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Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
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240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic Reflector Quartz Heat Infrared Emitter Lamp 1. Principle of Quartz Infrared emitter lamps Quartz infrared emitter lamps utilize the high temperature generated by current passing through the filament to produce intense infrared radiation. These radiations have strong penetrating power, allowing them to directly heat the molecules inside the material. Infrared rays heat objects without direct contact, making the drying process faster. Compared to traditional heating methods (such as convection heating), infrared radiation directly transfers heat to both the surface and interior of the material, reducing energy loss and heat transfer time.         2. Advantages of Quartz Infrared emitter lamps Fast Heating and Energy Efficiency: Since infrared radiation directly heats the material, the transfer time is significantly shortened, reducing energy loss during the heating process. Additionally, infrared emitter lamps quickly reach the required temperature, eliminating the need for a preheating phase, thus improving production efficiency.   Uniform Heating: Quartz infrared emitter lamps provide even heat distribution across the entire conveyor width, ensuring that all products are exposed to the same level of heat, guaranteeing consistent heating for each product. This is crucial for improving drying quality and reducing product inconsistency. The flexible arrangement and design of the lamps allow operators to precisely control heat intensity and distribution, enabling fine-tuning of the drying process based on specific product needs.   Space Savings and Process Optimization: The compact design of quartz infrared emitter lamps allows for easy integration into various conveyor dryers, resulting in a more compact overall equipment design, which is easier to arrange and operate. Precise control of temperature and heat distribution also provides operators with flexible adjustment options to meet the needs of different products.    
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400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
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Infrared Heater Modules
Infrared Heating Bending Machine
Infrared Heating Bending Machine
Principle of Infrared Heating and Bending Infrared heating and bending is a process that uses infrared radiation to heat materials, making them pliable for bending. This technique is commonly applied to plastics, glass, and certain metals. Below is an explanation of its basic principles: 1. Principle of Infrared Heating Infrared radiation is a type of electromagnetic wave with a wavelength range of approximately 0.7 to 1000 microns. Infrared rays can rapidly heat the surface of materials as they are absorbed and converted into thermal energy. Infrared heating equipment emits specific wavelengths of infrared radiation, typically optimized for the absorption characteristics of the material. During heating, the infrared energy penetrates the material's surface layer and conducts inward, achieving uniform heating. 2. Softening the Material by Heating When materials are heated to a certain temperature, their molecular structure becomes more flexible or fluid. For example: Thermoplastics: Become soft above their glass transition temperature. Glass: Becomes pliable above its softening point (typically between 700°C and 800°C). Metals: Certain metals exhibit increased plasticity near their recrystallization temperature. 3. Bending and Forming Once the material reaches the appropriate softening temperature, mechanical force or molds are used to bend the material into the desired shape. After bending, the material is cooled and solidified, retaining the formed shape. 4. Advantages of Infrared Heating and Bending High efficiency: Infrared heating is fast and energy-saving. Uniform heating: Reduces internal stress in the material. Non-contact heating: Avoids contamination or mechanical damage to the material surface. High flexibility: Suitable for various materials and complex shapes. 5. Applications Plastic processing: Used to create signboards, transparent covers, or decorative items. Glass industry: Bending glass for architecture, furniture, or automotive applications. Electronics industry: Precision forming of circuit boards or optical components. If you need more detailed technical information or equipment recommendations, feel free to provide additional requirements, and I’d be happy to assist!
Integrated Industrial Drying Infrared Heater With Twin Tube Quartz Infrared Lamp
Integrated Industrial Drying Infrared Heater With Twin Tube Quartz Infrared Lamp
Infrared quartz lamps have special heating advantages compared to traditional heat sources, such as hot air, ceramic heaters, gas heaters or metal heaters. Infrared quartz heating lamps can deliver large amounts of radiation energy directly to heated objects, and the emit wavelength can be precisely matched to materials absorb, and the heating length and shapes are custom design. It has the following advantages:   Infrared radiation does not need to contact the product and does not require the intermediate medium to transfer heat. Under the sunlight, the sunshine side is warm but the sunless side is cold. This is not due to temperature differences, but radiation heating, the heat energy of electromagnetic waves (infrared radiation) from the sun that is transferred to objects. The sun is the source of heating energy, so the infrared quartz lamps are the heating source for industrial heating process.     Infrared quartz lamps can be precisely matched to the heated material, that is, effectively absorbed by the material. Different objects different matched IR radiation wavelength-IR lamp Short wave (0.9~1.4μm), Fast response medium wave (1.4~2.0μm), Carbon medium wave (2.0~4.0μm), Medium wave (2.2~4.0μm).     Fast response time, adjustable output heat power. Short wave and fast medium wave IR heat lamps have 1~2 seconds fast response time to full power IR heating energy. The output heat power can be adjusted in percentages, so we can have accurate(±1 ℃) IR heating temperature in our machine or drying oven. It can heat the material partially or completely, control the heating area, and control the heating time. Compared with hot air or gas heating, this means less energy consumption, faster heating speed and better heating efficiency.   For a successful heating process, it is important to select a suitable infrared lamp with wavelength, shape and heating power match the product being heated. Precise matching ensures that infrared radiation is quickly converted into heat in the product without transferring unnecessary heat to the surroundings, saving time and money.
