Advanced & Latest Technolgy Involved
In Our Paddy Transplanter
Join us in our journey to a Grow a Better farm
Paddy Transplanter SHM-4R
The Paddy Transplanter SHM-4R is an innovative agricultural machine designed to streamline the rice planting process. As rice remains a staple food for billions worldwide, efficient transplanting methods are crucial for meeting the growing demand. The SHN-4R stands out as a reliable solution for modern rice farmers.
Features
- Capacity : Typically designed to transplant several rows of seedlings simultaneously, which improves efficiency and reduces labor costs.
- Engine : Equipped with a reliable engine that provides sufficient power for various terrains.
- Row Adjustment : Allows for adjustment of row spacing to accommodate different planting requirements.
- Fuel Efficiency : Generally built for efficient fuel consumption, making it cost-effective for large-scale operations.
Benefits
- Increased Productivity : Significantly reduces the time and labor required for transplanting compared to manual methods.
- Uniformity : Promotes even spacing and planting depth, leading to better crop yields.
- Versatility : Suitable for various rice planting conditions and can be used in different soil types.
Paddy Transplanter SHM-6R
The Paddy Transplanter SHM-6R is a cutting-edge agricultural machine designed to optimize the transplanting process of rice seedlings. With advancements in technology and engineering,this transplanter offers significant benefits to farmers, making it a crucial tool in modern rice cultivation.
Features
- 6-Row Capacity : Designed to transplant six rows simultaneously, increasing efficiency and reducing labor costs.
- Powerful Engine : Equipped with a robust engine that ensures reliable performance across different terrains.
- Adjustable Row Spacing : Allows operators to customize row spacing based on specific crop requirements.
- User-Friendly Controls : Simplified control layout for ease of operation, suitable for operators with varying skill levels.
Benefits
- Enhanced Productivity : Significantly reduces the time and effort required for transplanting compared to manual methods.
- Improved Crop Yield : Ensures consistent planting depth and spacing, which can lead to better overall crop health and yield.
- Cost-Effective : Reduces labor costs and time, making it an economical choice for larger farming operations.
Paddy Transplanter
Benefits
- Efficiency : Significantly reduces the time and labor required for transplanting compared to manual methods.
- Consistency : Ensures uniform spacing and depth, which can lead to better growth and yield.
- Reduced Labor : Less physical strain on workers and can often be operated by one person.
Features
- Design : Typically has two wheels for easy maneuvering and a handle for the operator to walk behind..
- Seedling Tray : Holds seedlings in trays that are inserted into the machine.
- Transplanting Mechanism : Uses a series of mechanical arms or fingers to pick up seedlings and transplant them into the soil at a specified depth and spacing.
- Adjustable Settings : Many models allow for adjustments in planting depth and spacing to suit different rice varieties and field conditions.
Product Demo Video
Product Details
Name | Walk behind paddy transplanter | ||
Type | SHN-4R | SHM-6R | |
Planting efficiency (hektare/hour) | 1.36-3.15 | 1.36-3.15 | |
Overall dimension | L(mm) | 2140 | 2370 |
W(mm) | 1590 | 1930 | |
H(mm) | 910 | 910 | |
Weight (kg) | 160 | 185 | |
Engine | Description | Air cooled OHV gasoline engine | Air cooled OHV gasoline engine |
Model | YAMAHA SPE175C | YAMAHA E175CY | |
Total exhaust capacity (cc) | 171 | 171 | |
Power/rpm | 4.5HP/3000 | 4.5HP/3000 | |
Fuel | Lead free gasoline | Lead free gasoline | |
Fuel tank capacity (L) | 4 | 4 | |
Starting method | Pull wire baack kick start/Botton start | Pull wire baack kick start/Botton start | |
Planting part | Number of plantng rows (rows) | 4 | 4 |
Planting row spacing (cm) | 30 | 30 | |
Plant spacing (cm) | 21,18,16,14,12 | 21,18,16,14,12 | |
Working speed | 0.122-2.77km/h | 0.28-0.77m/h | |
Working efficiency | 0.1-0.25hm²/h | 0.12-0.32hm²/h | |
Fuel consumption | 2.0-5.6kh/hm² | 2.0-5.6kh/hm² |