CN111758446B - Adaptive cultivation frame and cultivation method for cucumber planting - Google Patents

Abstract

The invention discloses a self-adaptive cultivation frame and a cultivation method for cucumber planting, which comprises a cultivation frame body, a connecting plate and a base, wherein a telescopic column penetrates through a clamping groove on a ring frame, a spring is extended to enable the telescopic column to be stably inserted into the ground, the telescopic column realizes the fixation of the position of a chassis, a cucumber vine is wound on the outer surface of a frame body and grows around the outer surface of the frame body, meanwhile, the cucumber vine is wound on a winding rod, the cucumber vine continuously climbs towards different directions in the growing process, the winding rod is driven by the cucumber vine to move towards the direction climbed by the cucumber vine, the winding rod drives a movable plate body to rotate on a main axial column while moving, the structure can effectively strengthen the self-strength of the cucumber cultivation frame, provide stable support for the cucumber seedling and simultaneously adjust the angle according to the growing direction of the seedling, keeping the smooth climbing of the cucumber seedlings.

Description

Adaptive cultivation frame and cultivation method for cucumber planting

Technical Field

The invention relates to the technical field of cucumber planting, in particular to a self-adaptive cultivation frame and a cultivation method for cucumber planting.

Background

Cucurbitaceae family annual vine or climbing herbaceous plants. Also called cucumber and cucumber. The stems and branches are elongated and have furrows and are brushed by white rough bristles. The petiole is slightly rough and has rough and hard bristles; the leaf is wide, oval, heart-shaped, membranous, lobe-shaped and toothed. The same male and female plants. Male flowers: constant clusters in the axils of the leaves; the pedicel is fine and is slightly soft; the corolla is yellow and white, and the split corolla is long and round and is in the shape of a needle.

The cucumber is sweet, cool, bitter and nontoxic, and can enter spleen, stomach and large intestine; has effects in removing heat, promoting diuresis, and clearing away heat and toxic materials; it can be used for treating polydipsia, swelling and pain of throat, eye burn, and scald. The cucumber can be eaten daily and has the effect of losing weight, so that the cucumber is widely planted.

The cucumber is better in order to make its climbing effect that makes progress at the growth in-process, and cucumber cultivation frame is used commonly carries out the auxiliary planting, but present cultivation frame is found at the in-process that uses, still has certain weak point, under specific circumstances, and the intensity of cultivation frame self is not enough, can't provide stable support for the cucumber, can't adjust the direction according to the actual growth condition of cucumber seedling simultaneously, can't supply the seedling to scramble, leads to the cucumber seedling to break away from cultivation frame, makes the cucumber seedling impaired.

Disclosure of Invention

The invention aims to provide a self-adaptive cultivation frame and a cultivation method for cucumber planting, wherein a telescopic column penetrates through a clamping groove on a ring frame, a spring is stretched to enable the telescopic column to be stably inserted into the soil, the telescopic column realizes the fixation of the position of a chassis, cucumber vines are wound on the outer surface of a frame body, the cucumber vines grow around the outer surface of the frame body, meanwhile, the cucumber vines are wound on a winding rod, the cucumber vines continuously climb to different directions in the growth process, the winding rod is driven by the cucumber vines to move towards the direction of climbing, the winding rod drives a movable plate body to rotate on a main shaft column while moving, the winding rod rotates in a transverse groove, when the cucumber vines are impacted by external force or hit by wind and rain, the cucumber vines drive the winding rod and the movable plate body to shake together while shaking, and the risk of damage of the cucumber vines is reduced, this structure can effectually strengthen the self intensity of cucumber cultivation frame, provides stable support for the cucumber seedling, can carry out the regulation of angle simultaneously according to the growing direction of seedling, keeps the smoothness of cucumber seedling climbing to the problem of proposing among the above-mentioned background art is solved.

