Search

CN-224218978-U - Auxiliary structure capable of avoiding damaging branches

CN224218978UCN 224218978 UCN224218978 UCN 224218978UCN-224218978-U

Abstract

The utility model relates to the field of fruit tree branch pulling, in particular to a branch pulling auxiliary structure capable of avoiding damaging branches. The branch pulling auxiliary mechanism comprises a rod-shaped part, wherein the guide cylinders (8) comprise a plurality of groups, the guide cylinders (8) of the plurality of groups are arranged along an arc shape and are welded through arc-shaped side arc frameworks (9), each side arc framework (9) comprises two groups, a working hook (13) is welded on each side arc framework (9), the bottom of the rod-shaped part can be inserted into soil, the working hooks (13) can hook branches, and the guide cylinders (8) of the plurality of groups can bend and guide the branches to bend the branches. The novel intelligent guide device is guided in an arc-shaped mode, does not hurt branches, does not split or form hurt branches, can save manpower, and can accurately control angles.

Inventors

  • CHENG JIWEI

Assignees

  • 成骥伟

Dates

Publication Date
20260512
Application Date
20250522

Claims (6)

  1. 1. The auxiliary structure capable of avoiding damaging branches is characterized in that the auxiliary structure comprises a rod-shaped part, the guide cylinders (8) comprise a plurality of groups, the guide cylinders (8) of the plurality of groups are arranged along an arc shape and welded together through an arc-shaped side arc-shaped framework (9), and the side arc-shaped framework (9) comprises two groups; a working hook (13) is welded on the side arc-shaped framework (9); The bottom of the rod-shaped part can be inserted into the soil; The working hooks (13) can hook the branches, and the guide cylinders (8) of the multiple groups can bend and guide the branches so that the branches are bent.
  2. 2. A branch pulling auxiliary structure capable of avoiding damaging branches according to claim 1, wherein the upper end of the hand-held rod (1) is hinged on the guide cylinder (8).
  3. 3. A branch pulling auxiliary structure capable of avoiding damaging branches according to claim 1, characterized in that the rod-shaped part is sleeved with a lifting sleeve (6), and the lifting sleeve (6) is fixed by the sleeve The butterfly knob (14) can be rotationally fixed on the handheld rod (1), the lifting sleeve (6) is hinged with the tensioning rod (10), and the upper end and the top end of the tensioning rod (10) are hinged with the vertical plate below the arc-shaped wall (15).
  4. 4. A branch pulling auxiliary structure capable of avoiding damaging branches according to claim 1, characterized in that the rod-shaped part is a telescopic rod structure with changeable length, the telescopic rod structure comprises a nested hand-held rod (1) and an extension part (2), the fixed butterfly knob (5) can relatively fix the hand-held rod (1) and the extension part (2), and the foot-operated part (3) is arranged on the extension part (2).
  5. 5. A branch pulling assisting structure capable of avoiding damaging branches as claimed in claim 4, wherein the end of the rod of the projecting part (2) is inclined or pointed.
  6. 6. The auxiliary structure for pulling branches, which can avoid damaging the branches, according to claim 1, is characterized in that the hand-held rod (1), the foot-operated part (3) and the lifting sleeve (6) are made of round tubes or square tubes, and the rest of the tubes can be round tubes, square tubes, angle steels, flat steels and C-shaped steels.

Description

Auxiliary structure capable of avoiding damaging branches Technical Field The utility model relates to the field of fruit tree branch pulling, in particular to a branch pulling auxiliary structure capable of avoiding damaging branches. Background The orchard management has the following problems that branches are pulled in winter or spring, fruit farmers are used to pull branches in winter, but the branches are fragile and hard at the moment and are easy to split or form injured branches, and the branches pulled before germination in spring are easy to stimulate the buds on the backs to germinate, so that a large number of vertical branches grow (namely 'top branches') and disturb the tree form. The spring shoots can be restrained from growing in summer, but new shoots are easy to raise again and the phenomenon of strip emergence is difficult to control, and the autumn shoots can promote nutrient accumulation, but the angle can be fixed only in the next year, so that the effect on the flower formation in the year is limited. The time that the branches can be pulled is fixed. The angle control is inaccurate, the angle is not flexibly adjusted according to varieties, tree shapes and densities, for example, fuji needs 110-120 degrees, gara only needs 80-90 degrees, but in practice, the angle is uniformly pulled to be horizontal or sagged, and the tree vigor is premature. The operation method is extensive, namely directly hard-pulling the non-softened branches to cause the base to split or form a bow-back (easy-to-burst strip), and incorrect branch pulling parts (such as middle binding) to cause a constriction injury to interfere nutrient transmission. Meanwhile, the pulling branch has high requirement on human body force, and the physical force cannot be kept up at all. At the same time, it is difficult to pull up fast for the higher shoots. Therefore, a product which can rapidly pull branches, save labor, pull branches at high positions and accurately control the branch pulling angle is urgently needed, and the problems that the branches are fragile and hard and easy to split or form branches are damaged can be solved. Overall, the prior art drawbacks are summarized below: 1. The angle cannot be accurately controlled, 2, the branches are fragile and hard and are easy to split or form injured branches, 3, the requirements on human body force are very high, the physical strength cannot be kept up at all, and 4, the branches with higher heights are difficult to pull quickly. Disclosure of utility model The utility model aims to provide a branch pulling auxiliary structure with better effect and capable of avoiding damaging branches, and the specific purpose is to realize a plurality of substantial technical effects of the specific implementation part. In order to achieve the above purpose, the utility model adopts the following technical scheme: The auxiliary structure capable of avoiding damaging branches is characterized in that the auxiliary structure comprises a rod-shaped part, the guide cylinders 8 comprise a plurality of groups, the guide cylinders 8 of the plurality of groups are arranged along an arc shape and welded together through an arc-shaped side arc-shaped framework 9, and the side arc-shaped framework 9 comprises two groups; A working hook 13 is welded on the side arc-shaped framework 9; The bottom of the rod-shaped part can be inserted into the soil; The working hooks 13 can hook the branches, and the guide cylinders 8 of the multiple groups can bend and guide the branches so that the branches are bent. The utility model further adopts the technical proposal that the upper end of the hand-held rod 1 is hinged on the guide cylinder 8. The utility model further adopts the technical proposal that the rod-shaped part is sleeved with a lifting sleeve 6, and the lifting sleeve 6 is fixed by the sleeveThe butterfly knob 14 can be rotatably fixed on the hand-held rod 1, the lifting sleeve 6 is hinged with the tensioning rod 10, and the upper end and the top end hinged position 12 of the tensioning rod 10 are hinged on a vertical plate below the arc-shaped wall 15. The utility model further adopts the technical scheme that the rod-shaped part is a telescopic rod structure with changeable length, the telescopic rod structure comprises a nested handheld rod 1 and an extension part 2, the fixed butterfly knob 5 can relatively fix the handheld rod 1 and the extension part 2, and the extension part 2 is provided with a pedal part 3. The utility model further provides that the end of the rod of the extension 2 is inclined or tapered. The utility model further adopts the technical scheme that the handheld rod 1, the pedal part 3 and the lifting sleeve 6 can be made of round pipes or square pipes, and the rest of pipes can be made of round pipes, square pipes, angle steels, flat steels and C-shaped steels. Compared with the prior art, the utility model adopting the technical scheme has the advantages that the w