Copper has long been recognized as an excellent conductor of electricity, and MC copper wire stands as a testament to its unrivaled performance. In this blog post, we will delve into the world of MC copper wire, exploring its characteristics, applications, and the numerous advantages it offers over other types of wiring.

MC Copper Wire:
MC stands for Metal-Clad, indicating that MC copper wire is made up of a copper conductor enveloped in a metallic shield. The metal-clad armor is typically constructed from aluminum or steel, providing an extra layer of protection to the copper conductor. This shielding serves to safeguard the wire from physical damage, moisture, and other environmental factors, ensuring its longevity and reliability.

Advantages of MC Copper Wire:
Enhanced Safety: The metal-clad armor of MC copper wire significantly enhances its safety features. The robust armor protects against physical damage, reducing the risk of short circuits, electrical shocks, and fire hazards. It also acts as a grounding conductor, providing an additional layer of protection against electrical faults.

Durability: MC copper wire is designed to withstand harsh conditions, making it suitable for both indoor and outdoor applications. Its rugged armor protects the copper conductor from mechanical stress, moisture, and chemical exposure, ensuring longevity and reliability even in demanding environments.

Flexibility and Ease of Installation: Despite its protective armor, MC copper wire remains flexible, making it easier to handle during installation. The armored casing simplifies the wiring process, eliminating the need for conduit or additional external protective measures. This not only saves time but also reduces overall installation costs.

Electrical Performance: Copper is renowned for its excellent electrical conductivity, and MC copper wire harnesses this property to deliver optimal performance. Its low resistance allows for efficient current flow, minimizing power loss and voltage drop, resulting in improved energy efficiency and cost savings.

Applications of MC Copper Wire:
Commercial Buildings: MC copper wire is extensively used in commercial buildings for a wide range of applications, including power distribution, lighting systems, HVAC systems, and fire alarm systems. Its superior safety features and durability make it ideal for demanding environments such as hospitals, schools, office buildings, and shopping centers.

Industrial Settings: In industrial settings, where electrical systems are subjected to heavy loads, MC copper wire excels due to its robust construction and exceptional performance. It is commonly utilized in factories, manufacturing plants, warehouses, and power plants for motor connections, control systems, and machinery wiring.

Residential Installations: MC copper wire is gaining popularity in residential construction as well. Its safety features and ease of installation make it an excellent choice for electrical wiring in homes, apartments, and condominiums. It is commonly used for branch circuits, outlets, lighting fixtures, and appliances.

Conclusion:
MC copper wire has revolutionized the field of electrical wiring with its unmatched safety features, durability, and performance. Whether it's powering a commercial building, an industrial facility, or a residential home, MC copper wire offers the reliability, efficiency, and peace of mind necessary for modern electrical systems.

Welcome to see enameled wires in LP Industry.

In the world of electrical engineering, innovations and advancements continually push the boundaries of what is possible. One such remarkable achievement is the 1.5mm x 3.5mm Fiber Glass Rectangular Aluminum Conductor Wire. This cutting-edge wire combines the versatility of aluminum with the strength and durability of fiber glass, opening up new possibilities in various applications. In this blog post, we will delve into the features, benefits, and potential applications of this remarkable wire.

Features and Construction:
The 1.5mm x 3.5mm Fiber Glass Rectangular Aluminum Conductor Wire is engineered to provide exceptional performance in a compact form factor. It consists of a rectangular aluminum conductor core, surrounded by a layer of fiber glass insulation. The dimensions of this wire, measuring 1.5mm in width and 3.5mm in height, make it highly suitable for applications where space is limited.

Aluminum Conductor:
The use of aluminum as the conductor offers several advantages. First and foremost, aluminum is an excellent conductor of electricity, comparable to copper. However, it is significantly lighter and less expensive, making it a cost-effective alternative. Additionally, aluminum exhibits excellent thermal conductivity, ensuring efficient heat dissipation in demanding applications.

Fiber Glass Insulation:
The fiber glass insulation layer provides exceptional electrical insulation properties. It effectively protects against short circuits and electrical leakage while maintaining reliable signal integrity. Fiber glass is also known for its high temperature resistance, making this wire suitable for use in environments with elevated operating temperatures.

Benefits and Advantages:
Space Efficiency:
The compact dimensions of the 1.5mm x 3.5mm Fiber Glass Rectangular Aluminum Conductor Wire make it ideal for applications where space is a constraint. Its slender form factor allows for efficient routing and installation, enabling engineers to design more compact and streamlined electrical systems.

Weight Savings:
Compared to copper wire, aluminum conductors significantly reduce the overall weight of electrical systems. This weight reduction can be particularly beneficial in industries such as aerospace, automotive, and transportation, where fuel efficiency and load capacity are critical considerations.

Cost-Effectiveness:
Aluminum is a more affordable material than copper, making the 1.5mm x 3.5mm Fiber Glass Rectangular Aluminum Conductor Wire a cost-effective solution for various applications. It enables engineers and designers to achieve high-performance electrical systems without compromising on quality or breaking the budget.

Potential Applications:
Automotive Industry:
The compact size and weight savings offered by this wire make it ideal for automotive applications. It can be used in wiring harnesses, sensors, actuators, and various electrical systems within vehicles. The enhanced thermal conductivity of aluminum also helps dissipate heat from high-power components.

Aerospace and Aviation:
In the aerospace industry, where weight reduction is of utmost importance, this wire can be used in aircraft wiring, avionics, and electrical systems. Its ability to withstand high temperatures and its electrical insulation properties make it a reliable choice for demanding environments.

Renewable Energy Systems:
The wire's efficiency, cost-effectiveness, and lightweight nature are valuable attributes for renewable energy applications. It can be utilized in solar panel installations, wind turbines, and energy storage systems, contributing to the overall efficiency and sustainability of these systems.

Industrial Automation:
In industrial automation and robotics, the wire's compact size and weight advantages are highly beneficial. It can be integrated into motor windings, control systems, and power distribution units, ensuring reliable and efficient operation.

Conclusion:
The 1.5mm x 3.5mm Fiber Glass Rectangular Aluminum Conductor Wire represents a significant advancement in electrical engineering. Its combination of aluminum conductor and fiber glass insulation offers a compelling solution for applications that demand space efficiency, weight savings, and cost-effectiveness. Whether it's automotive, aerospace, renewable energy, or industrial automation, this wire opens up new possibilities for engineers and designers to create efficient and reliable electrical systems. As technology continues to evolve, we can expect to see further innovations that push the boundaries of what's possible in electrical engineering.

Go to see other enameled wires in lp industry like the enameled square aluminum wire and enameled copper clad aluminum wire.

In the world of electrical engineering and manufacturing, there exists a wide range of materials and components that are crucial for the successful functioning of various devices and systems. One such indispensable component is the enameled copper wire, which forms the backbone of countless electrical applications. In this blog, we will shed light on the 0.025MM Class 155 Enameled Copper Wire, exploring its features, applications, and significance in today's technology-driven world.

Understanding Enameled Copper Wire:
[img]https://www.cnlp.cc/d/file/products/enameled-round-copper-wire-1.jpg[/img]
Enameled copper wire, also known as magnet wire, is an insulated wire made of copper or aluminum that is coated with a thin layer of enamel insulation. This insulation provides electrical insulation and protects the wire from external factors such as moisture, heat, and abrasion. Enameled copper wire is widely used in various electrical and electronic applications due to its excellent conductivity, thermal resistance, and durability.

