CN110583313A

CN110583313A - Automatic cyclic stereoscopic planting equipment

Info

Publication number: CN110583313A
Application number: CN201910978613.5A
Authority: CN
Inventors: 田佩洁; 田金洁
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-15
Filing date: 2019-10-15
Publication date: 2019-12-20

Abstract

An automatic circulating three-dimensional planting device relates to the technical field of crop planting devices and comprises a supporting frame, a sliding chute, a driving mechanism and a planting mechanism, wherein the supporting frame is arranged on a foundation base, and the sliding chute is fixed on the supporting frame; the sliding groove is of a groove-shaped structure forming a closed loop; the planting mechanism comprises a planting pipe, and plants are planted in the planting pipe; the driving mechanism drives the planting tube to circularly move along the sliding groove. Above-mentioned planting mechanism can be in actuating mechanism's promotion down cyclic motion, the utilization ratio in not only greatly increased space, and every row of plant can be shone to sunshine moreover, makes its balanced growth improve fruit vegetables quality.

Description

Automatic cyclic stereoscopic planting equipment

Technical Field

The invention relates to the technical field of crop planting equipment, in particular to stereoscopic planting equipment.

Background

The planting of crops provides necessary grains and fruits and vegetables for daily life of people, the utilization of the existing cultivated land is limited for pursuing benefit and yield along with the increasing development of economy, and meanwhile, the quality of agricultural products and the subsequent development of agricultural production are seriously influenced by excessive use of chemical fertilizers and pesticides on the land. The existing land resources capable of being developed and cultivated are extremely limited, and under the condition of the limitation, the greenhouse planting technology is vigorously developed by the nation for saving the land resources, so that the utilization rate of unit area soil is improved, high-quality organic vegetables and fruits can be produced, and the way is indicated for realizing agricultural sustainable development.

The existing greenhouse cultivation usually adopts a multilayer planting frame, a plurality of planting grooves or planting discs are vertically or trapezoidally distributed on the planting frame, fruits and vegetables are planted in the planting grooves or discs, the height of the planting frame is generally not more than 2 meters due to the need of manual planting and harvesting, and the utilization rate of space is low; and the lower planting groove has less lighting, which is not beneficial to the growth of the crops at the bottom layer.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide automatic circulating three-dimensional planting equipment, wherein a planting mechanism can circularly move under the pushing of a driving mechanism, the space utilization rate is increased by more than 10 times, and sunlight can commonly irradiate each row of plants, so that the plants can grow uniformly and the quality of fruits and vegetables is improved.

The technical problem of the invention is realized by the following technical scheme:

an automatic circulating three-dimensional planting device comprises a support frame, a sliding chute, a driving mechanism and a planting mechanism, wherein the support frame is arranged on a foundation base, and the sliding chute is fixed on the support frame; the sliding groove is of a groove-shaped structure forming a closed loop; the planting mechanism comprises a planting pipe, and plants are planted in the planting pipe; the driving mechanism drives the planting tube to circularly move along the sliding groove.

According to the automatic-circulation three-dimensional planting equipment, the driving mechanism comprises a motor, a shifting wheel and a push wheel, a plurality of push wheels are sequentially arranged in the sliding chute, the shifting wheel is arranged on one side of the sliding chute, and the shifting wheel and the push wheel are matched with each other; the push wheel is movably connected with the planting tube, and the motor drives the dial wheel to rotate to drive the push wheel and the planting tube to circularly move along the sliding groove.

According to the automatic-circulation three-dimensional planting equipment, the sliding grooves are of long circular annular structures, the number of the sliding grooves is two, and opening surfaces of the two sliding grooves are arranged oppositely; the motor synchronously drives two shifting wheels arranged in the two sliding chutes, and the shifting wheels drive the respective pushing wheels to synchronously move along the sliding chutes.

The automatic-circulation three-dimensional planting device further comprises a wheel shaft and a connecting hanging piece, wherein one end of the wheel shaft is arranged in the center of the push wheel, the other end of the wheel shaft extends outwards, and the end part of the wheel shaft is of a ring groove structure; the two push wheels corresponding to each other in the two sliding grooves are located on the same horizontal plane, the planting pipe is arranged between the two corresponding push wheels, two connecting hanging pieces are respectively fixed to two ends of the planting pipe, the top ends of the connecting hanging pieces are annular, and the connecting hanging pieces are matched with the annular grooves of the wheel shafts to form movable connection.

According to the automatic-circulation three-dimensional planting equipment, the planting pipe is of a hollow tubular structure with two closed ends, two drainage grooves are formed in two ends of the upper portion of the planting pipe respectively, a plurality of planting holes are formed between the two drainage grooves in the planting pipe, and one end of the bottom of the planting pipe is provided with the outflow hole; nutrient solution flows into the planting tube from the drainage groove at one end, flows out from the outflow hole at the other end, and enters the next-stage planting tube to form the flowing of the nutrient solution in the planting tube.

