CN212813064U - Strawberry waterfall planting structure - Google Patents

Abstract

The utility model is suitable for an agricultural planting technical field provides a strawberry sky waterfall planting structure, including greenhouse truss, greenhouse stand and cultivation subassembly, the upper end of greenhouse stand is fixedly connected with the greenhouse truss, install the cultivation subassembly on the greenhouse truss, the cultivation subassembly includes rotating steel pipe, bearing frame, gear motor, wire rope, turnbuckle, hoist and mount on the piece, hoist and mount under the piece, cultivation groove, support steel pipe, the bearing frame is fixed to the greenhouse truss rear surface, and gear motor is fixed to the greenhouse truss front surface; the utility model discloses a each gear motor on each cultivation subassembly all can be controlled by control system alone, and all cultivation grooves in the greenhouse can make up lifting control, and operating system can rise the greenhouse highest point with the strawberry, accepts maximum illumination. And can plan the putting of cultivation subassembly according to planting scale, effectively solve the problem that ordinary planting mode can't satisfy the people and pursue.

Description

Strawberry waterfall planting structure

Technical Field

The utility model belongs to the technical field of farming, especially, relate to a strawberry day waterfall planting structure.

Background

The strawberry is a perennial herb plant, has good color, fragrance and taste, is deeply popular with the people, is recognized as 'queen in fruit' in the world, and is one of the more popular fruits in the market at present. The greenhouse out-of-season cultivation is the most important strawberry production mode in China at present, namely greenhouse soil cultivation, and the strawberry facility cultivation has the characteristics of short period, quick response, high benefit, long picking time, good quality and the like.

However, in the current production, cultivation mainly takes the protection of a common greenhouse, strawberries are directly planted in ridged soil, manual waist bending and back bending operations are needed from seedling planting to fruit harvesting, the labor intensity is high, the planting scale is limited, the accumulation of various pathogenic bacteria and soil salinization are easily caused by long-term continuous soil cropping, the yield and the quality of the strawberries are severely limited by the generated soil-borne diseases, the economic benefit is influenced, in recent years, with the continuous increase of agricultural facilities, the rapid development of leisure agriculture is realized, and the common planting mode cannot meet the pursuit of people for strawberry picking.

SUMMERY OF THE UTILITY MODEL

The utility model provides a strawberry day waterfall planting structure aims at solving and needs the artifical bent back of the body operation of bowing among the present planting technique, and intensity of labour is big, has restricted the planting scale, and long-term soil continuous cropping causes the accumulation and the soil salinization of various pathogenic bacteria easily moreover, and the soil-borne disease of production seriously restricts the output and the quality of strawberry, influences economic benefits's problem.

The utility model discloses a realize like this, a strawberry day waterfall planting structure, including greenhouse truss, greenhouse stand and cultivation subassembly, the upper end fixedly connected with greenhouse truss of greenhouse stand, install the cultivation subassembly on the greenhouse truss.

Cultivation subassembly includes on rotatory steel pipe, bearing frame, gear motor, wire rope, turnbuckle, hoist and mount piece, under the hoist and mount piece, fixed surface installs the bearing frame behind the greenhouse truss, and fixed surface installs gear motor before the greenhouse truss, gear motor's output fixedly connected with rotatory steel pipe, rotatory steel pipe runs through in the bearing frame and is connected with the gear motor output, the winding has wire rope on the rotatory steel pipe, and wire rope lower extreme fixedly connected with turnbuckle, turnbuckle lower extreme fixedly connected with hoists on the piece, hoist and mount piece upper and lower end fixedly connected with hoists under the piece.

Preferably, the rotating steel pipe is provided with a steel wire rope through groove, and one end of the steel wire rope is positioned in the steel wire rope through groove; and the steel wire rope passing groove is provided with a steel wire rope lock catch, and the size of the steel wire rope lock catch is larger than that of the steel wire rope passing groove.

Preferably, the cultivation subassembly still includes cultivation groove and support steel pipe, inside fixed mounting has the cultivation groove under the hoist and mount piece, the bottom in cultivation groove and the hoist and mount piece are down seted up and are equipped with the recess that corresponds each other, support the steel pipe and install in the recess.

