List of Heating equipment/furnace products
- classification:Heating equipment/furnace
811~855 item / All 4537 items
We provide manufacturing technology for neutralization, esterification, sulfonation, phosphorylation, polycondensation reactions, powder mixing, emulsification, and dispersion, etc. *We can also handl...
- Contract manufacturing
Do you have any concerns about contract manufacturing of various chemical products?
We would like to introduce the contract manufacturing services provided by Riten Chemical Co., Ltd. We are a chemical manufacturer based in Kyoto with 70 years of experience. Since our establishment, we have been developing, manufacturing, and selling various surfactants used in the textile and paper industries. Based on the technology and development capabilities we have cultivated over the years, we accept contract manufacturing of various chemical products, so please feel free to contact us. 【Contract Manufacturing Achievements】 ■ Construction waterproofing agents ■ Plant growth promoters ■ Construction waterproofing materials ■ Greening-related agents ■ Chemicals for the electronics industry ■ Wastewater treatment agents ■ Industrial preservatives ■ Special surfactants... We provide more detailed information through related products and catalogs.
Heat resistant up to 1200℃. We will custom-make high-performance insulation covers that ensure safety in the working environment!
- Glass
Maximum substrate heating temperature of 1000℃! Reduces element loss specific to the substrate surface heating process!
- Heating device
- Annealing furnace
A book that helps you understand infrared heaters suitable for your company's heating and drying processes! A technical document that carefully explains the differences between types of infrared heate...
- Other heaters
Precision "contour heating"! Custom-made in various sizes to fit specific parts.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Special specifications, multi-purpose, high efficiency! It has high versatility and is equipped with a variety of control functions and interfaces.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
We will custom-make it individually! It can be heated over a wide range of performance.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Power supply is possible with one set! This is a suitable set for operation in laboratories and pilot plants.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Highly versatile infrared heater module! Maximum power density of 50kW/m2 or 32.25W/in2.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Can be used without cooling devices or reflectors! Compatible with MINI series G14-25 and G7-50.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Modular and flexible infrared heater! Fast response time for accurate temperature.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Ultra-compact cubic infrared radiation! Requires almost no maintenance and boasts reliable performance.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Enhancing flexibility with a compact module! Excellent low maintenance and robustness.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Introducing a super compact IR heater with the highest level of power density! Easy integration.
- Other heaters
[Data Published] Heating efficiency changes significantly with medium-wave infrared - A technical explanation of the essential differences between near-infrared and far-infrared.
Leister offers not only plastic welding machines and hot air generators but also "mid-infrared heaters" as part of its product lineup. When selecting infrared heaters based solely on "output," it can lead to unexpected power loss and quality issues. The key factor is the compatibility of materials and wavelengths. Many industrial materials such as resins, paper, wood, and water have been confirmed to have high absorption efficiency in the mid-wave infrared range. On the other hand, near-infrared has a fast response time but is peakier, while far-infrared has a broad range but a slow response time, making it prone to energy loss due to continuous power supply. In actual comparative tests, it has been reported that the power consumption can differ by about twice to achieve the same heating results. This affects not only electricity costs but also heating time, equipment capacity, and finished quality. This document organizes the differences between near-infrared, mid-wave, and far-infrared, and technically explains why the 2.6μm mid-wave infrared heater is a rational choice for many industrial applications. If you want to reconsider your heater selection, please refer to the technical materials and the product pages for infrared heaters.
Good adhesion is achieved for the application of PVC paste, preventing bubbling!
- Other heaters
- Drying Equipment
- Heating device
Excellent control, capable of heating only when necessary! Here are examples of its use in food processing.
- Heating device
Usable in clean rooms and under vacuum! Introducing the use of infrared in medical supplies.
- Heating device
Always possible to maintain consistent heating conditions and a stable process! Contributes to improving production quality.
- Heating device
Shorten the time required for the drying process! Smartly solve challenges by combining with an air knife (air).
- Heating device
I participated in the converting webinar on June 18 (Wednesday) and June 19 (Thursday).