According to the automatic circulating stereoscopic planting equipment, the height of the sliding grooves is 6m-18m, and the distance between the two sliding grooves is 2m-5 m; the push wheel is a solid flat cylinder, the diameter of the push wheel is 90mm-120mm, and the thickness of the push wheel is 30mm-60 mm.

According to the automatic circulation three-dimensional planting equipment, two sets of three-dimensional planting equipment are axially arranged to form a group, and two sides of two adjacent sets of planting equipment are respectively provided with the operation channels.

By adopting the technical scheme, the three-dimensional space in the greenhouse can be fully utilized, the planting area of the greenhouse can be increased by more than 10 times compared with the planting area of the conventional vegetable greenhouse on the unit floor area, and an intensive, efficient and environment-friendly agricultural planting mode is realized. The poking wheel mechanism drives a plurality of rows of planting pipes to circularly move in the sliding groove, and plants on each layer of planting pipes can equally receive sunlight or light irradiation, so that photosynthesis is effectively carried out, uniform growth is realized, and the yield is improved. Because nutrient solution is used for culturing, the invasion of soil borne diseases and insect pests is prevented. The unique free circulation mode of the nutrient solution between the planting pipes well meets the requirement of flowing of the nutrient solution under the condition of not hindering the planting pipes to do annular movement. The above apparatus may be adapted for soilless or soil cultivation.

The novel use of the shifting wheel mechanism consisting of the shifting wheel and the pushing wheel as the rotating mechanism is more flexible and simpler than the transmission modes such as chain wheel transmission, gear transmission and the like, has the advantages of good transmission stability, accuracy and reliability, and can effectively avoid the situations such as jamming and the like. Meanwhile, the unique transmission mode of the device cannot be damaged in the using process, and the device is free from maintenance.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view A-A of the present invention;

FIG. 3 is a schematic structural view of the thumb wheel mechanism of the present invention;

FIG. 4 is a cross-sectional view B-B of the present invention;

FIG. 5 is a schematic view of the construction of the planting mechanism of the present invention;

fig. 6 is a schematic view of the side-by-side planting structure of the present invention.

The list of labels in the figure is: 1. the device comprises a support frame, 2, a sliding groove, 3, a motor, 4, a shifting wheel, 5, a pushing wheel, 6, a wheel shaft, 7, a connecting hanging piece, 8, a planting pipe, 9, a drainage groove, 10, a planting hole, 11, an outflow hole, 12, a pipeline, 13, an operation channel, 14, a cross brace, 15 and a liquid collecting disc.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the present invention comprises a support frame 1, a chute 2, a driving mechanism and a planting mechanism. The bottom of the support frame 1 is fixed on a foundation through embedded foundation bolts, and cross braces 14 are arranged at intervals on the support frame; the supporting frame is fixed with the sliding chute 2 and further stably supports the sliding chute through the cross brace 14. The sliding chute 2 is of an oblong closed annular structure, the middle of the vertically placed sliding chute is a vertical section, the upper end and the lower end of the vertically placed sliding chute are connected by arcs to form an arc section, and the vertical section and the arc section are in smooth transition. The spout adopts C shaped steel to make, the spout is relative two that set up, and the C shaped steel opening of two spouts faces mutually. The driving mechanism drives the planting mechanism to circularly move along the sliding groove. The height of the sliding chutes is 6m-18m, the width of the sliding chutes is 1m-1.5m, and the distance between the two sliding chutes is 2m-5 m.

As shown in fig. 3, the driving mechanism includes a motor 3, a thumb wheel 4 and a push wheel 5, wherein the thumb wheel and the push wheel are mutually matched to form a thumb wheel mechanism. A plurality of push wheels are sequentially and tightly arranged in the sliding grooves, and the push wheels corresponding to the positions in the two sliding grooves are on the same horizontal plane. The width in the sliding groove is slightly larger than the diameter of the push wheel, the thickness in the groove is slightly larger than the thickness of the push wheel, and each push wheel can move in the sliding groove without obstacles. The push wheel 5 is a solid flat cylinder or drum-shaped structure, the diameter of the push wheel is 90mm-120mm, the thickness of the push wheel is 30mm-60mm, and the push wheel is made of nylon and other plastic materials with light weight and good wear resistance. The thumb wheel 4 is arranged on the inner side of the sliding groove; 5-8 shifting teeth are distributed on the shifting wheel, and the circular arc shape of the shifting teeth is matched with the shape of the outer edge of the push wheel. The diameter of the thumb wheel is 210mm-300mm, and the thickness is 30mm-60 mm. The motor 3 is connected with the thumb wheel 4 through a speed reducer and a connecting rod, the connecting rod is simultaneously connected with two thumb wheels arranged in the two chutes, and the two thumb wheels synchronously drive the respective push wheels to move along the chutes.

