Product Introduction
The logistics-type seedbed (fully automatic seedbed) is a highly
integrated automated greenhouse planting system that achieves
efficient flow of potted plants throughout the greenhouse process
via intelligent rail transport. The system places plants uniformly
in modular seedbeds made of aluminum alloy. The seedbed structure
consists of aluminum alloy side panels, partitions, bottom cross
braces, and a sturdy chassis. Four sets of casters at the bottom
allow for smooth movement on dedicated guide rails.
The system achieves multi-directional transport through transverse
guide rails and longitudinal transfer channels at both ends of the
greenhouse. A pneumatic transfer device completes the longitudinal
scheduling of the seedbeds, forming a fully automated seedbed
transport system that runs through sowing, germination,
transplanting, maintenance, and finished product delivery. Whether
it's newly transplanted seedlings or potted plants ready for
market, the system enables rapid, efficient, and seamless movement
and management.
With automated rail transport at its core, the logistics-type
seedbed system can intelligently manage the seedling growth cycle.
By precisely controlling light, temperature, humidity, and water
and fertilizer supply, it significantly improves the space
utilization of the greenhouse while effectively reducing labor
costs. The system incorporates a flexible scheduling algorithm,
compatible with various production scenarios such as sowing,
germination, and transplanting. It can also collaborate with IoT
sensor terminals to form a data-driven smart planting process.
It is suitable for digital seedling factories, large-scale flower
planting bases, vertical leafy vegetable factories, and
high-value-added crop production. With a short investment return
cycle, this system is a crucial piece of equipment for modern
facility agriculture moving towards large-scale, intensive, and
unmanned operations.
Advantages:
- Water-saving and efficient, completely closed system circulation,
can achieve 90% utilization rate;
- Plants grow faster, and the seedling age can be one day earlier per
week than the traditional seedling method, improving the
utilization rate of facilities;
- Avoid the formation of water film on the leaf surface of the plant,
so that the leaves receive more light for photosynthesis, and
promote transpiration pull to absorb more nutrients from the roots;
- Stable root medium water vapor content to prevent capillary roots
from dying due to drought near the edge and bottom of the
container;
- Relative humidity is easy to control, keep the leaf surface dry,
and reduce the use of chemical drugs;
- No weeds grow under the planting bed, reducing fungal growth
because the planting bed is very dry; No weeds grow under the
planting bed, reducing fungal growth because the planting bed is
very dry;
