CN110249854B

CN110249854B - Auxiliary climbing rod seat structure for vine plants used in thin soil

Info

Publication number: CN110249854B
Application number: CN201910493811.2A
Authority: CN
Inventors: 黄月; 朋宇; 苏涛; 李玲玲; 王椰
Original assignee: Chongqing Industry Polytechnic College
Current assignee: Chongqing Industry Polytechnic College
Priority date: 2019-06-07
Filing date: 2019-06-07
Publication date: 2021-03-05
Anticipated expiration: 2039-06-07
Also published as: CN110249854A

Abstract

An auxiliary climbing rod seat structure for vine plants used in thin soil comprises a base, an insert block, a cover plate, a sleeve, a rotary head, a driven gear and a driving gear; the method is characterized in that: the lower end of the base is provided with a pointed end, the side surface of the base is provided with an L-shaped insert block chute, the middle of the base is provided with a base inner cavity, the middle of the bottom surface of the base inner cavity is provided with a central hole, the upper surface of the base inner cavity is provided with a ferrule, and the ferrule and the base are integrated; the inner side of the insert block is provided with an insert block straight tooth, the lower side of the insert block straight tooth is provided with an insert block transverse bar, and the section shape of the insert block is matched with the insert block sliding groove; the insert block can slide in the insert block sliding groove; the cover plate is provided with a cover plate central through hole and a cover plate inner ring; the bottom surface of the cover plate is provided with a driven gear shaft; the upper surface of the sleeve is provided with a jack, the side surface of the sleeve is provided with a transverse hole, and the lower surface of the sleeve is provided with a rotary head clamping hole; the invention is particularly suitable for being used in thinner soil, and the vine climbing pole inserted into the sleeve is not easy to fall down.

Description

Auxiliary climbing rod seat structure for vine plants used in thin soil

Technical Field

The invention belongs to the technical field of landscape cultivation in a forest garden, and particularly relates to an auxiliary climbing rod seat structure for vine plants, which is used in thin soil.

Background

Gardens are a form of building in China, and are developed into a greening means for cities. Modern life style and living environment have urgent functional and artistic requirements on gardens, and have more and more important roles in modern life and future people development directions. Various plants are usually required to be planted in gardens to meet greening requirements, vine plants are required to be used for decoration in partial areas, and bamboo poles or branches are usually inserted into the ground for supporting in the prior art, so that the bamboo poles or branches are convenient and fast to detach, easy to corrode and collapse and not stable enough; after the vines climb on the bamboo poles, the vines are easy to fall due to the increase of the windward area, and if cement is poured into the base of the vines, the base is inconvenient to detach and use; especially in thin soil, it is difficult to use bamboo poles or branches to insert into the soil to assist climbing of vines.

Disclosure of Invention

The purpose of the invention is: aims to provide a vine cane plant auxiliary climbing rod seat structure used in thin soil, which is convenient to use, firm and stable, convenient to support and convenient to mount and dismount.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows:

an auxiliary climbing rod seat structure for vine plants used in thin soil comprises a base, an insert block, a cover plate, a sleeve, a rotary head, a driven gear and a driving gear; the method is characterized in that: the lower end of the base is provided with a pointed end, the side surface of the base is provided with an L-shaped insert block chute, the middle of the base is provided with a base inner cavity, the middle of the bottom surface of the base inner cavity is provided with a central hole, the upper surface of the base inner cavity is provided with a ferrule, and the ferrule and the base are integrated; the inner side of the insert block is provided with an insert block straight tooth, the lower side of the insert block straight tooth is provided with an insert block transverse bar, and the section shape of the insert block is matched with the insert block sliding groove; the insert block can slide in the insert block sliding groove; the cover plate is provided with a cover plate central through hole and a cover plate inner ring; the bottom surface of the cover plate is provided with a driven gear shaft; the upper surface of the sleeve is provided with a jack, the side surface of the sleeve is provided with a transverse hole, and the lower surface of the sleeve is provided with a rotary head clamping hole; the rotary head is provided with a clamping groove, and the overall shape of the rotary head is matched with the clamping hole of the rotary head; the driven gear is limited on a driven gear shaft; a driving gear central shaft is arranged below the driving gear, and a rotating head is arranged above the driving gear; the driving gear is matched with the gear of the driven gear, and the driven gear can rotate under the driving of the driving gear when the driving gear rotates; the straight teeth of the insert block are matched with the teeth of the driven gear, and the driven gear rotates to drive the insert block to move.

