CN115380763A

CN115380763A - Barren mountain afforestation is with nursery stock protection mechanism with support function

Info

Publication number: CN115380763A
Application number: CN202211249819.2A
Authority: CN
Inventors: 韩亚飞; 周恒�; 张兰兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-10-12
Filing date: 2022-10-12
Publication date: 2022-11-25
Anticipated expiration: 2042-10-12
Also published as: CN115380763B

Abstract

The invention discloses a nursery stock protection mechanism with a supporting function for afforestation in barren mountains, which belongs to the technical field of nursery stock protection and comprises a main rod sleeve component, an auxiliary rod sleeve component, a bent joint, a sliding rod piece and a sleeve shell, wherein the main rod sleeve component comprises a plurality of main sleeve shells, the auxiliary rod sleeve component comprises a plurality of auxiliary sleeve shells, a plurality of bent joints are assembled in the main sleeve shells and the auxiliary sleeve shells in a sliding way, the sliding rod piece is respectively connected with the main sleeve shells and the auxiliary sleeve shells in a rotating way, the sleeve shell is connected with the sliding rod piece in a sliding way, a plurality of storage cavities are distributed in the sleeve shells, and fertilizer granules are distributed among the storage cavities.

Description

Barren mountain afforestation is with nursery stock protection mechanism with support function

Technical Field

The invention belongs to the technical field of seedling protection, and particularly relates to a seedling protection mechanism with a supporting function for barren mountain afforestation.

Background

The water and soil loss of the barren mountains is serious, particularly in remote areas in the northwest, and the water and soil loss is not effectively treated, so that the soil layers of the barren mountains become thin, even desertification and petrifaction phenomena occur, a large amount of silt is discharged, river beds are lifted, and reservoir ponds are silted, and the life and property safety of the masses is seriously threatened, so that the afforestation of the barren mountains is required to be restored again for greening, and the afforestation of the barren mountains refers to the process of forming or restoring forests, forest trees and shrubbery trees by artificial measures.

At present barren mountain afforestation stage, the ecology that resumes soil through planting the nursery stock is mostly used for preventing soil loss, after the nursery stock is planted, need to put up the wooden frame usually and be used for anti-wind lodging resistant, but the wooden frame on the market at present only has lodging resistant function usually, and its functional is comparatively single and the installation is convenient inadequately, still will manually demolish the wooden frame after the nursery stock shaping simultaneously, and the manpower and materials resource that consumes is more.

Disclosure of Invention

Aiming at the defects in the prior art, the embodiment of the invention aims to provide a seedling protection mechanism with a supporting function for barren mountain afforestation, so as to solve the problems in the background art.

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

a nursery stock protection mechanism with a supporting function for barren mountain afforestation comprises a main rod sleeve assembly, wherein the main rod sleeve assembly comprises a plurality of main sleeve shells, inner cavities are distributed in the main sleeve shells, V-shaped grooves are distributed in the middle of the main sleeve shells, end holes are distributed at two ends of each main sleeve shell, the end holes are communicated with the inner cavities, an insertion end is movably inserted in the end holes, and a sliding part is elastically assembled in the inner cavities in a sliding manner and used for driving the insertion end to stretch;

the crimping assembly comprises a plurality of bent connectors, the bent connectors are arranged on one side of the V-shaped groove and are elastically assembled in the V-shaped groove in a sliding mode through sliding rods at the tail ends of the bent connectors, a V-shaped handle rod is arranged between the bent connectors and the sliding rods, and the bent connectors are used for elastically clamping nursery stocks;

the auxiliary rod sleeve assembly comprises a plurality of auxiliary sleeve shells, limiting holes are distributed at two ends of each auxiliary sleeve shell, and a compression assembly is elastically inserted into each auxiliary sleeve shell in a sliding manner;

the sliding rod assembly comprises sliding rod pieces and a connecting frame, and the sliding rod pieces are respectively connected with the main sleeve shell and the auxiliary sleeve shell in a rotating mode through the connecting frame; and

the sleeve mechanism, sleeve mechanism includes sleeve casing, storage chamber and intercommunication mouth, sleeve casing is fixed to be laid subaerially, just sleeve casing with the slip member slides and meets, a plurality of storage chamber has been laid to sleeve casing internal interval, just the intercommunication mouth has been laid at storage chamber middle part, the slip member slides and assembles between a plurality of intercommunication mouth, fertilizer grain has still been laid between the storage chamber.

As a further scheme of the invention, the nursery stock protection mechanism with the supporting function for barren mountain afforestation at least comprises two groups of main sleeve shells and two groups of auxiliary sleeve shells.