Introducing the 0.025MM Class 155 Enameled Copper Wire:

The 0.025MM Class 155 enameled copper wire is a specific type of magnet wire that possesses unique characteristics and dimensions. The "0.025MM" refers to the diameter of the wire, which is incredibly thin, making it suitable for applications requiring intricate winding or space constraints. The "Class 155" indicates the thermal class rating of the wire, which signifies its ability to withstand high temperatures without compromising its electrical properties.

Features and Benefits:

Compact Size: The 0.025MM diameter of this enameled copper wire allows for compact winding, making it ideal for miniaturized electronic devices and intricate circuitry.

High Conductivity: Copper is renowned for its exceptional electrical conductivity, and this wire maintains that quality, ensuring efficient power transmission and minimal energy loss.

Thermal Resistance: The Class 155 rating certifies that this wire can withstand high temperatures, making it suitable for applications where heat dissipation is a concern.

Enhanced Insulation: The thin enamel coating on the wire provides reliable electrical insulation, protecting against short circuits and preventing current leakage.

Applications:

The 0.025MM Class 155 enameled copper wire finds applications in various industries and fields, including:

Electronics: This wire is commonly used in the production of transformers, inductors, solenoids, and other components of electronic devices.

Automotive: The compact size and excellent electrical properties of this wire make it valuable for automotive applications such as ignition coils, sensors, and electric motors.

Aerospace: In the aerospace industry, where weight and space constraints are critical, this wire serves in critical systems like avionics, actuators, and communication equipment.

Medical Devices: The precise winding capabilities and durability of this wire make it suitable for medical devices such as pacemakers, imaging equipment, and surgical instruments.

Renewable Energy: With the growing emphasis on sustainable energy sources, enameled copper wire plays a vital role in applications such as wind turbines, solar panels, and energy storage systems.

Conclusion:

The 0.025MM Class 155 enameled copper wire is a remarkable engineering marvel that contributes to the seamless functioning of numerous electrical and electronic devices. Its compact size, high conductivity, thermal resistance, and enhanced insulation properties make it an invaluable component in modern technology. Whether it's powering our everyday electronics, enabling renewable energy solutions, or aiding life-saving medical devices, this wire continues to revolutionize the way we live and innovate.

Insulation fiberglass winding wire is a type of electrical wire that is commonly used in applications where high-temperature resistance and electrical insulation properties are required. Some of the features of insulation fiberglass winding wire include:

High-temperature resistance: Insulation fiberglass winding wire is capable of withstanding high temperatures, making it suitable for use in high-heat applications.

Electrical insulation: The fiberglass insulation provides excellent electrical insulation properties, making it ideal for use in electrical applications.

Chemical resistance: The fiberglass insulation is resistant to many chemicals, which helps to protect the wire from corrosion and other forms of damage.

High mechanical strength: The fiberglass reinforcement provides the wire with high mechanical strength, making it more resistant to breakage and other forms of damage.

Lightweight: Fiberglass is a lightweight material, which makes the wire easy to handle and install.

Non-magnetic: Fiberglass is a non-magnetic material, which makes the wire suitable for use in applications where magnetic interference must be minimized.

Low dielectric constant: The fiberglass insulation has a low dielectric constant, which means that it does not store a significant amount of electrical charge and does not produce significant capacitive coupling.

Resistant to moisture: The fiberglass insulation is resistant to moisture, which helps to prevent electrical leakage and other forms of damage.

Insulation fiberglass winding wire is a type of electrical wire used in motors, transformers, and other electrical equipment. It is made by wrapping a copper wire with a layer of fiberglass insulation, which provides both electrical insulation and mechanical strength. This type of wire is commonly used in high-temperature applications, as it can withstand temperatures up to 200°C. The fiberglass insulation also provides good resistance to chemicals and moisture, making it ideal for use in harsh environments. Overall, insulation fiberglass winding wire is a reliable and durable choice for many electrical applications.

In the world of electrical engineering and electronics, innovation never rests. Every year, new materials and technologies emerge to address the demands of modern design and manufacturing. One such innovation that has garnered significant attention is the Thermal Class 220 Enamelled Copper Clad Aluminum (CCA) Wire. This remarkable wire combines the benefits of copper and aluminum, offering a versatile solution for a variety of applications.

Thermal Class 220 refers to the insulation material's ability to withstand higher temperatures without degradation, making it suitable for applications that involve elevated temperatures. Enamelled wires, commonly known as magnet wires, are copper or aluminum wires coated with a thin layer of insulation material, such as enamel, polyurethane, or polyester. Enamelled wires are widely used in motors, transformers, inductors, solenoids, and other electromagnetic devices.

Copper Clad Aluminum (CCA) Wire is a composite wire with a core of aluminum and an outer layer of copper. This combination harnesses the conductivity of copper while benefiting from the lightweight and cost-effective nature of aluminum. The insulation used in Thermal Class 220 Enamelled CCA Wire allows it to function optimally even at high temperatures, making it an attractive option for demanding applications.

Advantages of Thermal Class 220 Enamelled CCA Wire:

High Temperature Resistance: The primary advantage of Thermal Class 220 Enamelled CCA Wire is its ability to operate reliably at elevated temperatures. This makes it suitable for applications where conventional wires might face thermal stress or degradation.

Conductivity and Weight: By combining the conductive properties of copper with the lightweight nature of aluminum, CCA Wire strikes a balance between performance and cost-effectiveness. This makes it particularly useful in situations where weight reduction is crucial, such as aerospace and automotive applications.

Cost Savings: Copper is more expensive than aluminum, so using CCA Wire can lead to substantial cost savings without compromising too much on performance. This is especially valuable in large-scale manufacturing scenarios.

Corrosion Resistance: The copper layer on the outside of the wire provides excellent corrosion resistance, which is essential for applications in harsh environments or where exposure to moisture is a concern.

Electromagnetic Compatibility (EMC): Enamelled wires offer good insulation and shielding properties, aiding in minimizing electromagnetic interference (EMI) and ensuring electromagnetic compatibility in sensitive electronic systems.

Applications of Thermal Class 220 Enamelled CCA Wire:

Motors and Generators: Thermal Class 220 Enamelled CCA Wire finds extensive use in the winding of motors and generators, where it can withstand the heat generated during operation without sacrificing performance.

Transformers and Inductors: The high-temperature resistance and excellent electrical properties of CCA Wire make it a preferred choice for transformers and inductors, devices that play a crucial role in power distribution and conversion.

Automotive Industry: CCA Wire's lightweight nature is advantageous in the automotive industry, where reducing vehicle weight contributes to fuel efficiency. It's used in ignition systems, sensors, and various electrical components.

Aerospace and Defense: The combination of temperature resistance, weight reduction, and corrosion resistance makes Thermal Class 220 Enamelled CCA Wire suitable for aerospace and defense applications, where reliability and performance are paramount.

Renewable Energy Systems: As the demand for renewable energy sources grows, CCA Wire can be used in wind turbines, solar panels, and other renewable energy systems due to its ability to handle elevated temperatures.

