CN108684483B - Afforestation is with transplanting trees wiring device that can carry out winding to root - Google Patents

Abstract

The invention discloses a rope winding device for transplanted trees, which is used for landscaping and can wind roots, and comprises a large tree which is horizontally placed, wherein the large tree is horizontally supported and placed on the ground through a plurality of supporting seats, and a rope winding device is clamped and sleeved on a trunk of the large tree. Has the advantages that: the transplanted tree wiring device capable of winding the tree roots for landscaping can automatically perform wiring operation on the tree trunk and the tree roots without manually wiring a big tree, and is time-saving, labor-saving, simple and convenient to operate and good in practicability.

Description

Afforestation is with transplanting trees wiring device that can carry out winding to root

Technical Field

The invention relates to the field of gardens, in particular to a transplanted tree rope winding device capable of winding tree roots for landscaping.

Background

With the development of society, urban greening has become an important content of current environmental protection, so that the survival rate of trees is extremely important. In order to prevent the trees from being frostbitten in winter or being scratched in the transplanting process, the trunk is bound with the straw rope. At present, manual tree wrapping is generally adopted, so that the labor is more, the efficiency is low, and the quality is not good; the disclosed tree wrapping device is characterized in that two longer screw rods are arranged on the rotary table, the screw rods and the rotary table rotate together, workers are easily injured when the screw rods rotate, the danger is high, obvious unsafe factors exist, and the tree wrapping device is not beneficial to popularization and application of products.

Although the chinese patent with application number 201020136551.8 discloses a rope wrapping machine (which includes a lifting mechanism and a rope winding mechanism, the lifting mechanism includes a lifting dc motor to drive a belt to transmit power to two screws, the screws are mounted on a vertical column through a bearing block, the screws are matched with nuts, the two nuts are fixedly connected with an annular runway, the nuts drive the annular runway to lift along the screws along with the rotation of the screws, the rope winding mechanism includes an annular runway, a rope winding trolley and a rope winding part, the annular runway includes an annular runway fixed part and a movable part connected together through a closed lock catch, the rope winding trolley is driven by the rope winding dc motor thereon to travel on the annular runway, the rope winding part is arranged on the rope winding trolley, and comprises a rope drum, a rope drum seat and a rope guide rod which are freely rotatable on the rope winding trolley, the rope winding machine can automatically wind the trunk with hemp rope, above-mentioned package rope machine can only carry out the wiring to the trunk, and when transplanting trees, not only the trunk needs the wiring protection, and the root also needs the wiring protection, and above-mentioned package rope machine obviously can not carry out the wiring operation to the root, still needs the manual work to carry out the wiring operation to the root after consequently adopting above-mentioned package rope machine, wastes time and energy, and the practicality is not strong.

Disclosure of Invention

The invention aims to solve the problems, and provides a transplanted tree wiring device for winding tree roots for landscaping, so as to solve the problem that the traditional trunk wiring machine in the prior art can only wind a trunk and cannot wind the tree roots. According to the technical scheme, the preferable technical scheme can not only rope the trunk, but also rope the tree root and soil wrapped on the surface of the tree root, manual rope winding operation is not needed, time and labor are saved, the practicability is good, and the like, and the technical effects are described in the following.

In order to achieve the purpose, the invention provides the following technical scheme:

the transplanted tree rope winding device capable of winding the roots for landscaping comprises a large tree which is horizontally placed, wherein the large tree is horizontally supported and placed on the ground through a plurality of supporting seats, and a rope winding device is clamped on the trunk of the large tree;

the rope winder comprises a pair of semicircular clamping rings which are clamped with each other, an annular rotating groove is formed in the middle of the outer circular surface of each of the two semicircular clamping rings, annular sliding grooves are formed in the two inner walls of each annular rotating groove, a rotating shaft is inserted in each annular sliding groove, a wheel hub motor and a wheel carrier are installed on each rotating shaft, a small gear ring is sleeved outside each wheel hub motor, a large gear ring meshed with the small gear ring is sleeved on the bottom of each annular rotating groove, a sliding plate is installed on each wheel carrier, a first push rod motor is vertically installed on the upper surface of each sliding plate, a second push rod motor is horizontally installed at the upper end of each push rod motor, and a lead cylinder is installed on the;