6KW Quartz Infrared Heater For Rubber Roller Drying
6KW Quartz Infrared Heater For Rubber Roller Drying
Many customers' coating machines use outdated heating methods due to design limitations. These methods include thermal oil heating inside the rollers, milky quartz resistance heating tubes, stainless steel heating, or hot air heating. These traditional heating methods primarily rely on heat conduction, transferring their own temperature to the rollers, which then transfer the heat to the materials that need to be heated, such as textiles, tissues, or metal-coated workpieces. However, the heat conduction efficiency is relatively low, often resulting in the heated objects not reaching the required temperatures. Additionally, some coating machines lack heating devices altogether, and customers wish to add heating systems to improve production efficiency.       E-DEN Ligthing provides the following EDTL1 Quaartz infrared heaters for different specifications for your choices. If you cannot find your type, please contact us and we will custom design and produce infrared heaters to match your machines.   Direct Heating: Infrared radiation acts directly on the object, heating up quickly and avoiding the heat loss associated with intermediate mediums. High Thermal Conversion Efficiency: Infrared heating has a high thermal conversion efficiency, effectively saving energy. Space-Saving: Infrared heaters occupy minimal space, making them suitable for equipment with limited space. Flexible Customization: Heating power and length can be customized according to the equipment size, meeting the needs of different customers.   Infrared Heater Heater element Heater Voltage Heater Power Heater Length Heater Width Heater Height Heater Cover Cables Connection EDTL1 Twin Tube IR Lamp 1pcs 230V 1kw-3kw 500mm 80mm 45mm Yes/No One side 230V 1.5kw-3kw 800mm 80mm 45mm Yes/No One side 400V 2kw-6kw 900mm 80mm 45mm Yes/No One side 230V 1.5kw-6kw 1000mm 80mm 45mm Yes/No Two sides 400V 2kw-6kw 1000mm 80mm 45mm Yes/No One side 400V 3kw-5kw 1100mm 80mm 45mm Yes/No Two sides 230V 1.5kw-6kw 1200mm 80mm 45mm Yes/No One side 380V 2.5kw-7kw 1300mm 100mm 55mm Yes/No One side 400V 6kw-10kw 1500mm 100mm 55mm Yes/No Two sides 480V 4kw-7kw 1600mm 100mm 55mm Yes/No One side 480V 4kw-10kw 1700mm 100mm 55mm Yes/No Two sides 400V 6kw-12kw 1800mm 100mm 55mm Yes/No Two sides    
12KW Customized Infrared Heater For Tissue Industry
12KW Customized Infrared Heater For Tissue Industry
Quartz Infrared Heaters are high-efficient, energy-saving and customized design for industry drying. We can design the IR heaters for roller drying to match your heating temperature, and the heating temperature will be adjusted by SCR power regulator with infrared sensors.  Infrared quartz heaters have insulated stainless steel shell and fast heating gold reflector IR heat lamps. When infrared heaters are put powr on, the infrared heat lamps reach high temperature in a short time as a light source and emit out lots of infrared rays through quartz IR heater, meanwhile, surrounding objects will absorb these amounts of infrared rays directly from our quartz IR heaters and be heated very fast.  Fast response medium wave IR heat lamp can be switched on/off the same as shortwave IR heat lamps in a short time, and the range of IR radiation wave is 1.4-2.0μm. The especial fast medium wave ir heat lamp can heat the surface and thin layers quickly. Fast medium wave heat IR lamps can be made in single tube with sizes of 10mm, 11mm, 12mm, 14mm, 15mm, 19mm. The reflector designed lamps are special for directionally heated products and long lamps for long heated materials.          Single tube fast medium wave infrared heating lamp can dry ink and coatings on the surface of objects in a short time. The heating filaments can be desinged and work in 1200~1800℃, so the FMW quartz IR lamps are widely used for fast heating application which needs heating temperature from 50~500℃.   1. Accurate(±1 ℃)IR heating temperature control 2. 1~2 seconds fast response time to full power IR heating energy 3. Small installation space, flexible in horizontal or vertical working position   FMW quartz IR lamps have above main advantages and are popular for industrial customers to repalce air heating and other high energy consumption electric heating elements, or customers prefer a combination heating solutions which includes circle hot air heating with fast efficient IR heatings.           We are customized IR lamp manufacturer and we have the following shortwave single infrared lamps for your reference. If you need single tube heat IR lamps with other specifications, please refer the attached technical drawing and contact us for confirmation. 