As a further scheme of the invention, the main sleeve shell and the auxiliary sleeve shell are arranged at intervals, and the insertion end is matched with the limiting hole.

As a further scheme of the present invention, the main rod sleeve assembly further includes an inclined guide groove disposed at the end of the sliding member, and slidably connected to the insertion end, for driving the insertion end to move.

As a further scheme of the invention, one side of the sliding rod piece is further provided with a one-way tooth, one side of the sleeve shell is further provided with a pull rod, the pull rod is elastically assembled in the sleeve shell in a sliding manner, the tail end of the pull rod is assembled with a plug, and the plug is arranged towards one side of the one-way tooth and used for limiting the sliding direction of the sliding rod piece.

As a further scheme of the invention, the crimping assembly further comprises an anti-slip groove, wherein the anti-slip groove is arranged at one end of the curved joint and faces one side of the nursery stock, and is used for limiting the curved joint to slide on the surface of the nursery stock.

As a further scheme of the invention, the sleeve mechanism further comprises a side notch and a foot seat, the side notch is arranged at the bottom end of the sleeve shell and communicated with the sleeve shell, the side notch faces one side of the nursery stock, the foot seat is movably assembled at the bottom of the sleeve shell, a plurality of anti-skidding teeth are arranged at the bottom of the sleeve shell, and an anchor foot head is fixedly assembled for fixing the position of the sleeve shell.

In summary, compared with the prior art, the embodiment of the invention has the following beneficial effects:

according to the invention, the main sleeve shell and the auxiliary sleeve shell which are coated outside the nursery stock, and the sliding rod pieces and the sleeve shells which are circumferentially distributed around the nursery stock are adopted, so that the lodging-resistant function is achieved, meanwhile, fertilizer can be automatically distributed according to the growth of the nursery stock, the manual topdressing step is omitted, meanwhile, the nursery stock can be loosened and released after the growth of the nursery stock is mature, manual disassembly is not needed, the time and labor are saved in the loading and unloading process, and the novel seedling-spreading type self-unloading device has a good market prospect.

Drawings

Fig. 1 is a schematic structural diagram of a seedling protection mechanism for barren mountain afforestation having a supporting function according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of an illustration mark a in the seedling protection mechanism for barren mountain afforestation with a supporting function according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an illustration mark B in the seedling protection mechanism for barren mountain afforestation with a support function according to an embodiment of the present invention.

Fig. 4 is a top view of a seedling protection mechanism for barren mountain afforestation with a supporting function according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of an auxiliary rod sleeve assembly in the seedling protection mechanism for barren mountain afforestation with a supporting function according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of a sleeve mechanism in the seedling protection mechanism for afforestation on a barren mountain with a supporting function according to an embodiment of the present invention.

Reference numerals: 1-main rod sleeve component, 101-main sleeve shell, 102-inner cavity, 103-V-shaped groove, 104-end hole, 105-insertion end, 106-sliding component, 107-inclined guide groove, 2-crimping component, 201-curved joint, 202-V-shaped handle rod, 203-sliding rod, 204-anti-slip groove, 3-auxiliary rod sleeve component, 301-auxiliary sleeve shell, 302-limiting hole, 4-sliding rod component, 401-sliding rod component, 402-one-way tooth, 403-connecting frame, 5-sleeve mechanism, 501-sleeve shell, 502-storage cavity, 503-communicating port, 504-fertilizer particle, 505-pulling rod, 506-plug, 507-side notch, 508-foot seat, 509-anti-slip tooth and 510-anchor foot head.