a battery I is embedded on one end face of each semicircular clamping ring;

a plurality of first electro-hydraulic push rods are embedded in the round surfaces of the inner sides of the two semicircular clamping rings, and each first electro-hydraulic push rod is provided with an anti-skid block;

the surface of the rope winder is provided with four control switches I which are respectively and electrically connected with the electro-hydraulic push rod I, the push rod motor II and the hub motor;

the supporting seat comprises a rack, an electro-hydraulic push rod II vertically installed on the rack and a rod seat fixedly installed at the upper end of the electro-hydraulic push rod II; a second battery, a processor electrically connected with the displacement sensor and a display screen electrically connected with the processor are arranged on the rack; and a second control switch electrically connected with the second electro-hydraulic push rod is arranged on the surface of the support seat.

Preferably, the frame is triangular prism shaped.

Preferably, the body of the electro-hydraulic push rod II is vertically embedded in the upper surface of the rack;

the push rod head of the electro-hydraulic push rod II is fixedly connected with the lower surface of the rod seat;

and a plurality of electro-hydraulic push rods II are vertically and fixedly arranged on one rack.

Preferably, the upper surface of the rod seat is a concave surface;

wherein, the upper surface of the rod seat is stuck with a cushion pad.

Preferably, the central axes of the electro-hydraulic push rods are intersected at a point at the circle center of the rope winder.

Preferably, the sliding plate is slidably mounted on the outer circular surface of the semicircular clamping ring;

wherein, the lower surface of the sliding plate is a concave surface.

Preferably, two ends of the rotating shaft are inserted into the annular sliding grooves on the two inner walls of the annular rotating groove and are in sliding connection with the annular sliding grooves.

When the transplanted tree rope winding device capable of winding roots for landscaping is used, firstly, a dug-out big tree is laid down and supported by a plurality of supporting seats, then the control switch II is operated to control the electro-hydraulic push rod II to rotate to push the rod seat to ascend, the rod seat ascends to push the big tree to ascend, after the big tree ascends to a preset height, the two semicircular clamping rings are clamped and sleeved at one end, close to the roots, of a trunk of the big tree, then the control switch I is operated to control the electro-hydraulic push rod I to rotate to push the anti-skidding blocks to extrude the big tree to fixedly sleeve the rope winder on the big tree, then one end of a twine rope for winding penetrates through the lead cylinder, then the hub motor is controlled to rotate, the hub motor rotates to drive the small gear ring to rotate to drive the hub motor to rotate around the large gear ring, so as to drive the clamping ring sliding plate to rotatably slide along the outer circular surfaces of the two semicircular rings, the lead drum is also rotated around the big tree together to wind the hemp rope on the trunk of the big tree, after the hemp rope is wound for one circle, the push rod motor is controlled to rotate to push the lead drum to move for a small distance along the length direction of the big tree so that the hemp rope can be smoothly wound on the big tree for a second circle, and when the hemp rope is wound for one circle, the push rod motor is controlled to push the lead drum to move for a small distance, the circulation is repeated until the big tree is completely wound, when the tree root is wound, the push rod motor is controlled to push the push rod motor to move for a distance in a direction which is far away from the big tree in two directions, so that the lead drum is prevented from colliding with the tree root in the process of rotating around the tree root, in addition, the hub motor and the push rod motor are controlled to act simultaneously in the process of winding the tree root, therefore, the lead drum rotates around the tree root in an inclined way, and winds the hemp rope on the tree root and a soil lump wrapped outside the tree root in an inclined way, effectively prevent that the coil of winding has come off, treat that whole big tree winding finishes the back, with the crane with it hang away can, whole in-process, the operator only needs the operation control switch one with control switch two does lead wire section of thick bamboo carry the rope made of hemp can, need not to go up the winding big tree of hand, easy and simple to handle, labour saving and time saving, the practicality is good.

