CN212436306U

CN212436306U - Automatic production system of rice mechanical transplanting seedling raising plant

Info

Publication number: CN212436306U
Application number: CN202021750283.9U
Authority: CN
Inventors: 黄日辉; 潘秀勤
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-08-20
Filing date: 2020-08-20
Publication date: 2021-02-02
Anticipated expiration: 2030-08-20

Abstract

An automatic production system of a rice mechanical transplanting seedling raising factory is provided with a seeding area track, a seedling raising track, a seedling discharging common track and a seeding common track; a plurality of seedling raising rails are arranged between the seedling discharging common rail and the seeding common rail; two ends of the seedling raising track are respectively connected with the seedling discharging common track and the seeding common track through the connecting guide track and the automatic guide track; each seedling raising track is provided with a train type seedling raising platform capable of running in a remote control mode; two ends of the seeding area track are respectively connected with one end of the seedling discharging common track and one end of the seeding common track through the connecting track; a seeding area is arranged on the seeding area track, and a seedling taking area is arranged on the seedling discharging shared track. Laying culture soil for a seedling raising platform in a seeding area and seeding; after seeding, the train type seedling raising platform drives into a seedling raising track to raise seedlings; separating the seedlings from the seedling raising platform in the seedling taking area. The system has high automation degree and low labor intensity, and can obviously reduce the labor consumption.

Description

Automatic production system of rice mechanical transplanting seedling raising plant

Technical Field

The utility model relates to a technical field of rice seedling production specifically is a rice machine transplanting seedling sprout cultivation factory automated production system for scale sprout cultivation.

Background

China is a big country of rice production, the rice planting industry is labor-intensive agriculture, the labor intensity is high, and a large amount of labor is required to be invested for fine cultivation. The rice seedling raising is an important link in the rice production process. The traditional rice seedling raising mode adopts a distributed artificial seedling raising mode, the traditional mode has large labor amount and low efficiency, the seedling quality is difficult to ensure, the requirements of mechanized, standardized and socialized seedling raising services can not be met, and the rice planting benefit is low. With the rapid promotion of industrialization and urbanization, a great amount of green and strong rural labor is transferred to cities, so that the structural shortage of rural labor is caused, the contradiction between supply and demand for agricultural production is increasingly prominent, the enthusiasm of farmers for planting rice is low, and the phenomena of changing double-cropping rice into single-cropping rice and abandoned land generally exist. In order to reduce the labor intensity of farmers and improve the mechanization degree of grain planting of the farmers, the integrated application of the rice scale seedling raising quality improving and efficiency increasing technology and complete equipment takes industrial seedling raising as a starting point to realize the mechanization of the whole process of rice production, reduce the labor intensity, reduce the production cost, ensure the stable and high yield of rice crops and improve the radical guarantee of grain planting benefit.

At present, the seedling raising mode generally adopts a mode of placing a seedling tray in a greenhouse or an outdoor cement field or a seedling bed for seedling raising management after mechanical seeding and pregermination in a factory. Although the seeding process is mechanized, the transportation process of the seeding workshop and the seedling refining and raising field of the rice seedlings mostly depends on manual transportation, and the mechanized operation requirement is not realized, so that the labor intensity of workers is high, and the rice planting cost is high.

Disclosure of Invention

The utility model aims at providing a rice machine transplanting rice seedling sprout cultivation factory automated production system, this system degree of automation is high, low in labor strength can show and reduce artifical quantity.

In order to realize the purpose of the utility model, the technical scheme who takes is:

an automatic production system of a rice mechanical seedling transplanting and raising plant comprises a seeding area track, a seedling discharging common track and a seeding common track; a plurality of seedling raising rails are arranged between the seedling discharging common rail and the seeding common rail; the two ends of the seedling raising rails are respectively connected with the seedling discharging common rail and the seeding common rail through the connecting guide rail and the automatic guide rail, and the fixed guide rail can be directly adopted instead of the automatic guide rail except for the guide rail which is connected with the seedling discharging common rail and the seeding common rail and is far away from the side of the seeding area rail; each seedling raising track is provided with a train type seedling raising platform capable of running in a remote control mode; two ends of the seeding area track are respectively connected with one end of the seedling discharging common track and one end of the seeding common track through the connecting track; the seeding area is arranged on the track, when the seedling raising platform of the train type seedling raising platform runs to the seeding area, the automatic seeding device of the seeding area automatically lays culture soil on the seedling raising platform and seeds, after seeding is finished, the train type seedling raising platform runs to enter the corresponding seedling raising track to stop for seedling raising, and seedlings are raised on the seedling raising track. A seedling taking area is arranged on the seedling discharging common rail and is arranged between the seedling discharging common rail and the connecting rail; after the rice seedling is raised, controlling the train type rice seedling raising platform to move out of the rice seedling raising track, when a rice seedling raising platform of the train type rice seedling raising platform moves to a rice seedling taking area, automatically separating the rice seedlings on the rice seedling raising platform together with culture soil from the rice seedling raising platform by a rice seedling taking device of the rice seedling taking area, placing the rice seedlings together with the culture soil on the platform to be cut in blocks, cutting according to the specification of a rice transplanter type, and after cutting, conveying the rice seedlings to a rice seedling loading conveyor belt for loading operation for mechanical rice seedling transplanting; after the seedling is taken, the train type seedling raising platform runs into the seeding area track to perform a new round of seeding, and then runs into the corresponding seedling raising track to perform a new round of seedling raising. The seeding area track, the seedling discharging common track and the seeding common track are common tracks of the train type seedling raising platform on the plurality of seedling raising tracks. The device adopted by the seeding area can adopt a seeder and a feeder which are purchased in the market, and additional development is not needed. The automatic guide rail adopts an automatic rail transfer guide device of a train rail. The seedling taking device of the seedling taking area can adopt a mechanical arm, the mechanical arm separates the seedlings on the seedling raising platform together with the culture soil from the seedling raising platform, and the seedlings together with the culture soil are placed on the platform for cutting in blocks. The mechanical parts adopted by the technology can be obtained by purchasing, combining and installing the parts on the market, the structural shape is not limited, and only the purpose of using functions can be met, so that the parts are not listed.

Preferably: one side of the seeding area track is provided with a culture soil allocation area, a culture soil feeding area and a seed treatment area, and culture soil and seeds are provided for the seeding area. The work content of the seed treatment area is seed soaking, disinfection and pregermination; the culture soil allocation area is used for allocating and processing culture soil required by sowing for standby, and the culture soil feeding area is used for feeding the culture soil in the culture soil allocation area to the sowing area.

Preferably: the automatic fertilizer-water spraying device is arranged above or on the side surface of the seedling raising track, and the automatic fertilizer-water spraying device can automatically spray when the seedlings lack water and fertilizer.

Preferably: the upper part or the side surface of the seedling raising track is provided with an arched shed protection device, a nylon film is covered at low temperature in spring for heat preservation, and a non-woven fabric is covered in summer for moisture preservation or sun shading.

Preferably: the train type seedling raising platform is formed by connecting a plurality of seedling raising platforms, and the plurality of seedling raising platforms are driven to run by an electric locomotive; the lower part of the seedling raising platform is provided with a rail wheel, and the seedling raising platform is arranged on the rail through the rail wheel; one side of the track close to the seeding area of the previous seedling raising platform is connected with one side of the track close to the seeding area of the next seedling raising platform through a hinge device, and the other side of the track close to the seeding area of the next seedling raising platform is connected through a limiting cable. The limiting cable can not be overlong, and the limiting cable can meet the requirement of rail transfer during running of the train type seedling raising platform.

Preferably: the table surface of the seedling raising table is spherical or arc-surface-shaped, the middle of the table surface is high, the periphery of the table surface is low, water drainage is facilitated, and the center of the seedling raising table is 1-2 cm higher than the edge of the seedling raising table.

Preferably: the periphery of the seedling raising platform is provided with a coaming, the coaming on the side surface of the seedling raising platform is provided with a hinge, and the coaming can be turned up and down around the hinge, so that seedlings and culture soil can be conveniently taken out and separated from the seedling raising platform.

Preferably: the automatic production system of the rice machine-transplanted seedling raising factory is applied to raising seedlings of vegetables, melons and fruits or flowers. After the rice seedling raising task is completed, the automatic production of the whole plant cultivation process such as vegetable cultivation can be carried out by using the seedling raising platform, the facility expansion utilization is improved, and the economic benefit is increased.

Preferably: the curvature R1 of the connecting track and the curvature R2 of the connecting guide track are consistent with the width of the tracks, and the distance L between the curvature center O1 of the connecting track and the curvature center O2 of the connecting guide track at the end of the seedling-discharging common track is also equal to the width of the tracks. The train type seedling raising platform is arranged to turn to enter the seeding area track, and meanwhile, construction land is saved.