In order to make the push wheel move in the sliding groove more smoothly, the poking wheel of one sliding groove can be two wheels which are arranged oppositely up and down and are respectively positioned at the inner side and the outer side of the sliding groove. The dial wheel arranged on the inner side is connected with the motor and is a driving wheel; the thumb wheel arranged on the outer side is a driven wheel. The two shifting wheels are mutually meshed to jointly push the push wheel to advance, so that hard friction caused by pushing of the single shifting wheel to the sliding groove is prevented. In another embodiment, a poking wheel serving as a driving wheel is arranged, and a row of balls are arranged on the inner side of a sliding groove at a position corresponding to the poking wheel, so that the poking wheel pokes the push wheel to move smoothly.

As shown in fig. 1 and 4, the planting mechanism comprises a planting pipe 8, a wheel shaft 6 and a connecting hanger 7, plants are planted in the planting pipe 8, and the planting pipe is movably connected with a push wheel 5 through the wheel shaft 6. The push wheels in the sliding grooves are provided with wheel shafts 6 at intervals, the wheel shafts are fixed in the centers of the push wheels, the other ends of the wheel shafts extend outwards, and the end parts of the wheel shafts are provided with annular groove structures. The distance between the wheel shafts can be 1-2 wheel pushing positions according to the size of the planted plants. The push wheels with the same positions in the two opposite sliding grooves are provided with corresponding wheel shafts, and the two corresponding wheel shafts are movably connected with planting tubes through connecting pendants 7. The planting tube is a hollow tubular structure with two closed ends, the length of the tube is 2m-5m, and the cross section of the planting tube can be circular, semicircular or trapezoidal. Two connecting pendants 7 are respectively fixed at two ends of the planting pipe, the top ends of the connecting pendants are annular, and the connecting pendants are movably connected with the annular groove structure of the wheel shaft.

As shown in fig. 4 and 5, the planting tube 8 is horizontally arranged, and two drainage grooves 9 are respectively formed at two ends of the upper part of the planting tube and used for adding and receiving nutrient solution flowing into the planting tube; a plurality of planting holes 10 are arranged between the two drainage grooves on the planting pipe, and vegetables, fruits and other plants are planted in the planting holes in a soilless manner; the bottom of one end of the planting pipe is provided with an outflow hole 11, the outflow holes of the adjacent planting pipes in one sliding chute are respectively positioned at the two ends of the respective planting pipe, so that the inflow port and the outflow port of each planting pipe are respectively positioned at the two ends of the planting pipe. The aperture of the outflow hole is fine, and the liquid can stably flow out; the position of discharge orifice is corresponding with the drainage groove, and the nutrient solution flows to the drainage inslot of next-level planting pipe through the discharge orifice in, makes the nutrient solution in the planting pipe be in the mobile state all the time, avoids rotten, and the oxygen content that improves the nutrient solution is favorable to vegetation.

Flow path of nutrient solution: nutrient solution is prepared in the nutrient solution pool, and is added into each planting pipe from the drainage groove 9 through a circulating pump and a pipeline 12. A plurality of planting pipes move along the spout under the effect of pushing away the wheel, and the nutrient solution in the last level planting pipe flows out from the discharge orifice, flows into the drainage groove of next level planting pipe, flows out from the discharge orifice that is located the other end of next level planting pipe again to realize the flow of nutrient solution in planting pipe. The middle upper part and the bottom part between the two chutes are respectively provided with a liquid collecting disc 15, nutrient solution which does not flow into the planting pipe is collected into the liquid collecting disc, and the nutrient solution in the liquid collecting disc is filtered and reflowed to the nutrient solution pool, so that a circulation closed loop of the nutrient solution is formed. The nutrient solution in each planting pipe can be kept in a flowing state, and the nutrient solution can be recycled, so that waste is avoided. When the nutrient solution in the planting pipe is insufficient, the nutrient solution is supplemented through the pipeline 12.

As shown in fig. 6, in order to further utilize space and integrate resources, two sets of stereoscopic planting devices of the present invention are arranged in a group along an axial direction, one set of planting devices shares one motor 3, the motor is arranged between the two sets of planting devices, and the motor drives two shifting wheels 4 on two sides to synchronously rotate through a speed reducer and a steering gear. An operation channel 13 is shared among four adjacent groups of planting equipment, so that the space can be further saved, and the utilization rate of unit area is improved. The direction of the operation channel is consistent with that of the planting pipe, so that an operator can conveniently move back and forth along the channel to operate. Because the planting pipe continuously rotates, an operator can complete the operation of inserting or harvesting the planting equipment on two sides only on the same operation plane, the operation is simple, and the labor intensity is reduced.

