Laboratory intelligent plant growth box

NegotiableUpdate on 02/11

Model

Nature of the Manufacturer: Producers

Product Category

Place of Origin

Online Consult

Overview

The temperature inside the intelligent plant growth box in the laboratory is regulated through a heating or cooling system. Temperature has a direct impact on plant growth, and different plants have different temperature requirements for growth. By monitoring the temperature and adjusting the heating or cooling system according to the set value, the appropriate temperature range is maintained to promote plant growth.

Product Details

Laboratory intelligent plant growth boxIt is a device that artificially controls the environment to provide ideal growth conditions for cultivating and promoting plant growth. It simulates factors such as light, temperature, humidity, and gas concentration in the natural environment, providing suitable living conditions for plants and achieving efficient plant growth and yield increase.

1. Lighting principle: Special fluorescent lamps or LED lamps are generally used as light sources, whose spectral range and intensity can fully meet the needs of plant growth. The intensity, photoperiod, and quality of light have a significant impact on the growth and development of plants. Therefore, it is necessary to meet the growth needs of different plants by adjusting the parameters of the light source reasonably.

2. Temperature control principle: The internal temperature is regulated through heating or cooling systems. Temperature has a direct impact on plant growth, and different plants have different temperature requirements for growth. By monitoring the temperature and adjusting the heating or cooling system according to the set value, the appropriate temperature range is maintained to promote plant growth.

3. Principle of humidity regulation: The internal humidity also plays an important role in the growth of plants. Plants have different humidity requirements at different stages of growth. By increasing or decreasing humidity, the moisture content in the air is controlled to provide a suitable humidity environment for plants.

4. Principle of CO2 concentration control: Carbon dioxide is an important raw material for photosynthesis in plants, and higher CO2 concentrations can promote plant growth. Therefore, the concentration of carbon dioxide is usually controlled by spraying or releasing it to meet the demand of plants for CO2.

5. Principle of water and nutrient regulation: Water and nutrients are provided to plants through water supply systems and nutrient solution supply systems to meet their growth needs. Usually, functions such as timed water supply and timed fertilization are added to ensure the normal growth and development of plants.

Laboratory intelligent plant growth boxApplication field

Scientific research experiment

Plant Physiology: Study the effects of photoperiod and temperature on flowering time.

Genetics: Screening for stress tolerant genotypes, such as drought resistant and salt alkali resistant varieties.

Pathology: Simulate disease occurrence conditions and test disease resistance.

agricultural production

Breeding acceleration: By optimizing environmental parameters, shortening crop growth cycles, and improving breeding efficiency.

Off season cultivation: Producing high-value crops such as winter strawberries and summer leafy vegetables in non suitable seasons.

Commercial planting

Flower industry: Control flowering time to meet market demand during festivals.

Medicinal plants: medicinal herbs with stable content of active ingredients produced in a standardized manner.

Educational Science Popularization

School laboratory: Demonstrate the growth process of plants and cultivate students' interest in biology.

Science Popularization Venue: Showcasing the adaptability of plants to the environment and promoting ecological knowledge.