Has the advantages that: the transplanted tree wiring device capable of winding the tree roots for landscaping can automatically perform wiring operation on the tree trunk and the tree roots without manually wiring a big tree, and is time-saving, labor-saving, simple and convenient to operate and good in practicability.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a front view of the rope winder of the present invention;

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

FIG. 4 is a front view of the support base of the present invention;

fig. 5 is a left side view of the support base of the present invention.

The reference numerals are explained below:

1. big trees; 2. a supporting seat; 3. a rope winder; 4. a semicircular snap ring; 5. an annular rotating groove; 6. a large gear ring; 7. an annular chute; 8. a rotating shaft; 9. a hub motor; 10. a small gear ring; 11. a wheel carrier; 12. a slide plate; 13. a push rod motor I; 14. a push rod motor II; 15. a lead drum; 16. a first battery; 17. an electro-hydraulic push rod I; 18. anti-skid blocks; 19. controlling a first switch; 20. a frame; 21. a second battery; 22. a second control switch; 23. an electro-hydraulic push rod II; 24. a displacement sensor; 25. a rod seat; 26. a cushion pad; 27. a display screen; 28. a processor.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be described in detail below. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments, which can be derived by a person skilled in the art from the examples given herein without any inventive step, are within the scope of the present invention.

Referring to fig. 1 to 5, the rope winding device for transplanted trees capable of winding roots for landscaping provided by the invention comprises a big tree 1 horizontally placed, wherein the big tree 1 is horizontally supported and placed on the ground through a plurality of supporting seats 2, the supporting seats 2 are used for supporting and fixing the big tree 1, a rope winder 3 is clamped on a trunk of the big tree 1, and the rope winder 3 is used for rotating on the big tree 1 to wind hemp ropes on the surface of the big tree 1;

the rope winder 3 comprises a pair of semicircular snap rings 4 which are clamped with each other, the rope winder 3 is designed to be respectively disassembled and assembled, the middle parts of the outer circular surfaces of the two semicircular snap rings 4 are provided with annular rotating grooves 5, the annular rotating grooves 5 are used for arranging hub motors 9 to facilitate the rotation of the hub motors around large gear rings 6, the two inner walls of the annular rotating grooves 5 are provided with annular sliding grooves 7, the annular sliding grooves 7 are used for arranging rotating shafts 8 to prevent the hub motors 9 from rotating to drive the rotating shafts 8 to rotate, the rotating shafts 8 are inserted in the annular sliding grooves 7, the hub motors 9 and wheel carriers 11 are arranged on the rotating shafts 8, small gear rings 10 are sleeved outside the hub motors 9, the large gear rings 6 meshed and connected with the small gear rings 10 are sleeved at the bottom of the annular rotating grooves 5, sliding plates 12 are arranged on the wheel carriers 11, the sliding plates 12 are used for installing and fixing first push rod motors 13, the upper surfaces of the sliding plates 12 are, a second push rod motor 14 is horizontally arranged at the upper end of the second push rod motor, the second push rod motor 14 is used for pushing the lead cylinder 15 to move along the length direction of the big tree 1, the lead cylinder 15 is arranged on the push rod head of the second push rod motor 14, and the lead cylinder 15 is used for driving the hemp rope to rotate and wind on the big tree 1;

a first battery 16 is embedded on one end surface of each semicircular clamping ring 4;

a plurality of electro-hydraulic push rods (17) are embedded on the inner circular surfaces of the two semicircular clamping rings (4), each electro-hydraulic push rod (17) is provided with an anti-skid block (18), and the electro-hydraulic push rods (17) are used for fixing the rope winder (3) on the big tree (1);

the surface of the rope winder 3 is provided with four control switches I19 which are respectively and electrically connected with the electro-hydraulic push rod I17, the push rod motor I13, the push rod motor II 14 and the hub motor 9, and the four control switches I19 are respectively used for controlling the actions of the electro-hydraulic push rod I17, the push rod motor I13, the push rod motor II 14 and the hub motor 9;