Detailed Description

To more clearly illustrate the structural features and effects of the present invention, the present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 6, the seedling protection mechanism with a supporting function for afforestation on a barren mountain in an embodiment of the present invention includes a main rod sleeve assembly 1, the main rod sleeve assembly 1 includes a plurality of main sleeve housings 101, an inner cavity 102 is disposed in each main sleeve housing 101, a V-shaped groove 103 is disposed in the middle of each main sleeve housing 101, end holes 104 are disposed at two ends of each main sleeve housing 101, the end holes 104 are communicated with the inner cavity 102, an insertion end 105 is movably inserted into the end holes 104, and a sliding member 106 is elastically and slidably mounted in the inner cavity 102 to drive the insertion end 105 to stretch; the crimping component 2 comprises a plurality of bent connectors 201, the bent connectors 201 are arranged on one side of the V-shaped groove 103, the bent connectors 201 are elastically assembled in the V-shaped groove 103 in a sliding mode through sliding rods 203 at the tail ends of the bent connectors 201, V-shaped handle rods 202 are further arranged between the bent connectors 201 and the sliding rods 203, and the bent connectors 201 are used for elastically clamping nursery stocks; the auxiliary rod sleeve assembly 3 comprises a plurality of auxiliary sleeve shells 301, limiting holes 302 are distributed at two ends of each auxiliary sleeve shell 301, and the auxiliary sleeve shells 301 are elastically inserted with the crimping assemblies 2 in a sliding manner; the sliding rod assembly 4 comprises sliding rod pieces 401 and a connecting frame 403, wherein the sliding rod pieces 401 are respectively connected with the main sleeve shell 101 and the auxiliary sleeve shell 301 in a rotating mode through the connecting frame 403; and sleeve mechanism 5, sleeve mechanism 5 includes sleeve casing 501, storage chamber 502 and intercommunication mouth 503, sleeve casing 501 is fixed to be laid subaerial, just sleeve casing 501 with slip member 401 slides and meets, a plurality of storage chamber 502 has been laid at the inside interval of sleeve casing 501, just intercommunication mouth 503 has been laid at storage chamber 502 middle part, slip member 401 slides and assembles between a plurality of intercommunication mouth 503, fertilizer grain 504 has still been laid between the storage chamber 502.

In practical application, when the mechanism is used for protecting nursery stocks for afforestation in barren mountains, the main casing 101 and the auxiliary casing 301 of the mechanism are circumferentially surrounded at intervals, and the insertion ends 105 at two ends of the main casing 101 are inserted into the limiting holes 302 at two ends of the auxiliary casing 301, so that the main casing 101 and the auxiliary casing 301 are circumferentially wrapped on the trunk of the nursery stocks, and the curved joints 201 slidably assembled on the main casing 101 and the auxiliary casing 301 can be circumferentially and elastically pressed on the trunk surface of the nursery stocks, and the curved joints 201 are tightly clamped on the trunk, at this time, the bottoms of the main casing 101 and the auxiliary casing 301 are both rotatably connected with the sliding rod 401, and the tail end of the sliding rod 401 is slidably assembled with the sleeve casing 501, the bottom of the sleeve casing 501 is arranged at a fixed point on the ground, when the nursery stocks grow continuously during the growth molding process, the curved joints 201 fixed on the surface layer of the trunk can be continuously increased along with the growth of the nursery stock, so that in the increasing process, because the bottom of the sleeve shell 501 is positioned at a fixed position, the sliding rod 401 and the sleeve shell 501 slide relatively, when the sliding rod 401 slides in the sleeve shell 501, in the process that the sliding rod 401 slides along the communication ports 503, when the communication ports 503 are short of plugging, fertilizer granules 504 filled between the storage cavities 502 can roll down to the ground from the communication ports 503 to fertilize the nursery stock, and the nursery stock can be automatically and quantitatively supplemented with fertilizer along with the continuous growth of the nursery stock, and when the fertilizer is distributed, the sliding rod 401 and the sleeve shell 501 can form a support around the nursery stock, so that the vertical growth of the nursery stock can be limited, and the function of wind resistance and lodging resistance can be realized, in addition, after the nursery stock completely grows, due to the fact that the diameter of a trunk is continuously increased, when the curved joint 201 slides towards the limit position in the main sleeve shell 101, the sliding piece 106 can be pressed through the V-shaped handle 202 to move in the inner cavity 102, so that the insertion end 105 is driven by the sliding piece 106 to shrink from the end hole 104 side, the locking piece between the main sleeve shell 101 and the auxiliary sleeve shell 301 disappears, the main sleeve shell 101 and the auxiliary sleeve shell 301 are automatically loosened and then disassembled, manual disassembly is not needed, and the subsequent growth of the nursery stock is not influenced.

Referring to fig. 4, in a preferred embodiment of the present invention, the seedling protection mechanism for afforesting a barren mountain with a supporting function at least includes two sets of main casing 101 and two sets of auxiliary casing 301, the main casing 101 and the auxiliary casing 301 are arranged at an interval, and the insertion end 105 is arranged to match with the limiting hole 302.

