enabling the outer connecting plate (71) to be positioned on the ground where the arbor is located.

9. The anchored anti-toppling structure for garden trees according to claim 5, wherein: a plurality of deviation-preventing channels (631) penetrate through the directional cone (63).

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