The feed pellet machine (also known as the pellet feed machine, feed granulator, or pellet feed forming machine) belongs to the category of feed granulation equipment. It is a feed processing machinery that utilizes raw materials such as corn, soybean meal, straw, grass, and rice husk. The raw materials are crushed and then directly compressed into pellets. Feed pellet machines are categorized into ring die feed pellet machines, flat die feed pellet machines, and twin-roller feed pellet machines. According to their purposes, they can be divided into small household pellet feeders, poultry feed pellet machines, small poultry pellet feeders, fish feed pellet machines, rabbit feed pellet machines, pig feed pellet machines, and straw feed pellet machines. Based on production, they can also be classified into straw feed pellet machines, wheat bran feed pellet machines, soybean meal feed pellet machines, corn straw feed pellet machines, and sawdust feed pellet machines. Various

structural composition The wood crusher is mainly composed of a base, a feeding port, a cutter head, a casing, cutting blades, and an electronic control system. Some large wood crushers are also equipped with a spiral discharge device and a fan. working principle The wood is fed into the crushing chamber through the inlet. When the wood contacts the cutting blades, it is cut as the crushing disc rotates at high speed. Some wood crushers also adopt a combined process of hammering and cutting, where the cut wood is struck and ground by the high-speed rotating hammer blades, and the final particle size of the output is controlled by a screen. Classification method Based on the working form, there are two types: fixed and mobile. Fixed wood crushers are suitable for operations in fixed locations, while mobile wood crushers can be flexibly moved and are applicable to scenarios in the

vast fields and bustling farms, material transportation is a crucial aspect that permeates the entire agricultural production process. From the field distribution of fertilizers and pesticides, to the harvesting and transportation of grains, fruits, and vegetables, and further to the centralized processing of straw and organic fertilizers, every link is inseparable from efficient transportation tools. Agricultural hydraulic dump trucks, with their unique hydraulic dumping design and strong adaptability, have gradually become an indispensable “capable assistant” in modern agricultural production, completely changing the dilemma of traditional agricultural transportation being “time-consuming, laborious, and inefficient”. The core advantage of agricultural hydraulic dump trucks stems from their scientifically and rationally designed structural composition. As the “foundation” of the vehicle, the chassis is constructed with high-strength steel, capable of not only bearing heavy loads but also adapting to complex road conditions such as potholes in fields and slopes in mountains, ensuring stability and safety during

In agricultural crop residue processing sites, wood processing workshops after forestry harvesting, or the preparation of firewood for farmers’ winter heating, transforming thick and sturdy wood and hard straw into small pieces of material that are easy to store, transport, and use was once a time-consuming and laborious physical task. The emergence of wood choppers has completely changed the traditional operation mode of “relying on axes and hammers”. With its core advantages of high efficiency, safety, and labor saving, it has become an indispensable “wood-breaking pioneer” in modern agricultural and forestry production, providing a convenient solution for the processing of various wooden materials. The efficient operational capability of the wood splitter stems from its scientifically rigorous structural design, with every component centered around the core requirement of “powerful wood breaking”. Firstly, the power system, which is divided into three types according to different usage scenarios: electric, diesel, and gasoline. Electric

In the nursery during spring, intelligent seeders precisely sow flower seedlings; in the orchard during midsummer, tracked pruning machines trim neat branches; in the vegetable garden during autumn, combined harvesters efficiently pick fresh vegetables; in the forest during winter, branch crushers convert dead branches into organic fertilizer… Nowadays, agricultural machinery equipment has become an indispensable “main force” in every production link of agricultural landscapes. This deep integration has not only completely changed the traditional agricultural landscape model of “relying on the weather and manual labor”, but also enabled agricultural landscapes, which possess production, ecological, and landscape values, to embark on a fast track of efficient, green, and large-scale development. Agricultural horticulture is not a single field; it encompasses diverse scenarios such as fruit and vegetable cultivation, nursery stock breeding, flower cultivation, and ecological hedge maintenance. It requires both the meticulousness of “intensive cultivation” and the efficiency of “batch operation”. The

Robots are deeply integrated into all aspects of agricultural production, becoming the core force driving the development of smart agriculture. They not only solve the problems of labor shortage and low efficiency in traditional agriculture, but also enhance the quality and yield of agricultural products through precision operations. The following will elaborate on the connection between robots and agriculture from three aspects: core application scenarios, technical support, and industry status and trends: Core application scenarios Field planting and management: These robots cover multiple key steps from sowing to field maintenance. For example, the cotton topping robot popularized in Xinjiang relies on binocular vision and AI algorithms to accurately locate the top of cotton plants, achieving an operational efficiency 50 times that of manual labor and capable of working 24 hours a day. The weed-killing robot in Germany uses GPS to locate weed areas and precisely sprays herbicides, avoiding pesticide waste