In order to achieve the purpose, the invention provides the following technical scheme: a self-adaptive cultivation frame for cucumber planting comprises a cultivation frame body, a connecting plate and a base, wherein the connecting plate is connected to the bottom end of the cultivation frame body, and the base is connected to the bottom end of the connecting plate;

the cultivation frame body comprises a fixed frame, a movable inner column, a bottom column, a connecting column and a movable disc, wherein the movable inner column is arranged inside the fixed frame, the bottom of the movable inner column is provided with the bottom column, the bottom end of the bottom column is fixedly connected with the connecting column, and the bottom end of the connecting column is fixedly connected with the movable disc;

the fixed frame comprises a frame body and a transverse groove, the frame body is provided with the transverse groove, and the transverse groove is communicated with the inside and the outside of the frame body;

the movable inner column comprises a main shaft column, a bearing seat, a movable sleeve plate and a bearing disc, the bottom end of the main shaft column is fixedly connected to the bottom column, the top end of the main shaft column is movably installed in the bearing seat, the top end of the bearing seat is fixedly installed on the frame body, the movable sleeve plate is movably installed on the main shaft column, the bearing disc is arranged below the movable sleeve plate, and the bearing disc is fixedly connected with the main shaft column;

the movable sleeve plate comprises a movable plate body, a through hole and a winding rod, the through hole is formed in the movable plate body, and the winding rod is fixedly connected to one side of the movable plate body;

the base comprises a chassis, a ring frame, a clamping groove, a limiting telescopic rod and an inner fixing seat, the ring frame is fixedly mounted on the chassis, the clamping groove is formed in the ring frame, the limiting telescopic rod is arranged inside the clamping groove, and the limiting telescopic rod is movably mounted on the inner fixing seat.

Preferably, spacing telescopic link includes spacing frame, built-in board, flexible post and spring, the inside of spacing frame is equipped with built-in board, the top fixed mounting of built-in board has flexible post, the bottom fixedly connected with spring of built-in board, the bottom fixed mounting of spring is on spacing frame.

Preferably, the inner fixing seat comprises a fixed inner frame and an inner movable cavity, the inner movable cavity is arranged inside the fixed inner frame, a movable disc is movably arranged in the inner movable cavity, and the movable disc is fixedly connected with the limiting frame.

The invention provides another technical scheme, and a cultivation method of a self-adaptive cultivation frame for cucumber planting, which comprises the following steps:

the method comprises the following steps: inserting the base plate and the ring frame into the ground, penetrating the telescopic column through the clamping groove in the ring frame, and extending the spring to enable the telescopic column to be stably inserted into the ground, so that the telescopic column fixes the position of the base plate;

step two: winding the cucumber vines on the outer surface of the frame body, enabling the cucumber vines to grow around the outer surface of the frame body, and meanwhile, winding the cucumber vines on the winding rods;

step three: the cucumber vines climb in different directions continuously in the growing process, and the winding rods are driven by the cucumber vines to move in the climbing direction;

step four: the winding rod drives the movable plate body to rotate on the main shaft column while moving, and meanwhile, the winding rod rotates in the transverse groove;

step five: when the cucumber vines are impacted by external force or hit by wind or rain, the cucumber vines drive the winding rods to shake together with the movable plate body while shaking, and the risk of damage to the cucumber vines is reduced.

Compared with the prior art, the invention has the beneficial effects that: the invention provides a self-adaptive cultivation frame and a cultivation method for cucumber planting, wherein a telescopic column penetrates through a clamping groove on a ring frame, a spring is extended to enable the telescopic column to be stably inserted into the soil, the telescopic column realizes the fixation of the position of a chassis, cucumber vines are wound on the outer surface of a frame body, the cucumber vines grow around the outer surface of the frame body, meanwhile, the cucumber vines are wound on winding rods, the cucumber vines continuously climb to different directions in the growth process, the winding rods are driven by the cucumber vines to move in the climbing direction, the winding rods drive a movable plate body to rotate on a main shaft column while moving, the winding rods rotate in transverse grooves, when the cucumber vines are impacted by external force or blown by wind and rain, the cucumber vines drive the winding rods and the movable plate body to shake together while shaking, and the risk of damage of the cucumber vines is reduced, this structure can effectually strengthen the self intensity of cucumber cultivation frame, provides stable support for the cucumber seedling, can carry out the regulation of angle according to the growing direction of seedling simultaneously, keeps the smoothness of cucumber seedling climbing.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a schematic structural view of a cultivation shelf body according to the present invention;