The cover plate inner ring of the cover plate is in interference fit with the ferrule, and the cover plate can cover the ferrule and be fixed; after the insertion block is pushed out of the insertion block sliding groove by the driven gear, the insertion block can be taken out of the insertion block sliding groove after the straight teeth of the insertion block are separated from the constraint of the driven gear; the diameter size of the rotating head is smaller than that of the central through hole of the cover plate, and the rotating head and the cover plate are in sliding fit; the transverse hole arranged on the sleeve can be inserted with a metal strip and is used for assisting to drive the driving gear under the rotary head to rotate so as to play a role in controlling the extension of the insertion block; the whole parts of the plug seat are made of engineering plastics.

Compared with the prior art, the invention has the following advantages:

1. the climbing device is particularly suitable for being used in thinner soil, and after the climbing device is inserted into the thinner soil, the insertion block arranged in the base can be transversely inserted into the soil to keep stable, so that climbing of vine plants inserted into the sleeve can not fall down;

2. compared with the mode that the inserting block is driven by only a driving energy wheel, the mode that the driving gear drives the driven gear to rotate and then drives the inserting block to move has the advantages that the extending length of the inserting block is much longer, and the stability is better;

3. the invention can harm other plants on the soil surface as little as possible, and is particularly suitable for being used in places with thin soil and dense plant cultivation;

4. the invention can lead the bamboo pole inserted into the sleeve to be not easy to decay, and the service life is long;

5. through the matching of the rotary table, the rotary shaft circular teeth, the straight teeth and the barbs, the positions of the barbs can be adjusted, so that the barb type rotary table is convenient to mount, dismount and carry, and is convenient to assemble on a transportation site in batches;

6. the device is made of high-strength engineering plastics and can be recycled.

Drawings

The invention is further illustrated by the non-limiting examples given in the accompanying drawings;

FIG. 1 is a perspective view of an embodiment of an auxiliary climbing seat structure for vines used in thin soils (with the insert blocks extended);

FIG. 2 is a perspective view of an embodiment of an auxiliary climbing seat structure for vines in thin soils (the insert is not extended);

FIG. 3 is a structural relationship diagram between a sleeve and a rotor neck of an embodiment of an auxiliary climbing seat structure for vines used in thin soils; FIG. 4 is a structural relationship diagram between a sleeve and a rotor neck of an embodiment of an auxiliary climbing seat structure for vines used in thin soils;

FIG. 5 is a schematic view of the internal structure of a base of an embodiment of the auxiliary climbing seat structure for vines used in thin soils;

FIG. 6 is a schematic view of the assembled structure of the driving gear and driven gear of an embodiment of the auxiliary climbing seat structure for vines used in thin soils;

FIG. 7 is a schematic structural view of an embodiment of an auxiliary climbing seat structure for vines used in thin soils;

the main parts in the figure are numbered as follows:

the base comprises a base 1, a tip 11, an insert block sliding groove 12, a ferrule 13, a central hole 14, a base inner cavity 15, an insert block 20, insert block straight teeth 21, an insert block cross stop 22, a cover plate 30, a cover plate central through hole 31, a cover plate inner ring 32, a cover plate bottom surface 33, a driven gear shaft 34, a sleeve 40, an insertion hole 41, a cross hole 42, a rotary head clamping hole 43, a rotary head 50, a clamping groove 51, a driven gear 60, a driving gear 70 and a driving gear central shaft 71.

