Rice Nursery Tray Making Machine is an innovative agricultural technology designed to address the challenges of large-scale rice cultivation and the detrimental effects on the ploughed soil. This production line focuses on the efficient production of rice nursery trays used for rice planting areas.
To combat the issues associated with ploughed soil destruction, the production line utilizes various agricultural and forestry waste materials such as straw, mushroom sputum, rice husk, and biogas residue. These waste materials are processed in a factory setting, undergoing a rapid maturation process. The resulting product is a nutrient-rich substrate that serves as a soilless seedling medium, incorporating a comprehensive set of nutrition and disease prevention measures.
By adopting the soilless seedling substrate, farmers can reduce their reliance on traditional ploughed soil, which is susceptible to damage and degradation. The substrate provides an alternative medium for cultivating rice seedlings, promoting healthier and more resilient plant growth. This technology offers a sustainable and environmentally friendly approach to rice production, optimizing resource utilization and minimizing the negative impacts on the plough layer.
SHM rice planting tray production line represents a significant advancement in agricultural practices, offering an innovative solution for large-scale rice cultivation while addressing the challenges associated with ploughed soil degradation.
Scientific research test platform
1. The integrated system has the characteristics of easy learning, easy use, easy maintenance and convenient installation, and can build a reliable and effective production / scientific research system in a short time.
2. It is applicable to customers who use the product for their own use, with less investment, low follow-up maintenance cost and large income. The integrated model does not need other infrastructure, such as slurry tank, plant, etc., which reduces other inputs of customers.
3. It is applicable to R & D projects, advanced control modes such as PLC control, color screen man-machine dialogue interface and touch operation. At the same time, it is also designed with manual control circuit design mode.
1. PLC control the forming machine with automatic high pressure cleaning mold device
2. All bearings in the production line adopt NSK brand bearings imported from Japan.
3. The sliding track uses ABB brand.
4. All electrical parts in the production line are based on the German Siemens brand.
5.Using the clean energy to dry products.
FACTORY CASE SHOW
In last year, we have set up two big capacity rice growing tray production line in China. Their capacity are 500 million pcs per year each one. This new molded pulp product is aimed at the large-scale excavation of cultivated layer soil for rice seedling cultivation, and the severe damage of the cultivated layer.
The agricultural and forestry wastes such as straw, mushroom fungus husk, rice husk, and biogas residue are rapidly matured through industrialization, giving a full set of nutrition, disease prevention, Weeding formula, made into a new brand-new "soilless seedling substrate". The "seedling substrate" can replace soil and is used for seedling and cultivation of rice and other crops. The project is of great significance for protecting cultivated soil, effectively using waste resources, improving crop planting methods, and reducing environmental pollution.
Why choose SHM?
SHM is a global supplier of high-quality molded fiber packaging production lines, we provide sustainable and innovative solutions for the food service and packaging market.
In 1989, the founder of the company Mr Chao started his work at pulp molding industry, and holds a number of pulp molding patents.
In 2007, SHM was established.
In 2014, SHM participated in the formulation of industry standards for pulp molding in China.
Automatic pulp molding equipment factory direct, SHM team pay great importance to quality;
Approvals from Top 5 USA packaging companies;
Have CE and ISO9001 certificates;
SHM owns 40+patents for fiber molded machines.
1. Engineering research and technical consultation;
3. Project Schedule;
4. Preparation of documents and drawings;
5. Training of maintenance and operation personnel;
6. Guide Assembly line installation;
7. Electrical and mechanical design;
8. System integration;
9. System test and handover;
10. One year of after-sales support;
11. Spare parts are included;
12. Installation within the scope of supply;
13 Operation support for the buyer’s factory;
14. System test after equipment delivery;
15. Documentation of assemble line.