34.5KW Industrial Drying Infrared Heater Module
34.5KW Industrial Drying Infrared Heater Module
Quartz Infrared Heaters are high-efficient, energy-saving and environmental protection.   Infrared quartz emitters are made of transparent quality quartz tubes and high temperature resistant alloy heating filaments. Quartz tubes as radiation body, when infrared emitters are working, the alloy heating filaments reach high temperature in a short time as a light source and emit out lots of infrared rays through quartz tube radiation body, meanwhile, surrounding objects will absorb these amounts of infrared rays directly from our quartz IR emitters and be heated very fast. Medium wave quartz infrared emitters are particularly suitable for the fast heating of surface or thin materials, and the range of IR radiation wavelength is 2.2-4.0μm. Meat, herbs, fruits, vegetables and other food in life, paints, plastics sheet or film, water and other solvents in industry, all of their drying processes can absorb well this medium wave infrared radiation. Because of its long working life and economic efficiency, medium wave infrared emitters are popular used in continuous and uniform heating processes and long drying machine or drying oven.  
1200 ℃ High-Temperature Infrared Heating oven
1200 ℃ High-Temperature Infrared Heating oven
Overview of Infrared Heating Oven: High temperature infrared heating oven is mainly used for thermal protection assessment of insulation coating materials. During its work, it heats one side of the thermal protection coating at a preset rate and measures the temperature rise of the other side to test the insulation performance of the insulation material. In this way, the thermal protection effect and grade parameters of the coating can be obtained, so as to accumulate experience for the subsequent protection coating research and development.     Customer Technical Requests: Test piece size: 60mmx60mmx10mm sheet or 100x100x10mm Test piece surface temperature: >1200℃ Continuous working time of equipment: 1h Heating rate: minimum 20℃/S, maximum 50℃/S Automatic recording of heating surface and back temperature of sample   Infrared Oven Parts: This infrared heating device mainly consists of five parts: infrared heating chamber, infrared radiation heating lamps, SCR temperature controller, temperature control unit and water cooling module.     1) Infrared Heating Chamber: The inner and outer structures of the infrared heating chamber are both square, which are mainly composed of furnace body, furnace door, furnace crucible, specimen fixing frame, observation window, furnace body fixing frame, infrared heating tube, manifold, protective cover, etc., as shown in the figure. The outer layer of the heating chamber is polished stainless steel plate, and the reflective part of the inner layer is mirror stainless steel plate. The furnace crucible is made of ceramic fiber cotton as raw material by vacuum forming technology, and the heating permanent line changes 1350℃*24h <-3% to meet the use requirements. An infrared thermometer fixing device is set on the outer layer of the heating chamber for convenient installation of temperature control and infrared thermometer. 2) Infrared Heating Lamps: Infrared radiation heating lamp is one of the most advanced, highest thermal efficiency and most energy-saving products of contemporary technology. Its matched wavelength infrared radiation has the remarkable characteristics of high intensity, high thermal efficiency, high penetration and low energy consumption. The thermal inertia of infrared radiation heating lamp is very small. After power-on, it can reach 50% of the rated power in 0.8 seconds, 80% of the rated power in about 1 second, and the rated power in about 2 seconds. The rapid heating and cooling. The infrared lamp is coated with directional reflection layer, which can greatly improve the thermal efficiency and reduce the temperature of the reflector. It also has the characteristics of small size, high power and long service life. A single 220V, 4KW, 520mm long and 12mm diameter white reflective tungsten heating lamp is selected for infrared radiation heating. Under standard working conditions, the service life of the lamp tube can reach more than 5000 hours, but the temperature of this equipment test has reached 1200℃, which is close to the highest critical temperature of the heating tube. Then the service life of the lamp tube will be greatly shortened, and more spare parts need to be added as inventory. Infrared radiation heating tube is made of glass. It should be handled lightly during installation and transportation, and bumping is prohibited. During transportation, the equipment should be disassembled and packed separately for proper transportation and storage. After arriving at the site, it can be installed and debugged. 