Preferably, the bottom of the hoisting piece is fixedly connected with a drain pipe.

Preferably, two irrigation pipelines are arranged in the cultivation groove.

Preferably, the hoisting piece is fixedly connected with the lower part of the hoisting piece, the lower outer edge part of the hoisting piece is provided with a hook returning design which is bent downwards, and the hoisting piece is fixedly connected with the lower part of the hoisting piece in the hook returning design. The upper end and the lower end of the turnbuckle are respectively provided with a hook, the upper end is fixedly connected with the steel wire rope, and the lower end is fixedly connected with the hoisting piece.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model controls the gear motor to lead the rotary steel pipe which is fixedly connected with the output end of the gear motor and runs through the bearing seat to move up and down, the cultivation component which is fixedly connected with the lower part of the steel wire rope wound on the rotary steel pipe can freely move up and down, the operation that the fruit harvesting needs to be manually bent to bend the back is reduced, the labor intensity is high, the planting scale is limited, the matrix in the cultivation groove can effectively improve the utilization rate of the soil, can effectively relieve the problems that the accumulation of various pathogenic bacteria and the salinization of soil are easily caused by the continuous cropping of the soil for a long time, the produced soil-borne diseases seriously restrict the yield and the quality of the strawberries, influence the economic benefit, and the utility model discloses in can be according to putting of planting scale planning cultivation subassembly, effectively solve the constantly increasing of agricultural facility, the rapid development of leisure agriculture, ordinary planting mode can't satisfy the problem that people pursued to strawberry picking.

Drawings

Fig. 1 is a schematic view of a horizontal structure of the present invention;

FIG. 2 is a schematic view of a partially unfolded structure of the middle frame of the present invention;

FIG. 3 is a schematic view of a partially unfolded structure of the cultivation assembly of the present invention;

fig. 4 is the utility model discloses well rotatory steel pipe part expandes the structure sketch map:

fig. 5 is the schematic view of the staggered arrangement position of the middle cultivation assembly of the utility model:

fig. 6 is the utility model discloses well cultivation subassembly type of falling V puts position structure sketch:

in the figure: 100-greenhouse, 1-greenhouse truss-, 2-greenhouse upright post-, 31-rotary steel pipe, 32-bearing seat, 33-speed reduction motor, 34-steel wire rope, 35-turnbuckle, 36-hoisting part upper part, 37-hoisting part lower part, 38-cultivation groove, 39-supporting steel pipe, 341-steel wire rope groove, 342-steel wire rope lock catch, 343-steel wire rope winding, 381-substrate, 382-channel-changing, 383-strawberry and 384-drainage pipe.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments, it is to be understood that the specific embodiments described herein are only used for explaining the present invention, and are not used for limiting the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: the utility model provides a strawberry day waterfall planting structure which characterized in that: the greenhouse frame comprises a greenhouse truss 1, a greenhouse upright post 2 and a cultivation component 3, wherein the upper end of the greenhouse upright post 2 is fixedly connected with the greenhouse truss 1, and the cultivation component 3 is arranged on the greenhouse truss 1;

cultivation subassembly 3 includes rotating steel pipe 31, bearing frame 32, gear motor 33, wire rope 34, turnbuckle 35, hoist and mount piece upper 36, hoist and mount piece lower 37, greenhouse truss 1 rear surface fixed mounting has bearing frame 32, greenhouse truss 1 front surface fixed mounting has gear motor 33, gear motor 33's output fixedly connected with rotating steel pipe 31, rotating steel pipe 31 runs through and is connected with gear motor 33 output in bearing frame 32, the last wire rope 34 that twines of rotating steel pipe 31, wire rope 34 lower extreme fixedly connected with turnbuckle 35, turnbuckle 35 lower extreme fixedly connected with hoists piece upper 36, 36 lower extreme fixedly connected with hoists piece lower 37 on the hoists piece.

