In precision manufacturing fields such as electronics, semiconductors, and aerospace, industrial vacuum ovens are by no means simple "heating equipment". Instead, they have become core equipment for ensuring product quality by virtue of their ultimate control over the environment. Their performance advantages always revolve around "precision temperature control and efficient drying in a vacuum environment", which directly determine the reliability and qualification rate of downstream products.
I. Vacuum Performance: From Environmental Control to Quality Assurance
Vacuum degree is the core indicator of industrial vacuum ovens, which is directly related to drying efficiency and material safety. High-quality equipment can usually achieve a high vacuum degree below 10Pa, and some semiconductor-specific models can even reach the level of 1Pa. This performance brings dual values:
Oxidation Prevention in Low-Oxygen Environment: The oxygen content is greatly reduced in a vacuum state, which effectively prevents heat-sensitive and oxidizable materials (such as positive and negative electrode materials of lithium batteries, precision metal components) from oxidative discoloration and performance degradation during the heating process. It is particularly suitable for the processing of high-strength alloy components in the aerospace field.
Boiling Point Reduction to Accelerate Drying: The vacuum environment significantly lowers the boiling point of solvents. For example, the boiling point of water is only about 55℃ under a vacuum of -0.098MPa, which can quickly remove moisture or organic solvents inside the material at low temperatures. This solves the problem of "surface crusting and internal dampness" in traditional hot air drying, and is especially suitable for moisture removal of electronic components before packaging.
It is worth noting that the stability of the vacuum system is also crucial. Ovens equipped with high-quality vacuum pumps and pressure sensing devices can realize real-time monitoring and automatic compensation of vacuum degree, avoiding process failure caused by vacuum leakage.
II. Temperature Control Performance: Dual Perfection of Precision and Uniformity
The strict temperature requirements in industrial production have promoted the upgrading of vacuum ovens from "rough heating" to "precision temperature control". Their core performance is reflected in two aspects: temperature control precision and temperature uniformity:
1. High-Precision Temperature Control: Equipment adopting a PID closed-loop temperature control system can achieve a temperature control precision of ±1℃, and some high-end models even realize a fluctuation control of ±0.5℃. This precision ensures that the processing conditions of each batch of materials are completely consistent in mass production. For example, in the semiconductor chip packaging process, it can accurately control the melting and solidification temperature of the solder to avoid cold soldering problems.
2. Whole-Domain Temperature Uniformity: Through the distributed layout of multiple heating tubes and the optimized design of hot air circulation, the temperature dead zones in the oven are effectively eliminated. The temperature difference between various points in the working chamber is usually ≤±3℃. For special-shaped materials such as large-area PCB boards and photovoltaic modules, a uniform temperature field can avoid deformation caused by local stress concentration.
III. Efficiency and Adaptability: Meeting Industrial Production Needs
The high productivity requirements in industrial scenarios require vacuum ovens to balance efficiency and flexibility while ensuring performance:
• Rapid Temperature Rise and Fall: Equipment equipped with stainless steel heating tubes and high-efficiency thermal insulation layers can achieve a heating rate of 5-10℃/min. During the cooling stage, the combination of vacuum bubble breaking and forced air cooling greatly shortens the processing time of a single batch, adapting to the fast-paced production in the electronics industry.
• Multi-Specification Adaptability: From small laboratory-level chambers (below 50L) to large tunnel-type vacuum ovens for production lines (with a volume of over 1000L), selections can be made flexibly according to material sizes. Some equipment also supports customized layered shelves and explosion-proof designs to meet the needs of special industries such as chemical engineering and military industry.
IV. Stability and Intelligence: Invisible Guarantee for Industrial Production
In continuous production, the stability of equipment directly affects productivity. Modern industrial vacuum ovens are generally equipped with:
• Multiple Safety Protections: Devices such as over-temperature alarms, abnormal vacuum shutdown, and door lock interlock avoid safety accidents caused by operational errors.
• Intelligent Control: The touch screen operation interface supports process parameter storage (10-20 groups of formulas can be preset). Some models can be connected to the MES system to realize real-time upload and remote monitoring of production data, reducing the cost of manual intervention.
In conclusion, the core performance of industrial vacuum ovens lies in "achieving a precise balance between temperature and efficiency based on a vacuum environment". In today's era where precision manufacturing is increasingly dependent on process stability, selecting a vacuum oven that adapts to one's own productivity and material characteristics is not only the key to improving product quality, but also an important part for enterprises to build core competitiveness.