This automatic production system of rice machine transplanting rice seedling sprout cultivation factory's advantage:

1. this system architecture sets up ingeniously, the system sets up the seeding district track, many seedling growing seedlings track, go out seedling common track and seeding common track, the seeding district track, go out seedling common track and seeding common track be the public track of the train formula sprout cultivation platform on many seedling growing seedlings track, for the seeding of train formula sprout cultivation platform on the seeding district track, raise rice seedlings on seedling growing seedlings track, get the seedling on going out seedling common track, realize automated production, the whole production line only needs 2-3 technical worker, compare with present rice machine transplanting sprout cultivation factory, personnel reduce three fourths, the efficiency improves 10-12 times, and do not need traditional sprout cultivation dish, the numerous lock process of putting, the dish of collecting transportation of seedling dish has been avoided.

2. The automatic production system can be automatically controlled in the whole process, has high technical precision, ensures that the seedlings grow uniformly, is favorable for improving the quality and speed of mechanical seedling transplanting, and lays a good foundation for improving the yield of the field in unit area.

3. After the production automation system completes the rice seedling raising task, the seedling raising platform can be used for carrying out automatic production of vegetable and other plant cultivation, the facility expansion utilization is improved, and the economic benefit is increased.

Drawings

FIG. 1 is a schematic layout of an automated production system of a rice seedling mechanical transplanting and raising plant;

FIG. 2 is a schematic view of the connection structure of the seedling raising platform in FIG. 1;

FIG. 3 is a schematic structural view of a seedling raising platform;

FIG. 4 is a left side view of FIG. 3;

the part names of the sequence numbers in the figure are:

1. the device comprises a culture soil configuration area, a culture soil feeding area, a seed treatment area, a seeding area track, a connecting track, a seedling taking area, a connecting guide track, a seedling discharging common track, a power-driven locomotive, a train-type seedling raising platform, a seedling raising track, a fertilizer and water automatic spraying device, a seeding common track, a seedling raising rail, a seedling raising wheel, a seedling raising platform, a limiting cable, a hinge device, a coaming, a hinge device, a connecting guide rail.

Detailed Description

In order to make the technical scheme and advantages of the present application clearer, the following description clearly and completely describes the technical scheme of the automatic production system of the rice mechanical seedling raising plant with reference to the embodiments and the accompanying drawings.

Example 1

An automatic production system of a rice mechanical seedling transplanting and raising plant comprises a seeding area track 5, a seedling discharging common track 9 and a seeding common track 14; a plurality of seedling raising rails 12 are arranged between the seedling discharging common rail 9 and the sowing common rail 14;

the two ends of the seedling raising rails 12 are respectively connected with the seedling discharging common rail 9 and the seeding common rail 14 through the connecting guide rail 8 and the automatic guide rail 15, except that the guide rails of the seedling raising rails 12, the seedling discharging common rail 9 and the seeding common rail 14 far away from the seeding area rail 5 side can directly adopt fixed guide rails without adopting the automatic guide rails 8; each seedling raising track 12 is provided with a train type seedling raising platform 11 which can run remotely;

two ends of the seeding area track 5 are respectively connected with one end of the seedling discharging common track 9 and one end of the seeding common track 14 through the connecting track 6; the seeding area track 5 is provided with a seeding area 4, when a seedling raising platform 17 of the train type seedling raising platform 11 runs to the seeding area 4, an automatic seeding device of the seeding area 4 automatically lays culture soil on the seedling raising platform 17 and seeds, and after seeding is finished, the train type seedling raising platform 11 runs into a corresponding seedling raising track 12 and raises seedlings on the seedling raising track 12; a seedling taking area 7 is arranged between the seedling discharging common rail 9 and the connecting rail 6, after seedling raising is finished, the train type seedling raising platform 11 is controlled to move out of the seedling raising rail 12, when a seedling raising platform 17 of the train type seedling raising platform 11 moves to the seedling taking area 7, a seedling taking device of the seedling taking area 7 automatically separates seedlings on the seedling raising platform 17 and culture soil from the seedling raising platform 17, the seedlings together with the culture soil are placed on the platform to be cut in blocks, the seedlings are cut according to the specification of a seedling transplanting machine type, and after the seedlings are cut, the seedlings are sent to a seedling loading conveyor belt to be loaded for mechanical seedling transplanting; after the seedling taking is finished, the train type seedling raising platform 11 runs into the seeding area track 5 to perform a new round of seeding, and then runs into the corresponding seedling raising track 12 to perform a new round of seedling raising.