In conclusion, Thermal Class 220 Enamelled Copper Clad Aluminum Wire represents a notable advancement in wire technology. Its unique combination of properties, including high-temperature resistance, conductivity, and cost-effectiveness, make it an attractive choice for various industries. As technology continues to evolve, innovations like these underscore the importance of adapting materials to meet the demands of the modern world. Whether in motors, transformers, automobiles, or renewable energy systems, Thermal Class 220 Enamelled CCA Wire is undoubtedly leaving its mark on the world of electrical engineering and electronics.

Refrigeration compressors play a crucial role in maintaining optimal temperature levels in various cooling systems, from household fridges to industrial refrigeration units. The efficiency and reliability of these compressors are directly linked to the quality of their components, including the type of wire used in their construction. One such wire that has gained popularity in the industry is Round Copper Wire with Temp Class 180. In this blog, we will delve into the benefits and applications of this remarkable wire in refrigeration compressors.

Understanding Round Copper Wire Temp Class 180
Round Copper Wire Temp Class 180 refers to copper wire with a thermal class rating of 180°C. The thermal class rating is a standardized system used to indicate the maximum allowable temperature that the wire can withstand during continuous operation without compromising its performance or longevity. Temp Class 180 wires are designed to withstand temperatures up to 180°C, making them suitable for demanding applications where exposure to high temperatures is common.

Advantages of Round Copper Wire Temp Class 180
High Temperature Tolerance: The primary advantage of Temp Class 180 copper wire is its ability to endure elevated temperatures without losing its electrical conductivity or structural integrity. This characteristic is particularly important in refrigeration compressors, where heat generated during operation can be significant. The wire's ability to handle high temperatures ensures the compressor operates efficiently and reliably.

Excellent Electrical Conductivity: Copper is renowned for its exceptional electrical conductivity, which ensures minimal energy loss during the transfer of electricity. In refrigeration compressors, this translates to higher efficiency and reduced power consumption, contributing to overall energy savings.

Enhanced Mechanical Properties: Temp Class 180 copper wire exhibits excellent mechanical properties, such as flexibility and resistance to bending and deformation. These properties make it easier to wind the wire into coils, which is a critical aspect of compressor construction. Moreover, its flexibility aids in accommodating the compressor's dynamic movements during operation, leading to improved durability and longevity.

Superior Thermal Conductivity: In addition to its electrical conductivity, copper also possesses excellent thermal conductivity. This feature allows the wire to dissipate heat efficiently, preventing excessive temperature buildup within the compressor. As a result, the risk of overheating and potential damage is significantly reduced.

Applications of Round Copper Wire Temp Class 180 in Refrigeration Compressors
Round Copper Wire Temp Class 180 finds extensive use in various types of refrigeration compressors, including:

Household Refrigerators: Modern household refrigerators rely on efficient compressors to maintain food freshness and cooling. Temp Class 180 copper wire ensures optimal compressor performance, leading to quieter operation and energy savings.

Commercial Refrigeration Units: From small convenience store coolers to large walk-in freezers, commercial refrigeration units benefit from the reliability and efficiency of Temp Class 180 copper wire.

Industrial Refrigeration Systems: Large-scale industrial refrigeration systems used in food processing plants, cold storage facilities, and chemical industries require robust compressors that can withstand demanding conditions. Temp Class 180 copper wire provides the necessary durability and thermal stability for such applications.

Conclusion
In conclusion, Round Copper Wire Temp Class 180 has emerged as a go-to choice for manufacturing refrigeration compressors due to its exceptional high-temperature tolerance, electrical conductivity, and mechanical properties. As the demand for energy-efficient and reliable refrigeration solutions continues to grow, this type of wire proves to be an essential component in enhancing the performance and longevity of refrigeration compressors across various industries. By embracing this technology, manufacturers and consumers alike can enjoy the benefits of efficient cooling systems while contributing to a sustainable future.

Welcome to see other magent copper wires like the copper foil and flat enameled copper wire.

Hello:

Enameled rectangular aluminum wire, also known as rectangular magnet wire, is a type of wire used in various electrical applications. It possesses certain core features that make it suitable for specific uses. Here are the main characteristics of enameled rectangular aluminum wire:

Shape: Unlike traditional round wire, this wire has a rectangular cross-section. The flattened shape allows for a more efficient use of space in certain applications, such as in high-power transformers and motors.

Aluminum conductor: The conductor material is aluminum, which is known for its lightweight and good electrical conductivity. Compared to copper wire, aluminum wire is generally less expensive and lighter, making it an attractive alternative for certain applications.

Enameled insulation: The wire is coated with a thin layer of enamel insulation, which provides electrical insulation between adjacent turns of the wire. This enamel coating is typically made of a polymer resin that can withstand high temperatures and prevent short-circuits.

Temperature rating: Enameled rectangular aluminum wire is designed to operate at various temperature classes, which define the maximum temperature the wire can safely handle without compromising its electrical properties. Common temperature classes include 130°C, 155°C, 180°C, and 200°C.

High breakdown voltage: The enamel insulation provides excellent electrical resistance, which allows the wire to withstand high voltages without breakdown or arcing.

Space-saving: The rectangular shape of the wire enables a more compact winding in certain applications, making it particularly useful in devices where space is limited, such as in motors and transformers.

Low weight: Aluminum is a lightweight material compared to copper, making enameled rectangular aluminum wire advantageous in applications where weight reduction is a priority.

Good thermal conductivity: Aluminum has decent thermal conductivity, which is beneficial for dissipating heat generated during the operation of electrical devices.

Corrosion resistance: Aluminum wire is generally more resistant to corrosion compared to copper wire, especially in certain environments.

Despite its advantages, enameled rectangular aluminum wire also has some limitations, such as a lower tensile strength compared to copper and the potential for a higher rate of thermal expansion. Therefore, the suitability of this type of wire depends on the specific requirements of the application and the trade-offs between different properties. It is essential to consider the intended use and environment before selecting the appropriate wire type.

Enameled wires are a type of insulated wire used in a wide range of industries, including the medical industry. These wires are specially designed to provide electrical insulation in high-temperature, high-voltage, and corrosive environments. They are made by coating a thin layer of insulation material, typically polyurethane, polyester, or polyamide, onto a metal wire.

In the medical industry, enameled wires like the insulation fiber glass winding wire are used in a variety of applications, ranging from diagnostic and monitoring equipment to surgical tools and implants. Here are some of the key applications of enameled wires in the medical industry:
[img]https://www.cnlp.cc/d/file/products/enameled-round-aluminum-wire-1.jpg[/img]
Medical Imaging: Enameled wires are used in medical imaging equipment such as MRI machines, X-ray machines, and ultrasound machines. The wires are used to carry electrical signals from the sensors to the imaging equipment, providing accurate and reliable readings.

Electrodes: Enameled wires are used to make electrodes for electrocardiogram (ECG), electromyogram (EMG), and electroencephalogram (EEG) tests. The wires are coated with a conductive material and placed on the skin to measure electrical activity in the body.

Surgical Tools: Enameled wires are used in surgical tools such as catheters, endoscopes, and laparoscopes. The wires are used to provide power to the tools, allowing surgeons to perform precise and minimally invasive procedures.

Implants: Enameled wires are used in medical implants such as pacemakers and neurostimulators. The wires are used to carry electrical signals from the device to the body, helping to regulate bodily functions.