the supporting seat 2 comprises a rack 20, an electro-hydraulic push rod II 23 vertically installed on the rack 20 and a rod seat 25 fixedly installed at the upper end of the electro-hydraulic push rod II 23, and the electro-hydraulic push rod II 23 is used for pushing the big tree 1 to move up and down; a displacement sensor 24 is arranged on the electro-hydraulic push rod II 23, the displacement sensor 24 is used for detecting the displacement of the push rod motor II 14, namely the up-down movement distance of the big tree 1, transmitting the detection data to the processor 28, and displaying the detection data on the display screen 27 for a user to look up and reference after being processed by the processor 28, and a battery II 21, the processor 28 electrically connected with the displacement sensor 24 and the display screen 27 electrically connected with the processor 28 are arranged on the rack; the surface of the supporting seat 2 is provided with a second control switch 22 electrically connected with a second electro-hydraulic push rod 23, and the second control switch 22 is used for controlling the second electro-hydraulic push rod 23 to act.

As optional implementation mode, the frame is triangular prism shape, and the design like this can make the frame can steadily place subaerial, effectively avoids two 23 working process of electric liquid push rod to take place to rock.

The body of the electro-hydraulic push rod II 23 is vertically embedded in the upper surface of the rack;

wherein, the push rod head of the electro-hydraulic push rod II 23 is fixedly connected with the lower surface of the rod seat 25;

wherein, a plurality of electricity liquid push rods two 23 are vertically and fixedly installed on a frame, and a plurality of electricity liquid push rods two 23 can guarantee to have sufficient power to promote big tree 1 to reciprocate.

The upper surface of the rod seat 25 is a concave surface which can prevent the big tree 1 from shaking on the rod seat 25;

wherein, the upper surface of the pole base 25 is stuck with a cushion 26, and the cushion 26 is used for preventing the pole base 25 from crushing the bark of the big tree 1.

The central axes of the electro-hydraulic push rods 17 intersect at a point at the circle center of the rope winder 3, so that the electro-hydraulic push rods 17 can tightly push the big tree 1.

The sliding plate 12 is slidably arranged on the outer circular surface of the semicircular clamping ring 4;

wherein, the lower surface of the sliding plate 12 is a concave surface, and the design can lead the sliding plate 12 to be tightly attached to the outer circular surface of the semicircular clamping ring 4.

The two ends of the rotating shaft 8 are inserted into the annular sliding grooves 7 on the two inner walls of the annular rotating groove 5 and are in sliding connection with the annular sliding grooves 7, so that the rotating shaft 8 does not rotate when the hub motor 9 rotates, and the small gear ring 10 can rotate to drive the hub motor 9 to rotate around the large gear ring 6.

When the transplanted tree rope winding device capable of winding roots for landscaping is used, firstly, a dug-out big tree 1 is laid down and supported by a plurality of supporting seats 2, then, the second control switch 22 is operated to control the second electro-hydraulic push rod 23 to rotate to push the rod seat 25 to ascend, the rod seat 25 ascends to push the big tree 1 to ascend, after the big tree 1 ascends to a preset height, the two semicircular snap rings 4 are clamped and sleeved on one end, close to the roots, of the trunk of the big tree 1, then, the first control switch 19 is operated to control the first electro-hydraulic push rod 17 to rotate to push the anti-slip block 18 to extrude the big tree 1 to fixedly sleeve the rope winding device 3 on the big tree 1, then, one end of a twine rope for winding penetrates through the lead cylinder 15, then, the hub motor 9 is controlled to rotate, the hub motor 9 rotates to drive the small gear ring 10 to rotate to drive the hub motor 9 to rotate around the big gear ring 6, so as to, the lead cylinder 15 rotates around the big tree 1 together to wind the hemp rope on the trunk of the big tree 1, after the hemp rope winds for one circle, the push rod motor II 14 is controlled to rotate to push the lead cylinder 15 to move for a small distance along the length direction of the big tree 1, so that the hemp rope can smoothly wind for a second circle on the big tree 1, when the hemp rope winds for one circle, the push rod motor II 14 pushes the lead cylinder 15 to move for a small distance, the circulation is repeated in such a way until the big tree 1 is completely wound, when the tree root is wound, the push rod motor I13 can be controlled to push the push rod motor II 14 to move for a distance away from the big tree 1, so that the lead cylinder 15 is prevented from colliding with the tree root in the process of winding the tree root, in addition, the wheel hub motor 9 and the push rod motor II 14 can be controlled to simultaneously act in the process of winding the tree root, therefore, the lead cylinder 15 rotates obliquely around the tree root, the hemp rope is wound on the tree root and a soil lump wrapped outside the tree root in an oblique manner, effectively prevent that the coil of winding from droing, treat that whole big tree 1 winding finishes the back, with the crane with it hang away can, whole in-process, the operator only need operate control switch 19 and control switch two 22 and for lead wire section of thick bamboo 15 transport the rope made of hemp can, need not to go up hand winding big tree 1, easy and simple to handle, labour saving and time saving, the practicality is good.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present invention, and all the changes or substitutions should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the appended claims.