The working process of the present invention is further explained as follows:

installing equipment: and uniformly designing the modulus of the thumb wheel, the size and the number of the push wheels and the size of the sliding groove according to the scale of the expected production. The mounting support frame and the sliding groove are arranged, and an opening is formed in the top of the sliding groove and used for arranging the push wheels in the sliding groove. The push wheels with wheel shafts are arranged at intervals, the push wheels at corresponding positions in the two sliding grooves are at the same horizontal position, and the wheel shafts at corresponding positions are at the same horizontal position. The wheel shafts corresponding in position are hung with planting tubes which are evenly arranged along the sliding groove. The thumb wheel is installed and connected with driving equipment such as a motor.

Operation of the planting device: the motor is started, and the poking wheel rotates to drive the push wheel and the planting pipe to circularly move along the sliding groove. Preparing nutrient solution, and starting a circulating pump to add the nutrient solution into each planting pipe from the drainage groove. The planting vehicle moves back and forth on the operation channel, and seedlings are inserted into the planting holes of the planting pipes on the two sides; the planted planting pipes move upwards, the blank planting pipes are supplemented to the original positions, and planting is continued until all the planting pipes plant seedlings.

The planting pipes are continuously and circularly reciprocated, and nutrient solution flows in the planting pipes, so that each row of plants can receive the irradiation of sunlight and the nutrition and can uniformly grow.

Claims

1. An automatic circulating three-dimensional planting device is characterized by comprising a support frame (1), a sliding chute (2), a driving mechanism and a planting mechanism, wherein the support frame (1) is arranged on a foundation base, and the sliding chute (2) is fixed on the support frame; the sliding groove is of a groove-shaped structure forming a closed loop; the planting mechanism comprises a planting pipe (8) for planting plants in the planting pipe; the driving mechanism drives the planting tube to circularly move along the sliding groove.

2. The automatic cycle stereoscopic planting device according to claim 1, wherein the driving mechanism comprises a motor (3), a poking wheel (4) and a pushing wheel (5), a plurality of pushing wheels are sequentially arranged in the chute, the poking wheel is arranged at one side of the chute, and the poking wheel and the pushing wheels are matched with each other; the push wheel is movably connected with the planting tube, and the motor (3) drives the dial wheel (4) to rotate to drive the push wheel and the planting tube to circularly move along the sliding groove.

3. The automatic cycle stereoscopic planting apparatus according to claim 2, wherein the chutes (2) are oblong ring-shaped structures, and there are two chutes, and the opening surfaces of the two chutes are arranged oppositely; the motor synchronously drives two shifting wheels arranged in the two sliding chutes, and the shifting wheels drive the respective pushing wheels to synchronously move along the sliding chutes.

4. The automatic cycle stereoscopic planting device of claim 3, wherein the planting mechanism further comprises a wheel shaft (6) and a connecting hanging piece (7), one end of the wheel shaft (6) is arranged in the center of the push wheel, the other end of the wheel shaft extends outwards, and the end part of the wheel shaft is of a ring groove structure; the two push wheels corresponding to each other in the two sliding grooves are located on the same horizontal plane, a planting pipe (8) is arranged between the two corresponding push wheels, two connecting hanging pieces (7) are respectively fixed to two ends of the planting pipe, the top ends of the connecting hanging pieces are annular, and the connecting hanging pieces and the annular grooves of the wheel shafts are matched with each other to form movable connection.

5. The automatic-circulation stereoscopic planting device according to claim 3, wherein the planting tube (8) is a hollow tubular structure with two closed ends, two drainage grooves (9) are respectively formed in two ends of the upper part of the planting tube, a plurality of planting holes (10) are formed between the two drainage grooves on the planting tube, and an outflow hole (11) is formed in one end of the bottom of the planting tube; nutrient solution flows into the planting tube from the drainage groove at one end, flows out from the outflow hole at the other end, and enters the next-stage planting tube to form the flowing of the nutrient solution in the planting tube.

6. The automatic cycle stereoscopic planting apparatus according to claim 4, wherein the height of the chutes is 6m-18m, and the distance between two chutes is 2m-5 m; the push wheel is a solid flat cylinder, the diameter of the push wheel is 90mm-120mm, and the thickness of the push wheel is 30mm-60 mm.

7. The automatic cycle stereotactic planting device of any of claims 1-6, wherein two sets of stereotactic planting devices are axially arranged as a group, and two adjacent sets of planting devices are provided with an operating channel (13) on each side.