One of the key advantages of enameled wires in the medical industry is their ability to provide reliable electrical insulation in harsh environments. The wires are able to withstand high temperatures, high voltages, and corrosive substances without degrading or breaking down. This makes them ideal for use in medical applications where accuracy and reliability are critical.

Another advantage of enameled wires like the Ultra-fine enameled rectangular copper wire is their flexibility. The wires can be made in a wide range of diameters and lengths, allowing them to be used in a variety of medical applications. They can also be easily shaped and bent to fit into tight spaces, making them ideal for use in surgical tools and implants.

In conclusion, enameled wires are an essential component in the medical industry, providing reliable electrical insulation in a variety of applications. From medical imaging equipment to surgical tools and implants, these wires play a critical role in ensuring accurate and reliable results. As technology continues to advance, we can expect to see even more innovative uses for enameled wires in the medical industry.

Polyvinylformal (PVF) is a type of enamel coating that is often used to insulate copper wire in electrical applications. PVF-coated wire is highly resistant to heat and abrasion, making it an ideal choice for a wide range of industrial and commercial applications. One of the most interesting applications of PVF-coated wire is in the form of Continuously Transposed Conductors (CTCs), which are used in high-efficiency electrical motors and generators.

CTCs are essentially a series of thin copper wires that are coated with enamel and then continuously transposed, or twisted, to create a single strand. This strand is then wound into a coil, which is used to create the stator or rotor in an electrical motor or generator. By continuously transposing the wires, the current flowing through the conductor is evenly distributed, which reduces the risk of hot spots and other forms of electrical stress that can lead to premature failure.

One of the key advantages of PVF-coated CTCs is their ability to withstand high temperatures. PVF has a melting point of around 120°C, which means that CTCs made from this material can operate in environments that would be too hot for other types of wire. This makes them ideal for use in applications such as electric cars, where the motor may reach temperatures of up to 200°C during operation.

Another advantage of PVF-coated CTCs is their high electrical efficiency. Because the wires are continuously transposed, the current flows through the conductor more evenly, which reduces resistance and minimizes energy loss. This makes them ideal for use in high-efficiency motors and generators, where every percentage point of efficiency can make a significant difference in overall performance.

Overall, PVF-coated CTCs are an excellent choice for a wide range of electrical applications. Their high temperature resistance, excellent electrical efficiency, and ability to withstand abrasion and other forms of physical stress make them ideal for use in electric cars, industrial equipment, and other demanding environments. If you're looking for a high-performance wire solution for your next project, consider using PVF-coated CTCs.

Class 180 enameled round copper wire is a type of magnet wire commonly used in electrical applications. The "Class 180" designation indicates that the wire is able to withstand temperatures of up to 180°C (356°F) without losing its electrical or mechanical properties. The term "enamel" refers to the insulation material that is applied to the wire to prevent it from shorting out when it is wound into coils.
Some of the key features of Class 180 enameled round copper wire include:

Good conductivity: Copper is an excellent conductor of electricity, which makes it ideal for use in electrical applications. The high conductivity of copper means that less energy is lost as heat when electricity flows through the wire.

Thermal stability: The Class 180 temperature rating means that this wire can operate at high temperatures without degrading its electrical or mechanical properties. This makes it suitable for use in applications where high temperatures are a concern.

Chemical resistance: The enamel insulation on the wire provides protection against chemical corrosion and other environmental factors that can damage the wire.

Durability: Copper wire is known for its durability and resistance to wear and tear, which makes it ideal for use in applications where the wire will be subjected to frequent use or stress.

Versatility: Class 180 enameled round copper wire can be used in a wide range of applications, including motors, transformers, generators, and other electrical devices.

Overall, Class 180 enameled round copper wire is a reliable and versatile material that is well-suited for use in a variety of electrical applications.

You can also go to see the enameled round aluminum wire and enameled flat aluminum wire.

Hello, everyone!
Benefit #1 of Using Copper Foil in Transformers:
Incomparable electrical conduction – This copper quality can’t be stressed enough. In fact, there is really no competition between copper’s conductivity and aluminum’s. Volume for volume the latter’s conductivity is less than 66 percent that of copper.
Benefit #2 of Using Copper Foil in Transformers:
Copper foil transformers are smaller than aluminum transformers. Copper may weigh more than aluminum, but it makes up for that heftiness with its remarkable ability to pack a lot of conductivity punch into tiny spaces. If a lightweight material is your sole determining factor, then aluminum might be a better choice. In all other cases, copper is superior.
Benefit #3 of Using Copper Foil in Transformers:
After comparing apples to apples, over time copper is very competitively priced. At first glance, aluminum looks like a more cost-effective transformer solution. And yes, its upfront price tag is lower. But as time goes by and the cost of each material is divided over its useful lifespan, copper actually wins out. Year for year, copper’s durable internal connections even give it an affordability edge. That’s because copper’s anti-corrosive properties allow it to endure for decades, in some cases up to 50 years or more. What’s more, in large transformers, the initial cash layout for copper versus aluminum is virtually the same.
Benefit #4 of Using Copper Foil in Transformers:
Copper boasts a higher reliability rating. Aluminum is prone to failure at a much higher rate than copper is.
Benefit #5 of Using Copper Foil in Transformers:
Less lamination steel is required. This is really an extension of the cost-saving benefit since steel is extremely pricey. Because copper transformers require a smaller core, they don’t necessitate as much laminating as aluminum does.
Benefit #6 of Using Copper Foil in Transformers:
Copper foil is easier to work with when it comes to manufacturing transformers. The diameter of copper conductors is much smaller than aluminum. As a result, the manufacturer can assemble and wrap them with far less complication involved than that entailed in aluminum assembly and wrapping.
Welcome to see the enameled rectangular copper wire and enameled round copper wire.

Enameled rectangular wire is a type of winding wire made by oxygen-free copper strip or electric aluminium strip drew or rolled by certain dimension molds/dies and then enameled for many times like the flat enameled copper wire. And enamelled flat copper wire is recognized for it's unique and beneficial qualities in electrical applications.

Application
1) 120 degree flat enameled wire for oil-immersed transformer
2) 130,155,180 degree flat enameled wire are widely used in all kinds of magnet coil
3) 200 degree flat enameled wire works constantly in high temperature
It is mainly used for transformer, electric motor, generator and other electric devices.

All in all, the enameled flat copper wire is hot in the market, and if you have demand for this--enameled copper wire, you can come to see Lanpu products.

If you don’t know the processing technology of aquatic floating feed, come to see the answer.

