Plant cultivation method

A cultivation method and plant technology, applied in the field of gardens, can solve problems such as cumbersome operation, waste of water resources, and complex structure

Active Publication Date: 2017-09-19
杭州树联生态工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

There are two types of existing sprinkler irrigation and fertilization devices. One is low in intelligence, requires a lot of manpower and material resources, and has low efficiency. The other is high in intelligence, high in cost, complex in structure, high in maintenance cost, and cumbersome in operation.
Both have their pros and cons and are not suitable for widespread use
In the existing production, the waste of water resources is very serious, the lack of precise control of the amount of wat

Method used

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  • Plant cultivation method
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Examples

Experimental program
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Example Embodiment

[0129] Example 1

[0130] A plant cultivation method includes the following steps: tissue culture seedlings obtained by tissue culture are cultivated in an energy-saving greenhouse or an energy-saving planting greenhouse, wherein the tissue culture process includes explant collection, cleaning, disinfection, and explant inoculation , Subsequent cultivation, rooting cultivation and transplanting, the energy-saving greenhouse or energy-saving planting greenhouse includes a solar power generation system, a sprinkler irrigation system and a lighting system. The focus of the present invention is to improve the important gardening facilities used in various links on the basis of traditional cultivation methods, including explant cleaning and disinfection devices, solar power generation systems, LED lights and so on.

[0131] The explant cleaning and disinfection process adopts the explant cleaning and disinfection device, and the explant cleaning and disinfection device:

[0132] Such as ...

Example Embodiment

[0159] Example 2

[0160] The difference from Embodiment 1 is that the structure of the solar power generation system is different. The structure of the solar power generation system in this embodiment is as follows: Figure 6 ~ Figure 8 As shown, a solar power generation system includes a second power generation unit 31, a second control unit 32, and a second storage battery 33 that are sequentially connected. The solar power generation system further includes a second inverter 34 that is connected to the second control unit 32 and The second battery 33 is connected; the second power generating unit 31 receives sunlight to generate power, the second control unit 32 performs the overall control function, the second battery 33 plays a storage role, and the second inverter 34 converts direct current into alternating current.

[0161] The second power generation unit 31 includes two second vertical supports 35, the bottom ends of which are fixed on a building (such as the roof of a gre...

Example Embodiment

[0166] Example 3

[0167] The difference from Embodiment 1 is that the structure of the solar power generation system is different. The structure of the solar power generation system in this embodiment is as follows: Figure 9~Figure 11 As shown, a solar power generation system includes a third power generation unit, a third control unit, and a third battery that are sequentially connected, and the solar power generation system further includes a third inverter, which is respectively connected to the third control unit and the third battery; The third power generation unit receives sunlight to generate power, the third control unit completes the overall control function, the third battery plays a storage role, and the third inverter converts direct current into alternating current.

[0168] The third power generation unit includes four third vertical supports 46, the bottom ends of which are fixed on the building (greenhouse or planting greenhouse roof), and two parallel second seco...

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Abstract

The invention discloses a plant cultivation method which includes the step: cultivating tissue culture seedlings acquired by tissue culture in an energy-saving greenhouse or energy-saving planting greenhouse. A tissue culture process includes the steps: collection of explants; cleaning; disinfection; inoculation of the explants; subculture; rooting culture; transplant. The energy-saving greenhouse or energy-saving planting greenhouse comprises a solar power system, a spray irrigation system and a lighting system. According to the method, horticultural facilities applied in plant cultivation process are uniformly improved and comprise the solar power system, the lighting system, the spray irrigation system, a cleaning and disinfection device, a culture medium filling device and the like, wherein the cleaning and disinfection device and the culture medium filling device are used for the tissue culture process, the whole plant cultivation process is more complete by the aid of a series of improvements and combinations, working efficiency is improved, and each improvement is quite important.

Description

technical field [0001] The invention relates to the garden field, in particular to a plant cultivation method. Background technique [0002] Plant tissue culture refers to the cultivation of isolated plant organs, tissues, cells, embryos, and protoplasts on artificially prepared medium under sterile conditions, and appropriate culture conditions are given to induce callus, or latent Buds, etc., or grown into complete plants, are collectively referred to as plant tissue culture. Because it is cultured in a test tube, and the culture is separated from the plant mother, it is also called in vitro culture or test tube culture. Tissue culture technology can study the growth and differentiation of cultured parts without interference from other parts of the plant, and can use various culture conditions to affect their growth and differentiation to solve theoretical and production problems. It has effectively promoted the development and interpenetration of plant physiology, bioch...

Claims

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Application Information

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IPC IPC(8): A01H4/00A01G9/24A01G9/26A01G9/10
CPCA01G7/045A01G9/243A01G9/247A01G9/26A01G31/00A01G31/02A01G31/06A01H4/001A01H4/008F21S9/035F21V23/023F21V33/006F21Y2115/10H02S20/32Y02E10/50Y02P60/12Y02P60/14Y02P60/21Y02A40/25
Inventor 不公告发明人
Owner 杭州树联生态工程有限公司
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