3) SCR Power Controller:  Triac temperature control technology - High Efficiency, Energy Saving From economical analog trigger to powerful digital, with built-in menu, trigger, from wide space, maintenance easy chassis Triac to tightly packed integrated Triac power controller, all of high quality and finely polished in fabrication process. The Triac temperature controller from us applies the latest design concept and many new technologies. It has the advantages as follow. ☆ Integrated with fuzzy logic, PID controlling technology and modulated. It is self adjustable and self accommodation. ☆ 16-bit CPU is used in the digital circuit, fast and accurate. ☆ Optical-electrical shield is applied to minimize interferences, improves stability. ☆ The special Cycle change calculation and Point change calculation technology make power output changes smooth. ☆ Bright digital tube to display the output percentage, very intuitive. ☆ Different input signal acceptable (4~20mA、0~5V、1~10V). Could be manually adjustable. ☆ Can be toggle between AUTO-RUN AND MANUAL-RUN anytime while running. Its’ a non-disturbing switch over. ☆ Soft starting time adjustable, minimize the surge load of the power network. ☆ Alert on over temperature, over voltage and short circuit protection. ☆ Equipped with COM interface, simplifies remote control and so system networkable. ☆ No attendant auto run module. ☆Y, Y。and▲connection selectabl
2.5KW Plastics Laminating Quartz Heater IR Radiant Lamp
2.5KW Plastics Laminating Quartz Heater IR Radiant Lamp
Infrared heating technology is a revolutionary way to heat plastics for different objects' laminating. It is a cost-effective and efficient method for heating plastics that can be used in a variety of laminating applications. Infrared heating technology works by using infrared radiation to heat the plastic material. This radiation is emitted from a IR source, such as an infrared lamp, and is absorbed The advantages of using infrared heating lamps for plastics laminating include: 1. Faster heating times: Infrared heating lamps can heat plastics faster than traditional methods, the response time is 1-2 seconds to run full power with infrared energy, so the plastic films can be heated faster, 3-4mm thickness plastic film can be heated to 150-200 ℃ within 40 seconds. The traditional methods cannot achieve this heating temperature in a short time.  2. More uniform heating: Infrared heating lamps can be distributed evenly on the top and under the heated materials, or the two sides of plasics films. The seald ir lamps can always radiant stable infrared rays without outter affects, EDEN infrared lamps can provide more uniform heating than traditional methods, resulting in more consistent products.   3. Lower energy costs: Infrared heating lamps does not need intermediate medium to transfer heat, so there are not so much energy loss than traditional methods, quartz infrared lamps are more high efficency for industrial drying.   4. Safer: Infrared heating lamps are safer than traditional methods, as lamps does not produce any hazardous byproducts, especially greenhouse gases such as carbon dioxide.   5. More precise: Infrared heating lamps can be turned on and off frequently than traditional heat methods, the output power can be controlled and adjusted from 0-rated power, so we can set up the stable and precise heating temperature for heated laminating objects.    We are customized IR lamp manufacturer and we have the following laminating infrared lamps for your reference. If you need single tube IR lamps with other specifications, please contact us for free solutions. 1: Total length includes end ceramic caps 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector   
20KW Powerful Shortwave IR Heater For Coating Drying
20KW Powerful Shortwave IR Heater For Coating Drying
600mm×600mm Quartz Shortwave Infrared Heater/ IR heater/ Infrared Module Infrared Heating Lamp Voltage: 230V Power: 2600W Total length: 550mm Heat length: 450mm Tube diameter: 23×11mm Twin Tube IR Heat Lamp Heating Advantages of Infrared Quartz Lamps Short wave and medium wave infrared heating lamp    
30KW Film Laminating Medium Wave Infrared Quartz IR Heater
30KW Film Laminating Medium Wave Infrared Quartz IR Heater
Medium Wave 30KW 2400mm twin tube infrared heater for industrial film laminating Voltage: 380-400V Power: 30KW IR Energy: Medium wave Total length: 2400mm Heated length: 2300mm Reflector: Gold Type: Twin Tube     Medium wave quartz infrared heater lamp are particularly suitable for the fast heating of surface or thin materials, and the range of IR radiation wave is 2.2-4.0μm. Plastic film, water and other solvents absorb well this medium wave radiation. Because of its long working life and economical efficiency, medium wave infrared heaters are popular used in continuous heating processes and long heating tunnel or drying oven. We are customized IR emitters manufacturer and we have the following medium wave twin tube quartz heater infrared lamps for your reference. If you need medium wave IR heater lamp with other specifications, please contact for us for custom produce.       Medium Wave Quartz Infrared Heater Lamp For Food Drying Medium Wave Quartz Infrared Heating Element For Glass Heat Treatment Process
Efficiency-IR Heating Module
Efficiency-IR Heating Module
Quartz infrared heating module + Intelligent temperature control module = High-efficiency infrared heating module
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