In practical application, the main casing 101 and the auxiliary casing 301 are sequentially arranged at intervals, and the insertion ends 105 at two ends of the main casing 101 are inserted into the limiting holes 302 at two ends of the auxiliary casing 301 for locking, so that the main casing 101 and the auxiliary casing 301 jointly form an annular cladding structure, and can be coated outside a trunk with a fixed diameter, along with continuous growth of seedlings, when the diameter of the trunk approaches to the inner diameter of the annular cladding structure, the sliding part 106 is extruded through the sliding of the curved joint 201, so that the limitation between the main casing 101 and the auxiliary casing 301 is removed after the insertion end 105 is contracted, thereby realizing the function of automatic disassembly, being free from manual disassembly, and saving time and labor.

In one case of this embodiment, the main casing 101 and the sub-casing 301 are also convenient to install, so long as a plurality of main casing 101 and sub-casing 301 are aligned to the seedling in the circumferential direction and are compressed, the insertion ends 105 at the two ends of the main casing 101 can be inserted into the limiting holes 302 in a sliding manner, so that splicing is completed, the efficiency is high in the actual assembling process, and the installation time is saved.

Referring to fig. 5, in a preferred embodiment of the present invention, the main rod sleeve assembly 1 further includes an inclined guide groove 107, and the inclined guide groove 107 is disposed at the end of the sliding member 106, and is slidably connected to the insertion end 105, and is used for driving the insertion end 105 to move.

In practical application of the present embodiment, the inclined guide groove 107 is disposed at the end of the sliding member 106 and is in sliding contact with the insertion end 105, and the sliding member 106 is pushed toward the insertion end 105, so that the end of the insertion end 105 slides in the inclined guide groove 107, and the insertion end 105 limited in the end hole 104 slides directionally, thereby controlling the expansion and contraction thereof.

In one case of the present embodiment, a guide groove structure of the inclined guide groove 107 type may be used, and a link type driving structure may be used, but in consideration of the cost of actual manufacturing and the weight of the components, a guide groove type transmission structure is preferably used here.

Referring to fig. 2, in a preferred embodiment of the present invention, a one-way tooth 402 is further disposed on one side of the sliding rod 401, a pull rod 505 is further disposed on one side of the sleeve housing 501, the pull rod 505 is elastically and slidably mounted in the sleeve housing 501, and a plug 506 is mounted at an end of the pull rod 505, the plug 506 is disposed toward one side of the one-way tooth 402 for limiting a sliding direction of the sliding rod 401.

In practical application, when the sliding rod 401 slides in the sleeve housing 501, the pull rod 505 is elastically and slidably assembled on one side of the sleeve housing 501, and the plug 506 at the end of the pull rod is movably inserted into the one-way teeth 402, so that the one-way sliding of the sliding rod 401 can be limited, and the sliding rod 401 can only slide towards one side away from the sleeve housing 501, so that the reverse sliding is limited, and therefore, the seedling can be supported to grow, and meanwhile, the seedling can resist wind and fall.

In one case of the present embodiment, the gap between the one-way tooth 402 and the communication port 503 is negligible.

Referring to fig. 5, in a preferred embodiment of the present invention, the crimping assembly 2 further includes an anti-slip groove 204, and the anti-slip groove 204 is disposed at one end of the curved joint 201 and is disposed toward one side of the seedling for limiting the curved joint 201 from sliding on the surface of the seedling.

In practical application of the present embodiment, the anti-slip groove 204 may enable the curved connector 201 to be clamped on the surface of the trunk in a limiting manner, so as to prevent the curved connector 201 from sliding in the vertical direction, and ensure that the curved connector 201 clamped at the end of the trunk can automatically increase along with the growth of the nursery stock.

In one case of this embodiment, since the curved joints 201 are curved structures, when the nursery stock falls down under the action of external wind, the curved joints 201 of the plurality of curved structures are coated on the surface of the trunk, so that when the trunk is about to move relative to the main sleeve housing 101 and the auxiliary sleeve housing 301, the curved joints 201 of the curved structures limit the trunk from moving towards one side, so that the plurality of main sleeve housings 101 and the auxiliary sleeve housing 301 integrally follow the trunk to move, and thus, acting force is applied to the sliding rod 401 and the sleeve housing 501 on one side, thereby preventing the trunk from extruding the curved joints 201 on one side to cause loosening failure between the main sleeve housing 101 and the auxiliary sleeve housing 301.

Referring to fig. 3, in a preferred embodiment of the present invention, the sleeve mechanism 5 further includes a side notch 507 and a foot seat 508, the side notch 507 is disposed at the bottom end of the sleeve housing 501 and is communicated with the sleeve housing 501, the side notch 507 is disposed toward one side of the seedling, the foot seat 508 is movably mounted at the bottom of the sleeve housing 501, a plurality of anti-slip teeth 509 are disposed at the bottom of the foot seat, and an anchor foot head 510 is further fixedly mounted for fixing the position of the sleeve housing 501.