FIG. 3 is an internal structure view of the fixing frame according to the present invention;

FIG. 4 is a perspective view of a movable nest plate of the present invention;

FIG. 5 is a schematic structural view of a base according to the present invention;

FIG. 6 is a schematic drawing showing the base of the present invention retracted;

FIG. 7 is a schematic structural view of the limit telescopic rod of the present invention;

fig. 8 is a sectional view of the inner fixing base of the present invention.

In the figure: 1. a cultivation shelf body; 11. a fixing frame; 111. a frame body; 112. a transverse groove; 12. a movable inner column; 121. a spindle post; 122. a bearing seat; 123. a movable sleeve plate; 1231. a movable plate body; 1232. a through hole; 1233. a winding rod; 124. a bearing plate; 13. a bottom pillar; 14. connecting columns; 15. a movable tray; 2. a connecting plate; 3. a base; 31. a chassis; 32. a ring frame; 33. a card slot; 34. limiting the telescopic rod; 341. a limiting frame; 342. a built-in plate; 343. a telescopic column; 344. a spring; 35. an inner fixed seat; 351. fixing the inner frame; 352. an inner movable cavity.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, a cucumber planting adaptive cultivation frame comprises a cultivation frame body 1, a connection plate 2 and a base 3, the connection plate 2 is connected to the bottom end of the cultivation frame body 1, the base 3 is connected to the bottom end of the connection plate 2, the cultivation frame body 1 comprises a fixed frame 11, a movable inner column 12, a bottom column 13, a connection column 14 and a movable disc 15, the movable inner column 12 is arranged inside the fixed frame 11, the bottom of the movable inner column 12 is provided with the bottom column 13, the bottom end of the bottom column 13 is fixedly connected with the connection column 14, the bottom end of the connection column 14 is fixedly connected with the movable disc 15, the fixed frame 11 comprises a frame body 111 and a transverse groove 112, the transverse groove 112 is arranged on the frame body 111, the transverse groove 112 communicates the inside and the outside of the frame body 111, the movable inner column 12 comprises a main shaft column 121, a bearing seat 122, a movable sleeve plate 123 and a bearing disc 124, the bottom end of the main shaft column 121 is fixedly connected to the bottom column 13, the top end of the main shaft column 121 is movably arranged in the bearing seat 122, the top end of the bearing seat 122 is fixedly mounted on the frame 111, the main shaft column 121 is movably mounted with a movable sleeve plate 123, the movable sleeve plate 123 includes a movable plate body 1231, a through hole 1232 and a winding rod 1233, the through hole 1232 is provided in the movable plate body 1231, the winding rod 1233 is fixedly connected to one side of the movable plate body 1231, a receiving disc 124 is arranged below the movable sleeve plate 123, and the receiving disc 124 is fixedly connected to the main shaft column 121.

Referring to fig. 5-8, the base 3 includes a base plate 31, a ring frame 32, a clamping groove 33, a limiting telescopic rod 34 and an inner fixing seat 35, the ring frame 32 is fixedly installed on the base plate 31, the clamping groove 33 is formed in the ring frame 32, the limiting telescopic rod 34 is installed inside the clamping groove 33, the limiting telescopic rod 34 is movably installed on the inner fixing seat 35, the limiting telescopic rod 34 includes a limiting frame 341, an internal plate 342, a telescopic column 343 and a spring 344, the internal plate 342 is installed inside the limiting frame 341, the telescopic column 343 is fixedly installed at the top end of the internal plate 342, the spring 344 is fixedly connected to the bottom end of the internal plate 342, the bottom end of the spring 344 is fixedly installed on the limiting frame 341, the inner fixing seat 35 includes a fixed inner frame 351 and an inner activity cavity 352, an inner activity cavity 352 is formed inside the fixed inner frame 351, an activity disc 15 is movably installed in the inner activity cavity 352, and the activity disc 15 is fixedly connected to the limiting frame 341.

