Compines

(45 products available)

FILM FACED PLYWOOD 15MM

FILM FACED PLYWOOD 15MM

$339.00 - 399.00
Min. Order: 45 cubic meters
7 yrsVNSupplier
0.0/5.0·0 reviews
FILM FACED PLYWOOD 12MM

FILM FACED PLYWOOD 12MM

$339.00 - 399.00
Min. Order: 45 cubic meters
7 yrsVNSupplier
0.0/5.0·0 reviews
FILM FACED PLYWOOD 18MM

FILM FACED PLYWOOD 18MM

$339.00 - 399.00
Min. Order: 45 cubic meters
7 yrsVNSupplier
0.0/5.0·0 reviews
FILM FACED PLYWOOD

FILM FACED PLYWOOD

$339.00 - 399.00
Min. Order: 45 cubic meters
7 yrsVNSupplier
0.0/5.0·0 reviews

About compines

Types of combines

A combine, also called a harvesting combine or simply a harvester, is a piece of heavy agricultural machinery used for grain harvesting. It performs three separate tasks of reaping, threshing, and surprising simultaneously and combines them into a single process, hence the name 'combine.'

A harvesting combine is usually pulled by a tractor or self-propelled. Let us take a look at some common types of combines:

  • GNU Harvestor:

    A GNU harvester functions similarly to a conventional harvester, properly cutting cereal crops and railways. It is especially helpful in reaping crops for which it is designed. Therefore, utilizing a GNU harvester enhances productivity, reduces manual labor, and contributes to efficient agricultural practices.

  • Self-Propelled Combine:

    A self-propelled combine is a massive harvester that can be driven on its own. Additionally, they have a cab located above the center of the combine, thereby providing an excellent view of the field. Self-propelled combines also have computer technology that guides the operation of the machine. This self-driving ability gives the operator freedom to harvest large areas of crops without stopping to load or have their combine pulled by another vehicle.

  • Pull-type Combine:

    A pull-type combine is towed behind a tractor or powered agricultural vehicle. They are also referred to as trailer or towed combines. A typical pull-type combine has its own grain tank and can be connected to a tractor through a hitch and electrical connectors to engage its own drive system. Like self-propelled combines, they are also operated my manual input and computer technology. Pull-type combines are particularly suited for smaller farms or specific types of crops where maneuverability and versatility are essential.

  • Track Combine:

    A track combine is like meager and often have rubber tracks in place of traditional wheels. Track combines are able to efficiently harvest crops while tracking the ground and offering improved flotation, reduced soil compaction, and better traction. As a result, they thrive in diverse terrain and adverse conditions.

  • World's Largest Combine:

    The standard combine harvester is considered a smaller capacity when compared to the more massive models that efficiently harvest grain fields. One of the largest combine harvesters in the world is the CAT 797F, which has an extraordinary grain tank that can hold 700 bushels of grain and a 50-foot harvest width. When it comes to size and capacity, this combine sets outstanding records.

Specification and Maintenance of Compines

The specifications of the grain compine vary depending on the model and technology features. Knowing the specifications of grain compines is critical to sufficing the grain-threshing needs.

  • Engine Power: Engine power is typically expressed in horsepower (hp) or kilowatts (kw). Grain compines usually have an engine power of around 100 hp to 400 hp.Configuring a high-power engine can raise the threshing capacity, which can meet the demand for large-scale farming.
  • Fuel Consumption: Grain compines' fuel consumption is usually expressed in terms of fuel consumption per hour or per unit of processed grain. The fuel consumption of grain compines is about 10 liters to 30 liters per hour. Lower fuel consumption can reduce operating costs and improve economic efficiency.
  • Grain-Threshing Capacity: The grain-threshing ability of grain compines is usually expressed in terms of threshed grain per hour or per unit of processed grain. The grain-threshing capacity of grain compines is about 5 tons to 20 tons per hour. Higher-threshing capacity can meet the needs of large-scale farming.
  • Working Width: The working width of grain compines is usually measured in meters. The working width of grain compines is about 2 meters to 6 meters. A larger working width can improve the harvesting efficiency and reduce the number of harvesting passes. Moreover, some modern grain compines are equipped with GPS technology, enabling intelligent navigation and route planning. This feature can optimize the harvesting process and improve harvesting efficiency.

Maintaining grain compines is essential to ensure their efficient operation, high performance, and prolonged service life. Here are some maintenance tips for grain compines:

  • Grain compines should be cleaned regularly. It helps prevent the build-up of residue and dirt that can affect the performance and quality of the harvested grains. When running grain compines, the cleaned parts should be dried to prevent corrosion.
  • Grain combines' belts, chains, and blades should be checked regularly and adjusted as necessary. Ensure they are at the right tension and level for smooth and effective operation.
  • Grain combines should be lubricated as suggested by the manufacturer with the appropriate lubricants. Lubrication helps reduce parts' friction, abrasion, and noise, improving their service life.
  • Conduct regular inspections on grain combines, checking for loose, damaged, or malfunctioning parts. Any problems should be fixed promptly to prevent accidents and breakdowns.
  • Grain combines' engines and electrical systems should be maintained regularly. It includes changing the engine's oil, cleaning the air filter, and checking the electrical connections, among other things.

Scenarios of Compines

A tractor combine harvester has many uses in the farming, agriculture, and food processing industries. Its primary use is to harvest various crops efficiently and systematically. Here are some areas where combines are used:

  • Agricultural Harvesting:

    Combine harvesters are used in large-scale farming to harvest crops like barley, soy, wheat, rye, oats, and millet. They can harvest grains and pulse crops in diverse fields quickly, cutting down labor costs and harvesting time.