In practical application of the present embodiment, the side notches 507 are disposed towards the seedling side, so that the fertilizer particles 504 rolling down under the action of gravity fall towards the seedling side, thereby distributing fertilizer around the seedling, and supplementing fertilizer along with the continuous growth of the seedling, and meanwhile, the foot seats 508 are fixedly inserted into the ground through the anti-slip teeth 509 at the bottom thereof and the anchor foot heads 510, are used for limiting the installation position of the sleeve housing 501, and are connected with the sleeve housing 501 in a rotating manner, and do not interfere with the rotation of the sleeve housing 501.

The embodiment of the invention provides a nursery stock protection mechanism with a supporting function for afforestation in barren mountains, and the mechanism has the advantages that through the main sleeve shell 101 and the auxiliary sleeve shell 301 which are coated outside the nursery stock, and the sliding rod pieces 401 and the sleeve shells 501 which are circumferentially distributed on the periphery of the nursery stock, the lodging function is realized, meanwhile, the automatic fertilizer distribution can be realized according to the growth of the nursery stock, the step of manual fertilizer application is omitted, meanwhile, after the nursery stock grows mature, the mechanism can be detached by self and loosened without manual disassembly, the assembly and disassembly process is time-saving and labor-saving, and the mechanism has good market prospect.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. The utility model provides a barren mountain afforestation is with nursery stock protection mechanism with support function which characterized in that, barren mountain afforestation is with nursery stock protection mechanism with support function includes:

the main rod sleeve assembly comprises a plurality of main sleeve shells, inner cavities are distributed in the main sleeve shells, V-shaped grooves are distributed in the middle of the main sleeve shells, end holes are distributed at two ends of the main sleeve shells, the end holes are communicated with the inner cavities, the insertion end is movably inserted into the end holes, and the sliding part is elastically assembled in the inner cavity in a sliding manner and used for driving the insertion end to stretch;

the sleeve mechanism, sleeve mechanism includes sleeve casing, storage chamber and intercommunication mouth, sleeve casing is fixed to be laid subaerially, just sleeve casing with the sliding rod piece slides and meets, a plurality of storage chamber has been laid to sleeve casing internal portion interval, just the intercommunication mouth has been laid at storage chamber middle part, sliding rod piece slides and assembles between a plurality of intercommunication mouth, fertilizer grain has still been laid between the storage chamber.

2. The nursery stock protection mechanism for barren mountain afforestation with supporting function according to claim 1, characterized in that the nursery stock protection mechanism for barren mountain afforestation with supporting function comprises at least two sets of main sleeve housings and two sets of auxiliary sleeve housings.

3. The nursery stock protection mechanism with the supporting function for barren mountain afforestation according to claim 2, wherein the main casing body and the auxiliary casing body are arranged at intervals, and the insertion end is matched with the limiting hole.

4. The nursery stock protection mechanism for afforestation on a barren mountain with the supporting function according to claim 1, wherein the main rod sleeve assembly further comprises an inclined guide groove, the inclined guide groove is arranged at the tail end of the sliding member and is in sliding connection with the insertion end for driving the insertion end to move.

5. The nursery stock protection mechanism for afforestation on a barren mountain with a supporting function according to claim 1, wherein one side of the sliding rod is further provided with one-way teeth, one side of the sleeve housing is further provided with a pull rod, the pull rod is elastically and slidably assembled in the sleeve housing, and the tail end of the pull rod is assembled with a plug, the plug is arranged towards one side of the one-way teeth and used for limiting the sliding direction of the sliding rod.

6. The nursery stock protection mechanism for barren mountain afforestation with supporting function as claimed in claim 1, wherein the crimping assembly further comprises an anti-slip groove, the anti-slip groove is disposed at one end of the curved joint and faces one side of the nursery stock, and is used for limiting the curved joint from sliding on the surface of the nursery stock.

7. The nursery stock protection mechanism for afforestation on a barren mountain with the supporting function according to claim 1, wherein the sleeve mechanism further comprises a side groove opening and a foot seat, the side groove opening is arranged at the bottom end of the sleeve shell and communicated with the sleeve shell, the side groove opening is arranged towards one side of the nursery stock, the foot seat is movably assembled at the bottom of the sleeve shell, a plurality of anti-skidding teeth are arranged at the bottom of the foot seat, and an anchor foot head is fixedly assembled for fixing the position of the sleeve shell.