The industrial multi-layer oven is a high-efficiency heating equipment designed for industrial mass production. Its core structural innovation lies in the vertical stacking of multiple independent chambers, which effectively breaks the space limitation of traditional single-layer ovens. It is widely suitable for mass drying and curing needs in electronics, automotive, new materials and other fields. Compared with ordinary heating equipment, it has significant advantages in space utilization, temperature control accuracy and production efficiency. Its core features and application fields are as follows:
I. Core Features
1. High Space Utilization: Adopts vertical stacking of multiple independent chambers, abandoning the "horizontal space occupation" limitation of traditional single-layer ovens. The effective heating space can be increased by 3-5 times under the same workshop floor area. This design is particularly suitable for the compact layout needs of modern industrial workshops, enabling larger batch workpiece processing in limited space and directly reducing the site rental and planning costs per unit capacity.
2. Precise and Uniform Temperature Control: Each chamber is independently equipped with a high-precision temperature control module and a closed-loop circulating air system, with temperature fluctuation strictly controlled within ≤±1℃. It also supports differentiated temperature and time parameter settings among different chambers for simultaneous processing of workpieces with multiple process requirements. The internal hot air forms 360o three-dimensional circulation through the deflector, completely eliminating temperature dead zones in the chamber and ensuring a temperature uniformity of ≥95%, which fundamentally guarantees the consistency of processing quality for batch workpieces and avoids product performance differences caused by temperature variations.
3. Energy Efficiency: The multi-layer shell is filled with high-density thermal insulation cotton and equipped with high-temperature resistant sealing strips to form a tight thermal insulation structure, reducing heat loss by 20%-30% compared with traditional single-layer ovens. Some mid-to-high-end models are also equipped with waste heat recovery devices, which can reuse the heat of hot air discharged from the chamber for air intake preheating, further improving energy conversion efficiency and meeting the energy-saving and consumption-reducing needs of industrial production.
4. Easy and Controllable Operation: Equipped with an industrial-grade PLC touch control system, supporting storage and batch calling of hundreds of sets of process parameters. With IoT modules, remote real-time monitoring and operation are achievable, significantly reducing manual intervention costs. The independent start-stop design of multi-layer chambers can flexibly adapt to order volume changes, facilitating small-batch and multi-batch flexible production. It also comes standard with over-temperature sound and light alarm, circuit overcurrent protection, door safety interlock and other devices, fully complying with industrial safety standards such as GB 50016 to eliminate potential production safety hazards.
II. Main Application Fields
1. Electronic Manufacturing: One of the core equipment for electronic component processing, widely used in PCB solder mask curing, moisture-proof drying of capacitors, resistors and other electronic components, and high-temperature heat treatment after chip packaging. Its precise temperature control capability can strictly match the heat resistance threshold of electronic components, effectively avoiding component performance degradation or damage caused by temperature fluctuations, and ensuring the stability and service life of electronic finished products.
2. Hardware and Auto Parts: Suitable for degreasing and drying of fasteners and stamping parts, removing residual oil on the workpiece surface through stable temperature. It is also used for shaping and drying of automotive interior parts (such as plastic panels, fabric cushions) and curing of surface coatings (such as electrophoretic paint, powder coating) on metal parts. Under high temperature, it can enhance the adhesion between the coating and the substrate, improving the wear resistance and corrosion resistance of the part surface.
3. New Materials and Composites: Meets the shaping and drying needs of carbon fiber products and glass fiber cloth during the molding process, ensuring uniform release of internal stress of materials through gradient temperature rise and improving the mechanical strength of finished products. It is also suitable for low-temperature drying of lithium battery electrodes, removing moisture from electrodes in a precise temperature-controlled environment of 40-60℃, avoiding the impact of moisture on battery electrochemical performance and safety performance, and ensuring the quality of new energy products.
4. Food and Pharmaceutical: Special models with 304 stainless steel inner tank and food-grade seals can be used for drying and preservation of food auxiliaries (such as dehydrated vegetables, baking raw materials) and sterilization and drying of pharmaceutical packaging materials (such as aluminum-plastic composite films, pharmaceutical glass bottles).
In summary, the core advantage of the industrial multi-layer oven lies in the precise balance between production capacity, space occupation and processing quality. Its high-efficiency, energy-saving and flexible characteristics perfectly meet the core needs of modern industrial mass production, and it has become an indispensable heating equipment for various industries to improve production efficiency and ensure product quality.