Detailed Description

In order that those skilled in the art can better understand the present invention, the following technical solutions are further described with reference to the accompanying drawings and examples.

As shown in fig. 1-5, an auxiliary climbing stick seat structure for vine used in thin soil comprises a base 1, an insert block 20, a cover plate 30, a sleeve 40, a rotor 50, a driven gear 60 and a driving gear 70; the method is characterized in that: the lower end of the base 1 is provided with a pointed end 11, the side surface of the base is provided with an L-shaped insert block sliding chute 12, the middle of the base is provided with a base inner cavity 15, the middle of the bottom surface of the base inner cavity 15 is provided with a central hole 14, a ferrule 13 is arranged on the base inner cavity 15, and the ferrule 13 and the base 1 are integrated; the inner side of the insert block 20 is provided with insert block straight teeth 21, the lower part of the insert block straight teeth is provided with an insert block cross bar 22, and the section shape of the insert block 20 is matched with the insert block chute 12; the insert 20 can slide in the insert chute 12; the cover plate 30 is provided with a cover plate central through hole 31 and a cover plate inner ring 32; the cover plate bottom surface 33 is provided with a driven gear shaft 34; the upper surface of the sleeve 40 is provided with a jack 41, the side surface is provided with a transverse hole 42, and the lower surface is provided with a rotary head clamping hole 43; the rotary head 50 is provided with a clamping groove 51, and the whole shape of the rotary head is matched with the rotary head clamping hole 43; the driven gear 60 is constrained to the driven gear shaft 34; a driving gear central shaft 71 is arranged below the driving gear 70, and a rotary head 50 is arranged above the driving gear; the driving gear 70 is matched with the gear of the driven gear 60, and the driven gear 60 can rotate under the driving of the driving gear 70 by rotating the driving gear 70; the straight teeth 21 of the insert block are matched with the teeth of the driven gear 60, and the driven gear 60 rotates to drive the insert block 20 to move.

The cover plate inner ring 32 of the cover plate 30 is in over-win fit with the ferrule 13, and the cover plate 30 can be covered on the ferrule 13 and fixed; after the insert block 20 is pushed out of the insert block sliding groove 12 by the driven gear 60, when the insert block straight teeth 21 are separated from the constraint of the driven gear 60, the insert block 20 can be taken out of the insert block sliding groove 12; the diameter size of the rotating head 50 is smaller than that of the central through hole 31 of the cover plate, and the rotating head and the cover plate are in sliding fit; the transverse hole 42 arranged on the sleeve 40 can be inserted with a metal strip and is used for assisting power to drive the driving gear 70 under the rotating head 50 to rotate so as to play a role in controlling the extension and retraction of the inserting block 20; insert block straight-tooth 21 and insert block crosspiece 22 can get into base inner chamber 15 under driven gear 60's drive in, insert block 20 then has one section all the time and can expose outside to increase the resistance, base (1) is followed rotatory when preventing sleeve 40 from rotating, is unfavorable for the back-out of insert block 20.

The whole part of the plug seat is made of engineering plastics.

The climbing device is particularly suitable for being used in thinner soil, and after the climbing device is inserted into the thinner soil, the insertion block arranged in the base can be transversely inserted into the soil to keep stable, so that the climbing plant pole inserted into the sleeve is not easy to fall down; compared with the mode that the inserting block is driven by only a driving energy wheel, the mode that the driving gear drives the driven gear to rotate and then drives the inserting block to move has the advantages that the extending length of the inserting block is much longer, and the stability is better;

the invention can harm other plants on the soil surface as little as possible, and is particularly suitable for being used in places with thin soil and dense plant cultivation;

the invention can lead the bamboo pole inserted into the sleeve to be not easy to decay, and the service life is long; through the matching of the rotary table, the rotary shaft circular teeth, the straight teeth and the barbs, the positions of the barbs can be adjusted, and the barb type rotary table is convenient to mount and dismount; the device is made of high-strength engineering plastics and can be recycled.