In order to better show the cultivation flow of the adaptive cultivation rack for cucumber cultivation, the present embodiment now proposes a cultivation method of the adaptive cultivation rack for cucumber cultivation, which includes the following steps:

the method comprises the following steps: inserting the chassis 31 with the ring frame 32 into the ground, penetrating the telescopic column 343 through the clamping groove 33 on the ring frame 32, extending the spring 344 to enable the telescopic column 343 to be stably inserted into the ground, and fixing the position of the chassis 31 by the telescopic column 343;

step two: winding the cucumber vines on the outer surface of the frame body 111, enabling the cucumber vines to grow around the outer surface of the frame body 111, and meanwhile, winding the cucumber vines on the winding rods 1233;

step three: the cucumber vines climb in different directions continuously in the growing process, and the winding rods 1233 are driven by the cucumber vines to move in the climbing direction;

step four: the winding rod 1233 drives the movable plate body 1231 to rotate on the main shaft column 121 while moving, and meanwhile, the winding rod 1233 rotates in the transverse slot 112;

step five: when the cucumber vines are impacted by external force or hit by wind or rain, the cucumber vines drive the winding rods 1233 to shake together with the movable plate body 1231 while shaking, so that the risk of damage to the cucumber vines is reduced.

The working principle of the invention is as follows: inserting the chassis 31 with the ring frame 32 into the ground, penetrating the telescopic column 343 through the clamping groove 33 on the ring frame 32, extending the spring 344 to enable the telescopic column 343 to be stably inserted into the ground, fixing the chassis 31 by the telescopic column 343, winding the cucumber vine on the outer surface of the frame body 111, enabling the cucumber vine to grow around the outer surface of the frame body 111, meanwhile, the cucumber vines are wound on the winding rods 1233, the cucumber vines are climbed towards different directions continuously in the growing process, the winding rods 1233 are driven by the cucumber vines to move towards the direction climbed by the cucumber vines, the winding rods 1233 drive the movable plate body 1231 to rotate on the main shaft column 121 while moving, meanwhile, the winding rod 1233 rotates in the transverse groove 112, when the cucumber vine is impacted by external force or is blown by wind or rain, the cucumber vine drives the winding rod 1233 and the movable plate body 1231 to shake together when shaking, so that the risk of damage to the cucumber vine is reduced.

In summary, the following steps: the chassis 31 with the ring frame 32 is inserted into the ground, the telescopic column 343 penetrates through the clamping groove 33 on the ring frame 32, the spring 344 is extended, the telescopic column 343 is stably inserted into the ground, the telescopic column 343 fixes the position of the chassis 31, cucumber vines are wound on the outer surface of the frame 111, the cucumber vines grow around the outer surface of the frame 111, meanwhile, the cucumber vines are wound on the winding rods 1233, the cucumber vines continuously climb to different directions in the growing process, the winding rods 1233 are driven by the cucumber vines to move in the climbing direction, the winding rods 1233 drive the movable plate body 1231 to rotate on the main shaft column 121 while moving, the winding rods 1233 rotate in the transverse grooves 112, when the cucumber vines are impacted by external force or blown by wind and rain, the cucumber vines drive the winding rods 1233 to shake together with the movable plate body 1231, and the risk of damage of the cucumber vines is reduced, this structure can effectually strengthen the self intensity of cucumber cultivation frame, provides stable support for the cucumber seedling, can carry out the regulation of angle according to the growing direction of seedling simultaneously, keeps the smoothness of cucumber seedling climbing.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (4)