In modern industrial manufacturing, industrial precision ovens are key "temperature artisans". They are widely used in electronics, aerospace, automotive, medical and other fields, providing stable performance and reliable quality for products. Gaining an in-depth understanding of their principles not only clarifies the scientific logic of industrial production, but also helps practitioners use equipment efficiently to improve benefits.
(I) Heating System: The Source of Heat
The heating system is the "heat source core" of the oven. The thermostat controls the thyristor through signals to adjust the heater power and regulate heat output: full power is supplied when the temperature is much lower than the set value, power gradually decreases when approaching the set value, and output stops when the set value is reached. This is energy-efficient and achieves high temperature control precision.
(II) Air Circulation System: The Messenger of Heat Transfer
Composed of a blower motor, extended shaft and multi-wing fan blades, the air circulation system is critical for heat transfer. The motor drives the wind wheel to rotate and form air flow, which is evenly delivered to all areas of the oven through optimized air ducts, avoiding dead corners and temperature differences. Hot air fully contacts materials during circulation to achieve rapid and uniform heating, which is essential for high-precision processes such as electronic chips and optical lenses.
(III) Electrical Control System: The Core of Precise Operation
The electrical control system is the core control unit of the oven. The Q8 series electrical control system adopts full-touch operation with a control precision of 0.01 level and supports multiple sensor adaptations. It has 100 built-in processes (50 steps per group), including EVT, cold output and transmission output functions. The DO channel features safe isolation and arc suppression design, enabling convenient, accurate and reliable operation that adapts to diverse control scenarios.
Future Outlook: Technological Innovation Leads Development
In the future, industrial precision ovens will focus on three major innovation directions: intelligence, energy conservation and environmental protection, and special process adaptation, continuously innovating to shape a new industrial future.
As core industrial equipment for precise temperature control, drying and curing, precision ovens’ operational stability directly impacts product quality and production efficiency. Scientific maintenance extends service life and ensures process parameter accuracy. Below are key methods divided into daily basic maintenance and regular in-depth maintenance.
I. Daily Basic Maintenance: Safeguard Fundamental Operation
Daily maintenance, the first line of stable operation defense, is performed before startup, during operation and after shutdown—simple yet critical.
1. Comprehensive Cleaning: Eliminate Impurities
Wipe the oven cavity, shelves and door seal daily to remove debris, dust, cured stains or oil. Use neutral detergent and a clean cloth to avoid cavity corrosion. Regularly clean the exterior and heat dissipation holes for unobstructed heat dissipation.
2. Parameter & Safety Checks: Ensure Accuracy and Safety
Verify that temperature controller, timer and other parameters match process requirements before startup, and check for stable display without drift. Inspect door interlock sensitivity, power cords, heating tube terminals and cooling fan for abnormalities. Confirm emergency stop buttons and over-temperature protection devices function properly to eliminate hidden dangers.
3. Standardized Operation: Reduce Human-induced Wear
Avoid overloading workpieces and ensure proper spacing for hot air circulation to prevent local overheating. Follow the manual for temperature rise/drop—no sudden startup/shutdown or drastic adjustments to avoid furnace cracking. Turn off main power only when temperature drops below 50℃ to extend heating element life.
II. Regular In-depth Maintenance: Enhance Core Performance
Recommended monthly or quarterly, regular maintenance focuses on core components and requires professional technicians.
1. Heating & Circulation System Overhaul: Ensure Efficiency
Inspect heating tubes for oxide layers, scale or abnormal resistance (replace if needed), and clean/fasten junction box terminals with insulating grease. Disassemble fan impellers to remove dust and oil, lubricate bearings, replace damaged seals and adjust air duct baffles for uniform hot air circulation.
2. Temperature Control Calibration: Improve Accuracy
Calibrate temperature sensors with a standard thermometer—adjust parameters or replace sensors if deviation is excessive. Inspect signal transmission lines for interference or poor contact. Verify multi-stage heating curve accuracy for programmable ovens.
3. Furnace Structure Maintenance: Extend Service Life
Check insulation layers for damage and refill insulation material if heat dissipation is abnormal. Replace aged or deformed door seals. Repair the cavity’s high-temperature resistant coating to prevent rusting.