In the embodiment, a greenhouse upright post 2 is vertically arranged on the ground, the upper end of the greenhouse upright post 2 is fixedly connected with a greenhouse truss 1, and a cultivation assembly 3 is arranged on the greenhouse truss 1; in each cultivation tank suspension system configuration, a rotary steel pipe 31 is arranged, one end of the rotary steel pipe 31 is connected to the output end of a speed reducing motor 33 fixedly connected to a front greenhouse truss 1, the other end of the rotary steel pipe 31 penetrates through a bearing seat 32 fixedly installed in a rear greenhouse truss 1, the number of the bearing seats 32 is the same as that of the greenhouse trusses 1, one speed reducing motor 33 is fixedly installed in each cultivation tank suspension system configuration, a steel wire rope 34 is wound on the rotary steel pipe 31, the length of the steel wire rope 34 is determined according to the height of a greenhouse 100, one cultivation tank suspension system configuration is provided every 1-3 meters, the lower end of the steel wire rope 34 is fixedly connected with a turnbuckle 35, the lower end of the turnbuckle 35 is fixedly connected with a lifting piece upper 36, the lower end of the lifting piece upper 36 is fixedly connected with a lifting piece lower 37, a cultivation tank 38 is fixedly installed in the lifting piece lower 37, a supporting steel pipe 39 is arranged between the cultivation tank 38 and, the number of the turnbuckle 35, the upper sling 36 and the lower sling 37 is determined by the number of the steel wire ropes 34, one set is arranged every 1-3 m, the length of the cultivation wiper 38 is consistent with the required length of the greenhouse, and the length of the support steel pipe 39 is consistent with the length of the cultivation groove 38.

Further, a steel wire rope through groove 341 is formed in the rotary steel pipe 31, and one end of the steel wire rope 34 is located in the steel wire rope through groove 341;

the steel wire rope passing groove 341 is provided with a steel wire rope lock 342, and the size of the steel wire rope lock 342 is larger than that of the steel wire rope passing groove 341.

In this embodiment, a slot slightly larger than the wire rope 34 is formed in the rotary steel pipe 31, so that the wire rope 34 can pass through the slot conveniently, and meanwhile, a wire rope lock catch 342 is fixedly mounted on the wire rope passing slot 341, so that the wire rope 34 is prevented from falling off.

Further, cultivation subassembly 3 still includes cultivation groove 38 and support steel pipe 39, inside fixed mounting has cultivation groove 38 under the hoist and mount piece 37, mutual corresponding recess has been seted up to the bottom of cultivation groove 38 and hoist and mount piece down 37, support steel pipe 39 is installed in the recess.

In the present embodiment, two opposite grooves with the size corresponding to the radius of the support steel pipe 39 are formed at the bottom of the cultivation tank 38 and the bottom of the sling lower part 37 for placing the support steel pipe 39.

Further, a drain pipe 384 is fixedly connected to the bottom of the lower 37 of the hoisting piece.

In this embodiment, one drain pipe 384 is provided under the hanger 37, the drain pipe 384 serves to drain excess water in the row of the cultivation tanks 38, the number of drain pipes 384 is one for one cultivation tank suspension system configuration, and the number of cultivation tanks 38 is one for one cultivation tank suspension system configuration.

Furthermore, two irrigation pipes 382 are arranged in the cultivation tank 38,

in this embodiment, water and nutrients are supplied to the substrate 381 in the cultivation tank 38 through the irrigation pipe 382, strawberry 383 plants are planted on the substrate 381, and the length of the irrigation pipe 382 is identical to the length of the cultivation tank 38.

Further, the upper 36 lower part of the hoisting piece is fixedly connected with the lower 37 part of the hoisting piece, the outer edge part of the lower 37 part of the hoisting piece is provided with a downward bent back hook design, and the upper 36 part of the hoisting piece is fixedly connected with the lower 37 part of the hoisting piece in the back hook. The upper and lower ends of the turnbuckle 35 are respectively provided with a hook, the upper end is fixedly connected with the steel wire rope 34, and the lower end is fixedly connected with the hoisting piece 36.