On June 18 (Wednesday) and 19 (Thursday) of this week, I participated as a speaker in a converting webinar hosted by the Processing Technology Research Association. The theme of this session was "The Basics of Drying Using Infrared." There are various materials that can be dried, and I provided an example of one such material, explaining how infrared can be applied and its characteristics. If you would like to watch the on-demand version, please contact us. Event Overview: Organizer: Processing Technology Research Association Date: June 18 (Wednesday), June 19 (Thursday) Our Session: 1:00 PM - 1:30 PM Delivery Method: Zoom
High thermal conductivity to the coating film allows for fast drying and rapid curing! It improves productivity and finish quality.
- Heating device
Uniform drying and curing is possible! It significantly accelerates the drying process and contributes to increased production efficiency.
- Heating device
I participated in the converting webinar on June 18 (Wednesday) and June 19 (Thursday).
On June 18 (Wednesday) and 19 (Thursday) of this week, I participated as a speaker in a converting webinar hosted by the Processing Technology Research Association. The theme of this session was "The Basics of Drying Using Infrared." There are various materials that can be dried, and I provided an example of one such material, explaining how infrared can be applied and its characteristics. If you would like to watch the on-demand version, please contact us. Event Overview: Organizer: Processing Technology Research Association Date: June 18 (Wednesday), June 19 (Thursday) Our Session: 1:00 PM - 1:30 PM Delivery Method: Zoom
Effective utilization of thermal energy is possible! It can accurately heat materials in shapes such as cylindrical or flat plates.
- Heating device
- Electric furnace
Even high-reflectivity aluminum alloys can withstand heating at 400 to 600°C! Contributes to energy savings with a tact process.
- Heating device
Heating through non-contact means eliminates the need for media! Significantly improves line speed and system operability.
- Heating device
- Other heaters
- Resin processing machine
Heating up to 700-900℃ is possible! High power and rapid heating in an open environment.
- Heating device
- Other heaters
- Industrial Furnace
Increase production efficiency! Achieve reduced preheating time for heavy objects and energy savings.
- Heating device
- Electric furnace
- Other heating equipment
If you are involved in the heating and drying process, please take a look! By reading this, you will understand the types and selection of infrared heaters that you will need. Latest technology materi...
- Heating device
- Other heaters
Introducing examples and benefits of converting! What are the UV (ultraviolet) curing process and infrared heating and drying process to improve productivity?
- Other heaters
- Heating device
- Ultraviolet irradiation equipment
Excellent radiation characteristics, durability, and moldability achieved through the manufacturing technology of Hakkou's sheath heaters.
- Other heaters
Round work heating hot plate
- Other heaters
- Other semiconductor manufacturing equipment
It prevents the water in tanks and other containers from freezing during cold periods.
- Other heaters
Usage is completely flexible! A hot air generator with double assurance of safety and quality.
- Other heaters
Heater for cleaning solution with excellent corrosion resistance.
- Other heaters
Preventing oil from solidifying during cold periods!
- Other heaters
Small precision test furnace using a Hyrex heater.
- Other heaters
- Electric furnace
Clean performance that is environmentally friendly, as demanded by the times.
- Other heaters
More than 700 standard stock items. Custom orders are available from one piece. High efficiency, long lifespan, and sales representatives nationwide will provide optimal proposals.
- Other heaters
- Rubber mold
Energy-saving with integrated insulation. It's a heater that is also easy to remove.
- Other heaters
UL certification for cartridge heaters is with Hakkou Electric! It's definitely cost-effective when considering the replacement costs due to its long lifespan and high precision, and it's actively use...
- Other heaters
A hot plate with high temperature uniformity and a compact high-precision temperature controller have been combined.
- Other heaters
Introducing products that can be used for "cleaning" and "drying" in an easy-to-understand way with illustrations!
- Other heaters
For drying, resin curing, adhesive drying, rubber vulcanization, contact Hakkou Electric for electric furnaces.
- Industrial Furnace