Claims (7)

1. The utility model provides an afforestation is with can carrying out winding transplantation trees wiring device to the root, includes big tree (1) that the level was placed, its characterized in that: the big tree (1) is horizontally supported and placed on the ground through a plurality of supporting seats (2), and a rope winder (3) is clamped and sleeved on a trunk of the big tree (1);

the rope winder (3) comprises a pair of semicircular clamping rings (4) which are clamped with each other, the middle parts of the outer circular surfaces of the two semicircular clamping rings (4) are provided with annular rotating grooves (5), two inner walls of the annular rotating groove (5) are provided with annular sliding grooves (7), a rotating shaft (8) is inserted in the annular sliding grooves (7), the rotating shaft (8) is provided with a hub motor (9) and a wheel carrier (11), a small gear ring (10) is sleeved outside the hub motor (9), a large gear ring (6) in meshed connection with the small gear ring (10) is sleeved on the bottom of the annular rotating groove (5), a sliding plate (12) is arranged on the wheel carrier (11), a first push rod motor (13) is vertically arranged on the upper surface of the sliding plate (12), a second push rod motor (14) is horizontally arranged at the upper end of the second push rod motor, and a lead cylinder (15) is arranged on the push rod head of the second push rod motor (14);

a first battery (16) is embedded in one end face of each of the two semicircular clamping rings (4);

a plurality of electro-hydraulic push rods (17) are embedded in the inner circular surfaces of the two semicircular clamping rings (4), and each electro-hydraulic push rod (17) is provided with an anti-skid block (18);

the surface of the rope winder (3) is provided with four control switches I (19) which are respectively and electrically connected with the electro-hydraulic push rod I (17), the push rod motor I (13), the push rod motor II (14) and the hub motor (9);

the supporting seat (2) comprises a rack (20), an electro-hydraulic push rod II (23) vertically arranged on the rack (20) and a rod seat (25) fixedly arranged at the upper end of the electro-hydraulic push rod II (23); a displacement sensor (24) is arranged on the electro-hydraulic push rod II (23), and a battery II (21), a processor (28) electrically connected with the displacement sensor (24) and a display screen (27) electrically connected with the processor (28) are arranged on the rack; and a second control switch (22) electrically connected with the second electro-hydraulic push rod (23) is arranged on the surface of the support seat (2).

2. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the frame is triangular prism-shaped.

3. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the body of the electro-hydraulic push rod II (23) is vertically embedded in the upper surface of the rack;

the push rod head of the electro-hydraulic push rod II (23) is fixedly connected with the lower surface of the rod seat (25);

and a plurality of electro-hydraulic push rods II (23) are vertically and fixedly mounted on one rack.

4. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the upper surface of the rod seat (25) is a concave surface;

wherein, a buffer pad (26) is stuck on the upper surface of the rod seat (25).

5. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the central axes of a plurality of the electro-hydraulic push rods (17) intersect at a point at the center of the rope winder (3).

6. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the sliding plate (12) is slidably arranged on the outer circular surface of the semicircular clamping ring (4);

wherein, the lower surface of the sliding plate (12) is concave.

7. The rope winding device for transplanted trees for landscaping capable of winding roots according to claim 1, wherein: the two ends of the rotating shaft (8) are inserted into the annular sliding grooves (7) on the two inner walls of the annular rotating groove (5) and are in sliding connection with the annular sliding grooves (7).

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