OVEN is engineered to deliver high-precision temperature and pressure environments, catering to demanding applications in R&D and manufacturing. It serves a wide range of industries, including electronics, semiconductors, aerospace, and automotive. Its primary features are as follow:
1. User-Friendly Operation: Equipped with a large-inch photo-level true-color ultra-large touchscreen interface, the panel is provided with operation, over-temperature setting, shift/monitoring, and shutdown/reset buttons, enabling intuitive and easy operation. It comes with a standard USB interface for downloading curves and data. Operators can program after simple training, and can also independently input information such as the user unit and department, making the machine status clear at a glance.
2. Safety Protection: It has six major protection functions: overcurrent protection, overvoltage protection, undervoltage protection, overload protection, power module protection, and over-temperature protection. When the equipment malfunctions, it will alarm and display solutions, and activate self-protection. For low-level alarms, only personnel with specific permissions can unlock with a password to continue operation, ensuring high safety.
3. Accurate and Stable Core Performance of Temperature and Pressure
① Temperature Control: The range covers RT+10~300℃ (long-term safe use ≤260℃), with a temperature adjustment accuracy of ±0.5℃ in a vacuum environment and ±1℃ in an atmospheric environment.
② Vacuum Pressure Performance: The minimum vacuum degree can reach -99.9 kpa, which is accurately monitored by a semiconductor pressure sensor. PID control is also adopted to realize dynamic pressure adjustment.
③ Environmental Adaptability and Uniformity: Calibrated based on the conditions of 23℃ ambient temperature, rated voltage, and no test samples, it is suitable for laboratory and industrial scenarios. Some models are equipped with horizontal cross-flow air supply and three-sided circulation air ducts to ensure the temperature uniformity of the working chamber.
Lab Companion ovens come in a comprehensive selection of sizes, types, and performance specs. Backed by free in-warranty service for non-human errors and transparent post-warranty support, we ensure lifelong operational security.
An industrial high-temperature aging oven is a device that conducts accelerated aging tests on industrial products (such as electronics, electrical appliances, components, chemical materials, etc.) by simulating high-temperature environments. By applying high-temperature stress, potential defects and faults of the products can be exposed in advance, thereby screening out early-failed products and enhancing the reliability and stability of the products leaving the factory. Its core components mainly include the heating system, circulation system, control system and safety protection system.
Main features: Firstly, it has a wide operating temperature range, typically from room temperature +10°C to +200°C or 300 °C. Temperature uniformity is a key indicator for evaluating the performance of an oven. The temperature difference at each point inside the oven is ±2°C, and the temperature control accuracy usually reaches ±0.1°C to ±1°C, ensuring the precision and repeatability of the test conditions. In addition, the heating rate can be set according to the test requirements, ranging from linear heating to rapid heating. The internal structure of the test chamber is usually made of stainless steel (such as SUS304), which is heat-resistant and corrosion-resistant. The shell is generally made of high-quality cold-rolled steel plate and the surface is treated with plastic spraying. Finally, the insulation layer is usually made of high-density aluminosilicate cotton or rock wool, with sufficient thickness to ensure that the surface temperature of the box is low and energy-saving. The air duct is designed for horizontal or vertical air supply to ensure that the hot air can flow evenly through each product under test.
Aging ovens are widely used in all industries that have high requirements for product reliability:
Electronics industry: IC chips, PCB circuit boards, power supplies, chargers, LED displays/lamps, automotive electronics, etc.
Electric appliances: transformers, relays, capacitors, circuit breakers, motors, etc.
Communication products: mobile phones, routers, base station equipment, optical modules, etc.
Chemical materials: Conduct high-temperature aging resistance tests on coatings, plastics, rubbers, adhesives, etc.
Automotive parts: various sensors, controllers (ECUs), wiring harnesses, etc.
How to choose the right industrial high-temperature aging oven? When making a choice, the following factors need to be comprehensively considered:
1. Temperature range: According to the product testing standards, select the model that can meet the highest and lowest temperature requirements, and leave a certain margin.
2. Inner box size: Select an appropriate volume based on the size and quantity of the products to be tested. Remember to reserve space to ensure air circulation.
3. Temperature uniformity and accuracy: The higher the requirements, the higher the equipment cost and manufacturing difficulty. Choose according to the strictness of the test.
4. Load condition: If the product will generate heat by itself during the testing process (i.e., "load testing"), it is necessary to inform the equipment manufacturer so that they can calculate and configure sufficient heating and heat dissipation capacity.
5. Control System and Functions:
Is program control (multi-stage temperature rise and heat preservation) required?