  • Specialty Crop Harvesting:

    While primarily designed for grain crops, some combines have attachments for harvesting specialty crops like canola, rice, corn, beans, sunflowers, legumes, mustard, lentils, safflower, chickpeas, and coriander. This includes having features that minimize damage to delicate specialty crops.

  • Forage and Grass Harvesting:

    Certain types of combines can also be used to harvest forage crops like silage, grass, and alfalfa. This is done by equipping the machine with the right header and processing components to chop and collect feed efficiently.

  • Vegetable Harvesting:

    Some combines are adapted to harvest certain vegetables like pumpkins and peas. This often requires specialization to separate the edible part of the vegetable from the rest of the plant properly.

  • Biomass and Energy Crop Harvesting:

    Combines can also be used to harvest biomass energy crops like switchgrass, miscanthus, and other dedicated energy crops grown for biofuel production.

  • Construction and Land Management:

    Combines can also be used outside the usual harvesting tasks for construction and land management. They can be used to clear and chop crop residues, vegetation, and cover crops for soil management. This helps improve soil health and manage land for future planting seasons.

How to choose wine combines

Wine industry stakeholders like manufacturers, retailers, and distributors should consider the following factors when choosing the wine combine for their needs:

  • Glass Strength

    Wine casks should be made of glass with an inherent strength that allows them to withstand significant air pressure generated by fermentation without breaking. The combine must have features that ensure ideal glass strength.

  • Capacity

    Combines of different capacities are available to accommodate varying vineyard sizes and wine production demands. When selecting a wine combine, wine producers should consider their vineyard size and wine production requirements to choose a combine that matches their capacity.

  • Dust Filtration

    The dust filtration system incorporated into a wine combine plays a crucial role in safeguarding the wine from undesirable contamination. This function assumes paramount importance when operating the combine in arid environments where vineyards may be situated. In regions characterized by limited precipitation and heightened atmospheric dust levels, the adoption of a combine equipped with efficient dust filtration becomes indispensable for preserving the purity and quality of the harvested grapes. By effectively filtering out dust particles prior to lodging the fruit into the combine's holding area, such as the hopper or bin, the risk of potential impurities compromising the final wine product is significantly mitigated. Consequently, selecting a properly dust-filtered wine combine proves vital to protecting the integrity of the wine-making process and ensuring only the finest grapes are processed.

  • Payload Monitoring

    It enables operators to monitor and control the weight of the harvested grapes or fruit loaded onto the combine. This is advantageous for efficient management, accurate tracking, and maintaining optimal processing conditions. By tracking the payload, operators can ensure that the combine is not overloaded, which could potentially impact its performance, crop quality, and overall efficiency.

    Combines with payload monitoring systems can provide valuable data on the weight of the harvested grapes or fruit, helping wine producers manage their processing operations effectively. This feature is essential for maintaining high wine quality standards and optimizing production efficiency.

  • Cleaning

    Washing facilities and cleaning requirements are crucial considerations when choosing a wine combine. Different combines may have varying setups for cleaning and maintaining hygiene during the harvesting process. Proper washing facilities and cleaning systems are essential to ensure the fruit harvested is clean and free of contaminants, which is vital for maintaining the quality of the wine.

    Wine combines with appropriate cleaning setups help remove dirt, debris, and other impurities from the harvested grapes or fruit, preventing potential quality issues in the final wine product. Adhering to proper cleaning protocols is essential for wine producers to uphold the highest standards of winemaking and ensure only pristine grapes are processed.

  • Dumping Method

    When selecting a wine combine, the dumping method refers to how the harvested grapes or fruit are either discharged or unloaded from the combine. Different combines may have particular dumping methods and systems, which can affect how the harvested produce is handled, processed, and incorporated into the winemaking workflow.

    Whether it's through tilting, sliding, conveying, or any other technique, the dumping method chosen on the wine combine can have an impact on the efficiency, precision, and care taken in dealing with the grapes or fruit. It is essential to select a wine combine with an appropriate dumping method that aligns with the winery's processing requirements and ensures a smooth and effective integration of the harvested raw materials into the subsequent winemaking stages.

  • Price

    The price of a wine combine can vary significantly depending on factors such as brand, model, capacity, features, and specifications. It's essential for potential buyers to consider their budget and overall investment in winemaking equipment while choosing a wine combine that meets their requirements.

Compine Q&A

Q1. What are the uses of farm tractors combi?

A1. The farm tractor combiner overlaps between two rows and picks up multiple swaths of the combined crop at one time. Rakes often follow these types of combiner tractors to spread remaining crops over a larger area so that they can dry faster. Other types of combiner tractors will gather crops into localized areas where they will be harvested using a different method.

Q2. What are the advantages of using a self-propelled hay combine?

A2. The method of harvesting that a self-propelled hay combine allows for has many benefits. Self-propelled combines are more efficient than pulled behind tractors or combines that require another method of propulsion. They are easier to steer and navigate around the field. Operators can route the combine by itself to the farmyard so that only the crop that is further along in the harvest can be brought to the farmyard, saving time.

Q3. What is the future development trend of farming combines?

A3. Intelligent and unmanned combination technology will be developed. An uncrewed intelligent combine was already explored by some manufacturers. Some uncrewed harvesters have already been incorporated with several intelligent techniques, such as the Global Positioning System (GPS), to realize unmanned automatic work.

Q4. How do combines contribute to sustainable agriculture?

A4. Modern combines are equipped with adjustable harvesting components that allow precise harvesting and reaping only mature crops while saving young crops. Additionally, many combines have separate grain and straw paths that lead to improved straw cutting and distribution. This results in a more rapid decomposition of straw and crop residue and reduced toxicity levels in the soil.

X