The foregoing embodiments are merely illustrative of the principles of the present invention and its efficacy, and are not to be construed as limiting the invention. Any person skilled in the art can modify or change the above-mentioned embodiments without departing from the spirit and scope of the present invention. Accordingly, it is intended that all equivalent modifications or changes which can be made by those skilled in the art without departing from the spirit and technical spirit of the present invention be covered by the claims of the present invention.

Claims

1. An auxiliary climbing rod seat structure for vine plants used in thin soil comprises a base (10), an insert block (20), a cover plate (30), a sleeve (40), a rotary head (50), a driven gear (60) and a driving gear (70); the method is characterized in that: the lower end of the base (10) is provided with a pointed end (11), the side surface of the base is provided with an L-shaped insert block sliding groove (12), the middle of the base is provided with a base inner cavity (15), the middle of the bottom surface of the base inner cavity (15) is provided with a central hole (14), a ferrule (13) is arranged on the base inner cavity (15), and the ferrule (13) and the base (10) are integrated; the inner side of the insert block (20) is provided with insert block straight teeth (21), an insert block transverse baffle (22) is arranged below the insert block straight teeth, and the section shape of the insert block (20) is matched with the insert block sliding groove (12); the insert block (20) can slide in the insert block sliding groove (12); after the insert block (20) is pushed out of the insert block sliding groove (12) by the driven gear (60), when the insert block straight teeth (21) are separated from the constraint of the driven gear (60), the insert block (20) can be taken out of the insert block sliding groove (12); the cover plate (30) is provided with a cover plate central through hole (31), and the cover plate (30) is provided with a cover plate inner ring (32); a driven gear shaft (34) is arranged on the bottom surface (33) of the cover plate; the sleeve (40) is provided with an insertion hole (41), and a long bamboo pole or a long branch can be inserted into the insertion hole (41) for climbing of the vine; a transverse hole (42) is formed in the side face of the insertion hole (41) and used for inserting an iron rod and assisting in rotating the sleeve (40), and a rotary head clamping hole (43) is formed below the sleeve (40); a rotary head clamping hole (43) arranged below the sleeve (40) is just sleeved on the rotary head (50); the driven gear (60) is constrained to a driven gear shaft (34); a driving gear central shaft (71) is arranged below the driving gear (70), and a rotating head (50) is arranged above the driving gear; the rotary head (50) is provided with a clamping groove (51), and the overall shape of the rotary head is matched with that of the rotary head clamping hole (43); the driving gear (70) is matched with a gear of the driven gear (60), the driving gear (70) is rotated, and the driven gear (60) can be driven by the driving gear (70) to rotate; the straight teeth (21) of the insert block are matched with the teeth of the driven gear (60), and the driven gear (60) rotates to drive the insert block (20) to move; the insert block straight teeth (21) and the insert block transverse bars (22) can enter the inner cavity (15) of the base under the driving of the driven gear (60), and one section of the insert block (20) is exposed all the time.

2. A vine auxiliary climbing seat structure used in thin soil according to claim 1, wherein: the cover plate inner ring (32) of the cover plate (30) is in interference fit with the ferrule (13), and the cover plate (30) can cover the ferrule (13) and is fixed by the ferrule (13).

3. A vine auxiliary climbing seat structure used in thin soil according to claim 1, wherein: the diameter size of the rotating head (50) is smaller than that of the central through hole (31) of the cover plate, and the rotating head and the cover plate are in sliding fit.

4. A vine auxiliary climbing seat structure used in thin soil according to claim 1, wherein: the metal strip can be inserted into a transverse hole (42) formed in the sleeve (40) and used for assisting power to drive a driving gear (70) below the rotary head (50) to rotate, and the effect of controlling the extension of the inserting block (20) is achieved.

5. A vine auxiliary climbing seat structure used in thin soil according to claim 1, wherein: the parts of the auxiliary climbing rod seat are all made of high-strength engineering plastics.