Is it necessary to record and export the temperature curve data?
Whether remote monitoring and other factors are needed
Industrial high-temperature aging ovens are an indispensable part of modern quality engineering. Through sample aging tests, it intercepts potential faulty products before they leave the factory, significantly reducing the market return rate and after-sales maintenance costs, and earning credibility and long-term benefits for the enterprise. When making a purchase, you can communicate fully with us based on the characteristics of your own products and testing requirements, and choose the most suitable solution.
1.Core customization requirement analysis
1.1 The standard box size or load-bearing capacity (such as automotive parts, large unmanned aerial vehicles, and entire cabinet servers) cannot meet the requirements. Special sample racks, trays or suspension devices are required. The test samples need to be powered on and run inside the box, and connected to cables or pipes (such as battery pack charge and discharge tests, engine component tests). Oil stains, particulate matter or corrosive gases may be released during the sample testing process.
1.2 It needs to be connected with mechanical arms and AGV carts to achieve automatic loading and unloading. The heating and cooling rates required far exceed the standard specifications (such as >15°C/min).
1.3 The equipment needs to adapt to specific room sizes, door opening sizes or floor heights. There are special requirements for the power supply (if it cannot meet 380V) and the cooling water source (if a cooling tower cannot be provided).
2. Key customized technical specifications
2.1 Customized Dimensions
The internal effective space is determined entirely based on the size and quantity of the customer's samples. The minimum distance between the sample and the box wall needs to be considered to ensure uniform airflow. It is necessary to clearly define the size of the door, the material of the sealing strip, the door lock mechanism (mechanical lock, pneumatic auxiliary lock), and the size and quantity of the observation window. The inner box is usually made of SUS304 stainless steel. The outer box body can be made of high-quality steel plate with plastic spraying or SUS304. For corrosive tests, more durable materials should be specified. Test holes are used for leads. The size, quantity and position of the hole diameters (such as left or right) need to be customized, and sealing plugs or flanges should be provided.
2.2 Confirm the test interval
The technical index standards for temperature are usually from -70°C to +150°C. The standard heating and cooling rate is 1 to 3°C/min. Linear rapid temperature change: 5 to 10°C/min. Nonlinear rapid temperature change: Customizable to 15°C/min or even higher. This is directly related to the power configuration of the refrigeration and heating systems and is a key factor influencing the cost. Customize stricter control accuracy, such as uniformity ≤±1.0°C and fluctuation ≤±0.5°C.
2.3 Refrigeration System
Air cooling: Suitable for sites where the ambient temperature is not high and the ventilation around the equipment is good.
Water cooling: It is suitable for large cooling capacity, high heat generation samples, or situations with high ambient temperatures. It is more efficient but requires a cooling tower.
Cascade refrigeration: It is used for low-temperature requirements below -40°C and usually adopts two-stage cascade.
2.4 Installation Method
The refrigeration system of the integrated machine is located at the top or bottom of the box, with a compact structure and convenient installation. The split-type refrigeration unit is separated from the box body and is suitable for high-power equipment. It can discharge noise and heat to the outside, but the installation is complex.
2.5 Control System and Software
The controller customizes the size and brand of the color touch screen, supports multi-segment programming, program group loops, step jumps, etc. Customized LAN interface for connecting to the upper computer (computer) for data monitoring and recording. Whether it is necessary to support remote network monitoring and operation, as well as customize record intervals and storage capacity.
2.6 Independent sample over-temperature protector.
Compressor overheat, overcurrent and overpressure protection; Fan overcurrent protection Cooling water cut-off protection and automatic stop test function when the door is opened; Leakage or short-circuit protection; Sound and light alarm prompt.
Customizing double-door temperature test equipment is a systematic project. The key to success lies in the clarification and refinement of the initial requirements. A detailed and unambiguous "Technical Requirements Document" serves as the cornerstone for communication between equipment suppliers and customers. It ensures that the final delivered equipment fully complies with testing, process, and site requirements, avoiding subsequent disputes and cost overruns.
The core function of adding nitrogen input in industrial ovens is to create an inert atmosphere environment with low oxygen or no oxygen. This is usually referred to as "nitrogen protection" or "nitrogen-filled baking".