Aquatic feed can be roughly divided into four types in terms of its shape. The first is powdered feed, which, as its name suggests, belongs to a kind of powdered feed; the second is soft pellet feed, and the third is powdered feed. The first is hard pellet feed; the fourth is what we call extruded feed in this article.
Extruded extruded aquatic feed is a high-quality and environmentally friendly feed with low pollution, less waste, high efficiency and high conversion rate. The selection of kneaded and extruded feed is an important method to produce high-quality and safe animal products and ensure human health, and it is also the trend of future development of the feed industry. It is an inevitable trend for the development of the aquafeed industry with the theme of green environmental protection at present and even in the future. The editor will show you the characteristics of extruded aquatic feed and the application of kneading and extruding technology in the production of aquatic feed.
1. Principle of puffing processing skills
Extruded feed is to use the extrusion and shearing effect of the screw and screw sleeve in the extruder to heat up and pressurize the material, and extrude the high temperature and high pressure material out of the die hole, so that the volume expansion is completed due to sudden pressure reduction. great craftsmanship. Puffing can be divided into two processing methods: dry and wet. Dry puffing does not need to add moisture to the raw material. The raw materials have not been quenched and tempered before entering the puffing chamber. The shear plate and the inner wall of the puffing cavity occur. The structure of the wet extruder is more complex than that of the dry extruder. The raw materials have been conditioned and tempered before entering the extruding chamber to improve the degree of aging. Assist heating or cooling.
The typical puffing process is: send the pulverized and mixed materials to the conditioner to give certain moisture and temperature. The quenched and tempered mixed material is sent to the puffing bin, and the material passes through different areas under the advancement of the high-speed rotating screw. Because of the friction, the temperature and pressure of the material gradually increase, and the pressure control lock between the areas further regulates the pressure. Extrusion temperature, pressure reaches the mold at the conical spiral outlet of the extruder head, the temperature of the material rises to 135-160°C, and the pressure is 15-40 atmospheres. At this time, although the temperature of the water is higher than 100°C, the pressure is also much higher. At one atmosphere pressure, the onset of the jubilant phenomenon was avoided. When the material enters the atmospheric pressure environment through the ring die hole, the pressure suddenly decreases, the steam escapes quickly, and then the material expands strongly.
At present, the more advanced wet puffing is attributed to the high-humidity, short-time puffing process, which is considered to be particularly suitable for processing plant protein, starch, and grain products widely used in animal feed, because it effectively destroys growth inhibitory factors during its processing. and kill harmful microorganisms in raw materials
Second, the characteristics of extruded aquatic feed
1. The feed has a long shelf life
Due to the drying treatment, the water content of the aquaculture extruded feed is lower, the particles are harder, the pulverization rate of the particles is reduced, and most of the microorganisms and fungi are killed during the extrusion process, so it has a longer shelf life and is convenient for storage and transportation. Go to see the fish feed making machine for production line.
2. Avoid spoilage of feed
Aquatic extruded feed is very stable in water, and generally does not dissolve within 2 hours (some as long as more than 10 hours), so it can avoid the dissolution and loss of nutrients in the feed and the sinking of the feed into the mud, and the residual bait can also be avoided. Simply pick it up and dry it, it can avoid the waste of feed to the maximum extent. According to the experiment, the general use of aquatic extruded feed can save about 10% of feed than powder or hard pellet feed.
3. Reduce water pollution
Aquatic extruded feed does not dissolve or sink in water, so it can avoid residual fermentation of feed in water, reduce the oxygen consumption of pollutants in water, and effectively reduce water pollution.
4. Avoid the onset of disease
The extruded feed can effectively kill harmful bacteria such as Escherichia coli, Salmonella, etc., and the extruded feed has strong water (oil) absorption, which can prevent the unclean feed from causing various digestive tract diseases.
5. It is convenient for farming
The extruded aquatic feed can be suspended on the water surface for a long time, and there is no need to set up a special feeding table when feeding, only a fixed point feeding is required. Fish need to come out of the water when feeding, can directly investigate the feeding status of the fish, adjust the feeding amount in time, and know the growth status and health status of the fish in time. It not only saves a lot of time, but also improves labor productivity.
And if you are interested in the fish feed machine, about the shipping, you can see the lima machine shipping.

In the process of pellet feed processing, the high pulverization rate not only affects the feed quality, but also increases the processing cost and affects the feed storage and transportation to a certain extent.  
Then it is necessary to control the rate of pulverization, the first is the determination of the rate of pulverization. Feed mills are generally after the completion of finished product packaging process or stacking sample determination, the detection result is intuitive reflect the pulverization rate of feed, but it does not do it for each working procedure link pulverization rate fluctuations reflect, it is recommended that to effectively monitor each process and to make prevention and control, the other recommended manufacturers need to determination of feed to transport to the farmers feeding before the pulverization rate,  It represents the final pulverization rate quality result.  

The following is the analysis of each process link:  
1, formula: due to the different varieties of feed formula, it makes its processing difficulty degree is different, generally speaking, crude protein, crude fat content is lower feed, its granulation processing is easy, on the contrary, crude protein, crude fat content is higher, it is not easy to shape after granulation, loose particles, high powder rate.  Comprehensive consideration of feed quality, formula is the premise, in the case of meeting the nutritional ratio should be considered as far as possible granulation difficulty.  In order to ensure the comprehensive quality.  

2.Crushing process:  Feed grinding particle size directly affect the quality of granulating, the smaller the particle, the greater the surface area of the unit weight material, granulation when the better bonding, granulation quality is higher, affect the quality of granulation, conversely but crushing particle size is too small to cause crushing process cost increases, some nutrients, how to choose according to the comprehensive quality requirements and cost control different material crushing granularity,  It is the key to lay a good foundation for granulation process.
 
Suggestion: Particle size of livestock and poultry feed powder before granulation: more than 16 mesh.  Particle size of aquatic feed powder before granulation: more than 40 mesh.  

You can see the flat die feed pellet machine and feed cooler machine will be used in the prduction line.

Come to see the article about the chicken feed.
1. It is not advisable to blindly add multivitamins and drugs. Some chicken farmers arbitrarily add various multivitamins to the feed while using the concentrated feed, and some add various drugs to the feed in order to prevent poultry diseases. In fact, the multi-vitamin in the concentrate has already met the growth needs of chickens, and adding multi-vitamin arbitrarily will easily cause the imbalance of multi-vitamin. Because the concentrate contains broad-spectrum and high-efficiency drugs, in the process of using the concentrate, do not arbitrarily add drugs to prevent drug poisoning.
2. do not change the concentrate suddenly. Although different manufacturers can produce chicken concentrates suitable for the same period, the structure and composition of the concentrates are not the same. If the concentrates are suddenly replaced, the growth of chickens may be hindered or egg production will decrease. Therefore, when it is necessary to replace the concentrated material, it should not be changed at one time. The proportion of new materials should be gradually increased, and the raw materials should be gradually reduced. The replacement process should be completed within 10-14 days. And you can also go to see the ring die chicken feed pellet machines.
3. A variety of concentrated materials should not be used at the same time. When using concentrates for chickens, do not mix concentrates from different brands or different chicken growth periods at the same time. Otherwise, the various indicators of the concentrated feed will not meet the needs of the chickens, resulting in problems such as reduced egg production and the occurrence of diseases.
4. The storage time after mixing the concentrate should not be too long. Some chicken farmers mix the concentrate and feed the chickens for about 10 days. Since the concentrate contains many vitamins, it is easy to decompose and deteriorate over time, and it is easy to cause vitamin deficiency in chickens. Therefore, the amount of mixed feed at a time should not exceed 7 days for chickens to eat, and the hot weather should not exceed 3 days.

Come to see the feed making machine for chicken in LIMA.

Folic acid is yellow or orange-yellow crystalline powder, odorless, tasteless, almost insoluble in cold water, with the increase of water temperature and in acidic or alkaline solution, its solubility increases, but the increase of temperature or the increase or decrease of pH , can make the titer of folic acid drop rapidly, especially in acidic solutions, the loss is faster. Folic acid can also be destroyed by ultraviolet rays, but it has good stability under dry and dark conditions. It can be stored in a sealed package in a cool and dry place for at least one year.