In this embodiment, the two outer edge portions of the lower portion 37 of the sling are respectively designed to be curved downward to facilitate the fixed mounting on the sling 36, and the upper portion and the lower portion of the turnbuckle 35 are respectively designed to be hooked to facilitate the fixed connection of the steel cable 34 to the upper portion of the turnbuckle 35 and the fixed connection of the upper portion 36 of the sling 35 to the lower portion of the turnbuckle 35.

The utility model discloses a theory of operation and use flow: the utility model discloses install the back, apply matrix 381 in to cultivation groove 38, let matrix 381 cultivate strawberry 383, set up 1-2 irrigation pipe 382 in matrix 381, carry strawberry 383 required nourishment of growth to matrix 381, through control fixed mounting in the rotatory steel pipe 33 rotary motion in the bearing frame 32 of 1 rear surface of greenhouse truss in the gear motor 33 output and running through of gear motor 33 on 1 front surface of greenhouse truss, put down or raise wire rope 34 of fixed connection between flange screw 35 and rotatory steel pipe 31 then, utilize wire rope 34's motion to make cultivation subassembly 3 move, thereby accomplish the planting and the cultivation of strawberry.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention should be included in the present invention.

Claims (6)

1. The utility model provides a strawberry day waterfall planting structure which characterized in that: the greenhouse frame comprises a greenhouse truss (1), greenhouse stand columns (2) and cultivation assemblies (3), wherein the upper ends of the greenhouse stand columns (2) are fixedly connected with the greenhouse truss (1), the cultivation assemblies (3) are arranged on the greenhouse truss (1), the number of the cultivation assemblies (3) is a plurality of groups, and the cultivation assemblies are sequentially arranged on the greenhouse truss (1);

the cultivation component (3) comprises a rotary steel pipe (31), a bearing seat (32), a speed reducing motor (33), a steel wire rope (34), a turnbuckle (35), a hoisting piece upper part (36) and a hoisting piece lower part (37), a bearing seat (32) is fixedly arranged on the rear surface of the greenhouse truss (1), a speed reducing motor (33) is fixedly arranged on the front surface of the greenhouse truss (1), the output end of the speed reducing motor (33) is fixedly connected with a rotary steel pipe (31), one end of the rotating steel pipe (31) far away from the speed reducing motor (33) penetrates through a bearing seat (32), a steel wire rope (34) is wound on the rotary steel pipe (31), the lower end of the steel wire rope (34) is fixedly connected with a turnbuckle (35), the lower end of the turnbuckle (35) is fixedly connected with an upper hoisting piece (36), and the lower end of the upper hoisting piece (36) is fixedly connected with a lower hoisting piece (37).

2. A strawberry waterfall planting structure as claimed in claim 1, wherein: a steel wire rope passing groove (341) is formed in the rotary steel pipe (31), and one end of the steel wire rope (34) is located in the steel wire rope passing groove (341);

and a steel wire rope lock catch (342) is arranged on the steel wire rope through groove (341), and the size of the steel wire rope lock catch (342) is larger than that of the steel wire rope through groove (341).

3. A strawberry waterfall planting structure as claimed in claim 1, wherein: cultivation subassembly (3) still include cultivation groove (38) and support steel pipe (39), hoist and mount under (37) inside fixed mounting have cultivation groove (38), the recess that corresponds each other has been seted up to the bottom of cultivation groove (38) and hoist and mount under (37), support steel pipe (39) and install in the recess.

4. A strawberry waterfall planting structure as claimed in claim 1, wherein: the bottom of the lower part (37) of the hoisting piece is fixedly connected with a drain pipe (384).

5. A strawberry waterfall planting structure as claimed in claim 3, wherein: two irrigation pipelines (382) are arranged in the cultivation tank (38).

6. A strawberry waterfall planting structure as claimed in claim 1, wherein: fixedly connected with hoists down on the hoist and mount piece (36) down (37), there is the back hook design of downwarping hoist and mount piece (37) outer edge portion down, hoist and mount piece is last (36) fixed connection in hoist and mount piece down (37) back hook, and upper and lower extreme respectively sets up a crotch on turnbuckle (35), upper end fixed connection in wire rope (34), lower extreme fixed connection is on hoist and mount piece (36).

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