One side of the seeding area track 5 is provided with a culture soil allocation area 1, a culture soil feeding area 2 and a seed treatment area 3, and culture soil and seeds are provided for the seeding area 4. The work content of the seed treatment area 3 is seed soaking, disinfection and pregermination; the culture soil preparation area 1 is used for preparing culture soil for seeding, and the culture soil feeding area 2 is used for feeding the culture soil in the culture soil preparation area 1 to the seeding area 4.

The upper part or the side surface of the seedling raising track 12 is provided with an automatic fertilizer-water spraying device 13, and the seedlings automatically spray when water and fertilizer are deficient.

An arched shed protection device is arranged above or on the side face of the seedling raising track 12, a nylon film is covered at low temperature in spring for heat preservation, and a non-woven fabric is covered in summer for moisture preservation or sun shading.

Example 2

The train type seedling raising platform 11 is formed by connecting a plurality of seedling raising platforms 17, and the plurality of seedling raising platforms 17 are driven to run by the electric locomotive 10; the lower part of the seedling raising platform 17 is provided with a rail wheel 16, and the seedling raising platform 17 is arranged on a rail through the rail wheel 16; one side of the track 5 close to the seeding area of the previous seedling raising platform 17 is connected with one side of the track 5 close to the seeding area of the next seedling raising platform 17 through a hinge device 19, and the other side is connected through a limiting cable 18.

The table surface of the seedling raising table 17 is spherical or arc-surface-shaped, the middle of the table surface is high, the periphery of the table surface is low, water drainage is convenient, and the center of the seedling raising table 17 is 1-2 cm higher than the edge of the table surface.

The periphery of the seedling raising platform 17 is provided with a coaming 20, the coaming 20 on the side surface of the seedling raising platform 17 is provided with a hinge 21, and the coaming 20 can be turned up and down around the hinge 21, so that the seedlings and the culture soil can be conveniently taken out and separated from the seedling raising platform 17.

The above description is not intended to limit the present application, and the present application is not limited to the above examples, and those skilled in the art should understand that they can make various changes, modifications, additions or substitutions within the spirit and scope of the present application.

Claims

1. The utility model provides a rice machine transplanting rice seedling sprout cultivation factory automated production system which characterized in that: comprises a seeding area track (5), a seedling discharging common track (9) and a seeding common track (14); a plurality of seedling raising rails (12) are arranged between the seedling discharging common rail (9) and the sowing common rail (14); two ends of the seedling raising rails (12) are respectively connected with the seedling discharging common rail (9) and the seeding common rail (14) through the connecting guide rail (8) and the automatic guide rail (15); each seedling raising track (12) is provided with a train type seedling raising platform (11) capable of running in a remote control way; two ends of the seeding area track (5) are respectively connected with one end of the seedling discharging common track (9) and one end of the seeding common track (14) through the connecting track (6); a seeding area (4) is arranged on the seeding area track (5), and a seedling taking area (7) is arranged on the seedling discharging common track (9).

2. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 1, characterized in that: one side of the seeding area track (5) is provided with a culture soil configuration area (1), a culture soil feeding area (2) and a seed treatment area (3).

3. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 1, characterized in that: the automatic fertilizer-water spraying device (13) is arranged above or on the side surface of the seedling raising track (12), and the automatic spraying device can automatically spray when the seedlings lack water and fertilizer.

4. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 1, characterized in that: an arch shed protection device is arranged above or on the side surface of the seedling raising track (12).

5. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 1, characterized in that: the train type seedling raising platform (11) is formed by connecting a plurality of seedling raising platforms (17), and the plurality of seedling raising platforms (17) are driven to run by the electric locomotive (10); the lower part of the seedling raising platform (17) is provided with a track wheel (16), and the seedling raising platform (17) is arranged on the track through the track wheel (16); one side of the track (5) close to the seeding area of the previous seedling raising platform (17) is connected with one side of the track (5) close to the seeding area of the next seedling raising platform (17) through a hinge device (19), and the other side is connected through a limiting cable (18).

6. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 5, characterized in that: the table surface of the seedling raising table (17) is spherical or arc-surface-shaped with high middle and low periphery.

7. The automatic production system of the rice mechanical seedling transplanting and raising plant according to claim 5, characterized in that: the periphery of the seedling raising platform (17) is provided with a coaming (20), the coaming (20) on the side surface of the seedling raising platform (17) is provided with a hinge (21), and the coaming (20) can be turned up and down around the hinge (21).