The stability of folic acid in premix and compound feed is poor. Mainly affected by light and water content, trace minerals sulfate, chloride and choline chloride with strong hygroscopicity have a great influence on the potency of folic acid. Therefore, try to avoid compatibility with these substances. In general, folic acid loses 5% to 10% in the production process of premix or dry powder compound feed, and loses 20% to 40% after one month of storage. And you can see the feed pellet machine.

The crushing, granulating and puffing of the feed will damage the folic acid more, and the loss rate is 10% to 50%. The loss of folic acid in the sterilization of canned feed increases with the increase of sterilization temperature and time, and the effect of temperature is greater than that of time, and the general loss rate is 45% to 55%. The high temperature sterilization of dry powder will destroy almost all the folic acid in the feed, and reducing the water content in the feed can reduce the loss rate of folic acid. Although the stability of the coated folic acid product is improved during the processing and storage of the feed, the loss is still very large during the extrusion and sterilization of the feed, especially autoclaving.

Come to see the poultry feed pellet production line.

Improper management will directly affect the physique and egg production of laying hens in the later stage.
To do a good job of feeding and management in the early stage, you must first understand the physiological characteristics of laying hens. We generally divide it into three stages, the brooding stage, the breeding stage, and the egg-laying stage. Do a good job in the early feeding and management, mainly in the brooding and breeding stages.
1. The brooding stage
1-6 weeks old is the brooding period of commercial laying hens. The digestive function of chicks is not perfect after hatching. The need for nutrients depends on two sources. One is to supply nutrient-rich and digestible, high-protein feed; the other is to rely on The nutrients provided by the yolk that are not fully absorbed in the chick's own abdomen. The brooding period is the period of the phylogeny of the chicks. The various tissues and organs of the chicks develop gradually from imperfect or non-functional functions. The chicks have poor resistance to various external stress factors and mainly rely on the protection of maternal antibodies. Diseases are highly susceptible to environmental influences, resulting in pathological phenomena and even death.
2. Breeding stage
7-18 weeks of age is the breeding period. The breeding period is the vigorous period of growth and development. The functions of each system of the body have basically been developed, so the absorbed nutrients are basically transformed into the growth of bones and muscles. With the growth of laying hens, their own The deposition ability of calcium substances will increase, and fat deposition will also increase. If the feed mix is improper, it will easily lead to obesity of the body, which will seriously affect the egg production and egg quality of the laying hens in the later stage. Lay the foundation for the long duration of the peak period and the high egg production rate.
At the same time, it should be noted that the breeding stage is a critical period for the growth of the body. In addition to ensuring the balance of nutrition in all aspects, it is necessary to timely transfer the group, timely change the laying hen feed, increase the light time, and create suitable temperature and humidity for the chickens. and comfortable environment.
3. Egg-laying stage
Due to the physiological characteristics of chickens during the laying period, the chickens have strong hormone secretion, strong reproductive system metabolism, light sensitivity, high nutrient metabolism rate, high production intensity and poor resistance. All kinds of stress should be reduced, the occurrence of unexpected events should be avoided as much as possible, and the peak period of egg production should be maintained for a longer time (12 months).
It is recommended to weigh the brooding and rearing stage once a week, and replace the feed of the next stage in time according to the weight standard. When the body weight reaches 1350 grams, it is necessary to increase the light.

Come to see the poultry feed production line which can help you if you have a chicken farm.

Do you have a poultry farm? If yes, you can come to see this article.

At present, the world’s livestock production is undergoing industrial restructuring, the development of the Ruminantia will be given greater attention; the changes in the diet of the residents require more beef, mutton and dairy products on the table. The development of Ruminantia farming and house raising of livestock requires sufficient feed pellets resources, among which the yield of crop straw is very popular, which is a great potential feed pellets resource for Ruminantia, as the nutrient content of crop straw is low, the effect of direct feeding is poor.

Alfalfa, known as “King of Herbage”, is a high-quality herb for all kinds of domestic animals，like cattle. It is widely cultivated and popular all over the world. Due to the characteristics of fresh alfalfa,cattle can not eat fresh or just-harvested alfalfa, which is a great restriction on the use of alfalfa. Fresh alfalfa juice contains about 70% ~ 80% , and the juice is rich in micronutrients, vitamins and free amino acids. The mixture of fresh alfalfa and crop straw is made into cattle feed pellets. On the one hand, the juice of alfalfa is fully utilized, on the other hand, the palatability of crop straw was improved, the density of straw feed was increased, the feed intake was increased, and the weight gain of cattle and sheep was improved. And you could see the ring die chicken feed pellet machine which can make the feed pellet.

Comparative Experiment of Testing the Effect of Cattle Feed Pellets
Some people have done the following contrast experiment to the effect of cattle feed pellets. The feed consists of corn straw powder, corn powder, cottonseed meal, wheat bran, fresh alfalfa, additives and so on. The control group sun-dried and crushed alfalfa and other feed together to form a powder. Come to see the chicken feed pellet machine which can be used for cattle.

The feed of the test group was processed into pellet feed, and that of the control group was fed powder feed. The average daily dry feed of the two groups was 10.33 kg.

After 30 days of feeding, the cattle in the test group and the control group had no disease and grew normally. However, the cattle fed with pellet feed gained 4.32 kg more weight in 30 days than the control group, and the average daily gain was 134 g higher, or 9.52% higher. The feed conversion ratio of cattle feed with pellet feed was increased by 8.68% .
In addition, the time of common feed intake was determined to be 60 ~ 90 minutes each time, and the time of feeding pellet feed was 45 ~ 60 minutes. The time of feeding was reduced by 30% ~ 50% . It was also found that the cattle fed on pellet feed had a good appetite and a fast feeding speed, which indicated that the pellet feed had good palatability to animals.

So welcome to see our lima machinery.

Do you have a fish feed machine or poultry feed machine and do you know how to use them? Today through the article you can find how to use them correctly.

In order to make the complete set of pellet feed processing equipment operate normally, prolong its service life, reduce failures, and improve economic benefits, the author puts forward some opinions for reference.

1 Installation and commissioning of equipment

1.1 Before installation, check whether the dimensions of each installation foundation meet the requirements of the drawings according to the equipment plan and foundation plan. If there is any discrepancy, it should be repaired until the dimensions are correct before installation.

1.2 The installer should be familiar with the installation requirements of each equipment first, and carry out construction in strict accordance with the technical requirements.

1.3 The equipment may be deformed, damaged or lost during transportation, so before installation, check and accept the equipment against the detailed list of equipment, and take corresponding measures to make the equipment in good condition before installation.

1.4 Before entering the installation site, each equipment should be numbered, and the installation process card and schedule should be formulated. According to the requirements of the installation process sequence, the equipment should be transferred to the site for installation one by one.

1.5 Installation sequence: from top to bottom, first place the host equipment and the rack in place, and then install the connecting pipes and electrical equipment.

1.6 Tools required for installation: Equipment and village materials must be available.

1.7 After installation, each rotating part of the equipment must rotate flexibly, without jamming, bumping and impact sound, and each connecting part must be firm and sealed, and there must be no leakage of powder, air or oil.