1. A self-adaptive cultivation frame for cucumber planting comprises a cultivation frame body (1), a connecting plate (2) and a base (3), and is characterized in that the bottom end of the cultivation frame body (1) is connected with the connecting plate (2), and the bottom end of the connecting plate (2) is connected with the base (3);

the cultivation frame body (1) comprises a fixed frame (11), a movable inner column (12), a bottom column (13), a connecting column (14) and a movable disc (15), the movable inner column (12) is arranged inside the fixed frame (11), the bottom of the movable inner column (12) is provided with the bottom column (13), the bottom end of the bottom column (13) is fixedly connected with the connecting column (14), and the bottom end of the connecting column (14) is fixedly connected with the movable disc (15);

the fixed frame (11) comprises a frame body (111) and a transverse groove (112), the transverse groove (112) is formed in the frame body (111), and the transverse groove (112) is communicated with the inside and the outside of the frame body (111);

the movable inner column (12) comprises a main shaft column (121), a bearing seat (122), a movable sleeve plate (123) and a bearing disc (124), the bottom end of the main shaft column (121) is fixedly connected to the bottom column (13), the top end of the main shaft column (121) is movably installed in the bearing seat (122), the top end of the bearing seat (122) is fixedly installed on the frame body (111), the movable sleeve plate (123) is movably installed on the main shaft column (121), the bearing disc (124) is arranged below the movable sleeve plate (123), and the bearing disc (124) is fixedly connected with the main shaft column (121);

the movable sleeve plate (123) comprises a movable plate body (1231), a through hole (1232) and a winding rod (1233), the through hole (1232) is formed in the movable plate body (1231), and the winding rod (1233) is fixedly connected to one side of the movable plate body (1231);

base (3) include chassis (31), ring frame (32), draw-in groove (33), spacing telescopic link (34) and interior fixing base (35), fixed mounting has ring frame (32) on chassis (31), draw-in groove (33) have been seted up on ring frame (32), the inside of draw-in groove (33) is equipped with spacing telescopic link (34), on fixing base (35) including spacing telescopic link (34) movable mounting.

2. The adaptive cultivation rack for cucumber planting as claimed in claim 1, wherein the limiting telescopic rod (34) comprises a limiting frame (341), an internal plate (342), a telescopic column (343) and a spring (344), the internal plate (342) is arranged inside the limiting frame (341), the telescopic column (343) is fixedly installed at the top end of the internal plate (342), the spring (344) is fixedly connected to the bottom end of the internal plate (342), and the bottom end of the spring (344) is fixedly installed on the limiting frame (341).

3. The adaptive cultivation rack for cucumber cultivation as claimed in claim 1, wherein the inner fixing base (35) comprises a fixed inner frame (351) and an inner movable cavity (352), the inner part of the fixed inner frame (351) is provided with the inner movable cavity (352), the movable disc (15) is movably mounted in the inner movable cavity (352), and the movable disc (15) is fixedly connected with the limiting frame (341).

4. A cultivation method of an adaptive cultivation rack for cucumber cultivation as claimed in any one of claims 1-3, characterized by comprising the steps of:

s1: inserting the chassis (31) and the ring frame (32) into the ground, penetrating the telescopic column (343) through the clamping groove (33) on the ring frame (32), extending the spring (344), stably inserting the telescopic column (343) into the ground, and fixing the position of the chassis (31) by the telescopic column (343);

s2: the cucumber vines are wound on the outer surface of the frame body (111), the cucumber vines grow around the outer surface of the frame body (111), and meanwhile the cucumber vines are wound on the winding rods (1233);

s3: the cucumber vines climb in different directions continuously in the growing process, and the winding rods (1233) are driven by the cucumber vines to move in the climbing direction;

s4: the winding rod (1233) moves and simultaneously drives the movable plate body (1231) to rotate on the main shaft column (121), and the winding rod (1233) rotates in the transverse groove (112);

s5: when the cucumber vines are impacted by external force or hit by wind or rain, the cucumber vines drive the winding rods (1233) and the movable plate body (1231) to shake together while shaking, and the risk of damage to the cucumber vines is reduced.

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