1.8 The installation of electrical equipment should comply with the relevant national regulations, the direction of each line should be clear, and there should be no leakage or leakage of electricity. The wires and cables should have protective casings to prevent mice from being bitten.

1.9 After the installation of all the equipment, each single machine should be tested with empty car, and can be put into load test after normal operation.

1.10 Before the load test, the electronic batching scale and packing scale should be calibrated, and the specified accuracy is required.

1.11 After the load runs for 8 hours, it can be handed over to the manufacturer for production and use after there is no fault. Go to see the feed mixer machine and the feed dryer machine.

2 Operation and use

2.1 The equipment shall be checked by the on-duty personnel of each post before driving.

2.1.1 Whether foreign objects fall into the equipment; whether each rotating part is flexible, whether there is jamming or bumping; whether each connecting part is firm; whether there is powder leakage, air leakage, oil leakage, etc. If there is a fault, it should be eliminated in time.

2.1.2 Whether there is lubricating oil for each gear; whether the tension of the transmission belt is appropriate; whether the hammer of the pulverizer, the die and the roller of the granulator need to be replaced; whether the specifications of the screen meet the requirements.

2.2 The on-duty personnel in the control room should master the daily production schedule and the storage volume of main and auxiliary materials in order to schedule production.

2.3 Sequence of operations

2.3.1 Turn on the main power switch first, and then place each system switch to the working position.

2.3.2 Turn on the audio signal switch to notify the staff to enter the workplace.

2.3.3 After completing all the preparatory work, the on-duty personnel in the control room determine the entry number of each material, assign each three-way valve to each corresponding position, start the dust removal fan first, and then turn on the switches according to the processing sequence.

2.3.3.1 The starting sequence of the raw material system: dust removal fan→pulverizing elevator→horizontal conveyor→raw material pulverizer→cleaning screen→raw material elevator. If the raw material system is shut down, it should be carried out in the reverse process of its start-up.

2.3.3.2 The stop and start of the auxiliary material system is roughly the same as that of the original grain system.

2.3.3.3 Batching and mixing system: The system has two control modes: manual and automatic. Manual batching can be carried out according to the pre-specified formula and mixing time, while automatic computer is used for automatic weighing batching and mixing time and other control work.

2.3.3.4 Granulation system: operated and started by a special control cabinet.

2.4 The duty personnel in the control room should always pay attention to observe the various signal lights on the analog screen. If the batching warehouse sends out a signal of empty warehouse or full warehouse, they should notify the relevant feeding personnel in time to operate the warehouse gate.

2.5 The staff should call out and input the required material formula according to the production arrangement, and use the computer and its auxiliary devices to operate correctly.

2.6 When operating the feeding device of the pulverizer and granulator, it should be ensured that the main motor works under the rated current without clogging.

2.7 Various trace elements, vitamins, etc., are input in proportion from the additive feeding port of the mixer. The mixer mixes a batch of materials once, and the input time is given by the control room when each batch of materials is first mixed. Put in the signal, put in in time.

Welcome to see the fish feed floating machine in LIMA MACHINERY.

The main factors affecting the mixing uniformity of compound feed are: the mixer, the main physical properties of the material to be mixed, the filling amount of the mixer, the mixing time and the specific operating conditions.

1. The influence of mixer on mixing
In general, the mixer performance:
1. High mixing uniformity, no dead angle, less material residue;
2. The mixing time is short, the production efficiency is high, and it is matched with the whole unit (including connection and power matching);
3. The structure is simple and sturdy, the door switch is flexible, the operation is convenient, and it is convenient for testing, sampling and cleaning;
4. With suitable power matching, it can work normally under full load;
5. On the premise of ensuring the mixing quality, the energy consumption is low.

The models of mixers can be divided into many types according to different classification methods, mainly including horizontal, vertical, horizontal paddle, drum, left and right, planetary, rotating container, V, double cone, etc. There are two types of intermittent working type (batch type) and continuous working type. The product manufacturing level of different mixer manufacturers will definitely have advantages and disadvantages. When purchasing a mixer, you should choose a mixer with a higher manufacturing level according to your own production needs.

Different types of mixers have different mixing methods, and practice has proved that some mixing objects (materials) have the best mixing effect in a certain way, so it should be achieved according to different mixing objects and the mixing goals required by the producer itself ( effect) to choose different types of mixers.

It is difficult for the paddle mixer to mix the powder evenly, but when the feed needs to be added with molasses, and the addition amount is as high as 30%-40%, it is quite suitable to use this mixer for mixing; while the double cone The V-type mixer and the V-type mixer are more suitable for mixing materials with good fluidity and poor fluidity, respectively. If the particle size (thickness) between the mixed materials is close, a vertical mixer should be used, and when the particle size difference between the mixed materials is large, a horizontal mixer (and a rotary container mixer cannot be used) should be used; if If the residual amount is less, a horizontal or rotating container mixer should be used.

In addition, if the mixing requirements are high, the rotary container mixer should be used, but its production capacity is generally low; while the mixing effect is generally required, vertical, horizontal or continuous mixers can be used. production capacity is relatively high. So welcome to see the animal feed machine.

The level of mixing efficiency, the length of mixing time, and the speed of mixing are mainly determined by the model of the mixer and the manufacturing accuracy of the equipment itself. Generally speaking, the time required for uniform mixing in a horizontal mixer is relatively short, while that in a vertical mixer is longer. Of course, the length of the mixing time also depends on other factors such as the type of raw materials and their physical properties.

2. The influence of the main physical properties of the mixed materials on the mixing
The closer the main physical properties of the mixed materials, the smaller the separation tendency, the easier it is to be mixed uniformly, the better the mixing effect, and the shorter the time required to achieve uniform mixing. Physical properties mainly include particle size, shape, bulk density, surface roughness, flow characteristics, adhesion, moisture content, fat content, pH, etc. of the material. The material particles with high moisture content are easy to agglomerate or form agglomerates, and it is not easy to disperse uniformly, and the mixing effect is not satisfactory. Without affecting the required effect of the formula, if necessary, an appropriate amount of silica, precipitated calcium carbonate, etc. can be added, which is beneficial to improve the mixing effect.

Some additives in the feed need to be premixed with a carrier (or diluent) before being added to the mixer to make an additive premix, and then added to the mixer in a certain order to mix with other components. The particle size of the additives that need to be diluted is generally finer, so a carrier with a particle size and density close to it should be selected. Suitable carriers include commonly used feed ingredients, such as soybeans, wheat bran, defatted rice bran, etc. Generally, materials with fine particle size, no dust, and affinity for the active ingredients in the additive are selected as diluents (or carriers), which are suitable. The choice of neutral materials is conducive to maintaining the stability of vitamins and other active components.

3. The influence of the filling amount of the mixer on the mixing
The mixer mainly relies on three mixing methods of convection mixing, diffusion mixing and shear mixing to make the material move in the machine to achieve the purpose of mixing the material evenly. Important prerequisites for obtaining the desired effect. If the material is loaded too much, the mixer will be overloaded, and more importantly, the excessive amount of material will affect the circulation process of the material in the machine, resulting in a decrease in the mixing quality; if the material is too small, it will not be sufficient The efficiency of the mixer is used, energy is wasted, and it is not conducive to the flow of materials in the mixer, which affects the mixing quality.

Various types of feed mixers have their own reasonable filling coefficients. Their respective reasonable filling coefficients have been obtained in the laboratory and practice. Among them, the batch (intermittent) horizontal ribbon mixer has its filling coefficient Generally, 0.6-0.8 is appropriate, and the highest material position should not exceed the plane of the top of the rotor; the filling coefficient of batch vertical screw mixers is generally controlled at about 0.6-0.85; drum mixers are about 0.4; planetary mixers It is about 0.4-0.5; the rotary container mixer is about 0.3-0.5; the V-type mixer is about 0.1-0.3; the double-cone mixer is about 0.5-0.6. The filling coefficient of various continuous mixers is not the same, generally controlled at about 0.25-0.5, not more than 0.5.

4. Appropriate mixing time
In most compound feed production lines, the most commonly used mixers are basically batch type, and for batch type (batch type) mixers, there is also a problem of optimal mixing time. If the mixing time is too short, the material will be discharged without being fully mixed in the mixer, and the mixing quality will definitely not be guaranteed. However, it is not that the longer the mixing time, the better the mixing effect. Experiments have shown that any material with good fluidity and uneven particle size has a tendency to separate. If the mixing time is too long, the material will be excessively mixed in the mixer. It will cause separation, which also affects quality and increases energy consumption. Because in the mixing process of materials, mixing and separation are carried out at the same time. Once the mixing and separation reach a certain equilibrium state, the degree of mixing is already determined. Even if the mixing continues, the mixing effect cannot be improved. resulting in separation. The mixing time should be determined according to the combination of factors such as the model of the mixer and its manufacturing level, the physical properties of the material and the actual test results, which is not the same concept as the length of time required for the simple model itself. The mixer is used for a period of time, and various parameters may change, so it is necessary to check and test regularly, and adjust the time required for mixing correctly according to the inspection results.
5. Correct operation
For the production of additive premix, the stirring method should be gradually expanded from micro-mixing to small-volume mixing to medium-volume mixing and then to large-volume mixing. The correct order of adding materials should be: the components with large proportions are added first or most of them are added to the machine, and then a small amount and a small amount of components are added on top of it; among various materials, generally the components with large particle size are added. Add the mixer first, and then add the small particle size; when the specific gravity difference between the materials is large, generally add the material with a small specific gravity first, and then add the material with a large specific gravity.

For fixed container mixers, the mixer should be started first and then added to prevent the phenomenon of full load start-up, and it should be stopped after unloading; while the rotary container mixer should be started after feeding, first stopped, and then unloaded. For the V-type mixer, the materials should be fed from two feed ports respectively. Measures should be taken to minimize the influence of other factors on the mixing uniformity of the completed mixed materials: the mixed materials should be pressed into granules immediately, so that the various components of the materials can be fixed in the granules or directly packed in bags; avoid or minimize The transportation and drop of the mixed materials; the loading and unloading work after mixing should be minimized; the falling, rolling or sliding of the materials should be minimized; the storage bin after mixing should be as small as possible, and the conveying equipment after mixing should preferably be Belt conveyors.

In order to ensure the mixing quality, the running performance of the mixer should be checked regularly, lubricating oil is often added to the bearings and the joints of each movable shaft, and the wear parts should be repaired and replaced in time, and the optimal mixing time should be correctly determined according to the sampling inspection results of uniformity. Regularly check the operation of each switch, clean the sundries in the machine, remove the residual materials around the door switch, make the door switch flexible, and prevent the phenomenon of material leakage.

Any questions about the mixer machine, welcome to limapoultrymach contact.

1. Raise chickens without looking at the market
If the price of eggs is high, they will be raised more, and if the price of eggs is low, they will not be raised or raised less. In recent years, the market cycle has been difficult to grasp, resulting in the "invalidation" of old experience. According to the equipment conditions of the farm, the chicken flock should be reasonably turned around and the breeding plan should be formulated.
2. Do not ignore the breeding of chickens
It is wrong to think that the body weight and uniformity of the breeding chickens are not enough to catch up before the start of production. If the nutrient level of the feed is low at this stage, it will cause poor bone development, prolapse of the anus, low egg weight, and high mortality during the egg-laying period.
3. Don’t pay attention to feeding at the expected date of delivery
The transition from the breeding chicken feed to the laying hen feed too early or too late will lead to diarrhea in the first-born chickens, and even the phenomenon of paralyzed chickens, thin-skinned eggs, sand-preserved eggs, and soft-shelled eggs will increase. Pre-produced feed should be used from 16 weeks of age to 5% egg production.
4. Judging feed quality only from appearance
Just because the white stone particles in the feed are obvious, it is wrong to think that the feed is poor. Generally, the stone powder in the concentrated feed accounts for about 1/4 of the total amount, and 2/3 of the coarse stone powder and 1/3 of the fine stone powder in the egg-laying period is beneficial to calcium. absorb. Crude protein content is apparent, and the key depends on the essential amino acid content. With the same crude protein content but different raw materials, the absorption and utilization rate varies greatly. Hope you can see chicken feed pellet machine, and if you want to know more about shipping about this, you can see lima machine shipping.
5. Don’t pay attention to drinking water
Common trough water supply, the number of water additions is the same as the number of feedings; or sometimes the chickens are artificially limited in water due to thin manure when they are sick, which is tantamount to worsening the situation for the chickens. Lack of water seriously affects the digestion and absorption of other nutrients. Water is the cheapest among all nutrients, but it is also the source of life and must not be less. Generally, the water-material ratio is 5-6:1 in summer, and 2-3:1 in other seasons.
6. Abuse of antibiotics
Medication should be based on the principle of finding out the pathogen, first sulfonamides, then antibiotics, and first narrow-spectrum and then broad-spectrum. To prevent drug resistance due to "half dose" administration not reaching an effective bactericidal concentration in the blood. When there is a little effect in the treatment, the drug is stopped, and the residual bacteria cause the disease to recur, prolonging the course of the disease and increasing the cost of medication.
7. Incomplete analysis of costs
Farmers often only look at the surface unit price of feed and veterinary drugs and ignore the real cost of breeding. The survival rate, uniformity, feed, chicken seedlings, medicine, vaccines, water and electricity, fuel costs, etc. should be calculated at the stage of chicks and laying hens; the cost of eggs per kilogram should be calculated specifically for laying hens. Feeding high-priced feeds has high actual nutrient concentration, good egg weight, strong disease resistance, and good color and weight.
8. Don’t pay attention to the elimination of chickens
Implementing "humanitarianism" on inferior chickens, sick and weak chickens, and low-yielding chickens will only increase the chance of the spread of infectious diseases, become the fuse of the disease or eat chickens for nothing, and increase the cost.
9. Copy the epidemic prevention procedures bluntly
It is not wrong to prevent epidemics according to the requirements of chicken seedling manufacturers, but it is best to scientifically formulate epidemic prevention procedures based on the actual situation and the current local epidemic situation. Conditional best is based on the results of detecting antibody levels.
10. Focus on treatment and light on prevention
In recent years, the frequent occurrence of encephalomyelitis, renal bronchitis, egg drop syndrome and other diseases are related to the lack of comprehensive information sharing in villages and towns, and the abuse of drugs at the onset. As the saying goes: there is no income in epidemic prevention, more and less in management.

And questions, you can come to lima contact.