Preventing oxidation is the most common and primary purpose. When heated in the air (with an oxygen content of approximately 21%), many materials will undergo oxidation reactions, thereby affecting product quality. Adding nitrogen input to industrial ovens can prevent the formation of oxide scale (such as rust) on the surface of metal products during heating, keep the metal bright and clean, and improve the quality of subsequent processes such as electroplating and spraying. Or to prevent the oxidation of component pins, pads and precision films at high temperatures, ensuring the quality of soldering and the long-term reliability of the product. At the same time, it can also prevent chemical and powder materials from undergoing chemical reactions with oxygen at high temperatures, thereby altering their chemical properties.
2. Some materials pose a risk of fire or explosion in high-temperature and oxygen-rich environments. Increasing nitrogen input can suppress combustion and explosion.
In industries such as printing and coating, a large amount of flammable organic solvents (such as alcohol, acetone, and toluene) are volatilized during the baking process. Introducing nitrogen to reduce the oxygen concentration below the limit oxygen concentration can completely eliminate the risk of fire and explosion, which is an important safety measure. For metal and plastic powders, when they reach a certain concentration in the air, they are highly prone to explosion when exposed to open flames or high temperatures. Nitrogen protection can create a safe processing environment.
3. Improve process control and product quality. Heating in an oxygen-free or low-oxygen environment can avoid many side reactions caused by oxygen. In processes such as chip manufacturing and solar cell production, extremely high cleanliness and an oxygen-free environment are essential to prevent the oxidation of silicon wafers, metal electrodes, etc., ensuring extremely high product yield and performance.
4. While filling the oven with nitrogen, the air that originally contained moisture and oxygen inside the oven will also be "driven out". This not only prevents oxidation but also plays an auxiliary drying role, making it particularly suitable for products that are extremely sensitive to moisture.
In conclusion, adding nitrogen input to industrial ovens is to actively control the heating environment rather than passively heating in the air. This is an important technical means used in high-end manufacturing and precision processing.
Internal environmental conditions
Benchmark cleanliness: At the beginning of the test, the chamber must reach the highest cleanliness level it claims (such as ISO Class 5 / Class 100). This is the premise of all tests. Before the test, the oven needs to run a long period of "self-cleaning" until the particle count shows that the concentration is stable below the standard for multiple consecutive times.
Temperature and Humidity: Although the oven is a heating device, its initial state needs to be clearly defined. The initial environment for testing is usually normal temperature and humidity, for example, a temperature of 20±5°C and a relative humidity of 30-60% RH. This is crucial for testing the heating time and temperature uniformity. If the process has requirements for the dew point of the environment, it may be necessary to record the initial absolute humidity.
Airflow state: The test should be conducted under the specified airflow pattern, typically in a vertical or horizontal laminar flow state. The fan must operate at the rated speed, with stable air pressure and air volume.
Test load: The test is divided into two conditions: no-load and full-load. No-load is the benchmark test for equipment performance. Fill the effective working space with a fully loaded simulated load (such as metal, pallets, etc.) to simulate the harshest working conditions. Full-load testing can truly reflect the impact of products on air flow and temperature fields in actual production.
External environmental conditions
1. The cleanliness level of the external environment must be lower than or equal to the cleanliness level designed by the oven itself. For instance, when testing an oven of Class 100, it is best to do it in a room of Class 1000 or cleaner. If the external environment is too dirty, it will seriously interfere with the measurement results of the internal cleanliness of the oven when opening and closing the door or when water seeps through gaps.
2. The laboratory requires a stable temperature and humidity environment. It is generally recommended to conduct the test under standard laboratory conditions, such as 23±2°C and 50±10% RH. Avoid testing in extreme or highly volatile environments.
3. The test area should be free of strong convective winds and it is best to maintain a slight positive pressure to prevent external contaminants from entering the test area.
4. The power supply voltage and frequency should be stable within the range required by the equipment.
5. The equipment should be placed on a ground or base with less vibration. There are no large stamping equipment, fans or other strong vibration sources around.
When testing a dust-free oven, controlling the external environment is as important as measuring the internal environment. An unstable, dirty or strongly interfering external environment can lead to distorted test data and fail to truly reflect the performance of the equipment. All test conditions should be clearly recorded in the final verification report to ensure the traceability and repeatability of the tests.
The Significance of Constructing ISO27001 Information Security Management System
After the rapid development of computer technology, network technology has been applied in a full range, and the ensuing information security problem has gradually received the attention of all sectors of society. Information security has not only been fully developed in the field of communication and data, but also involved in computer security, communication security and network security. To establish an information security system that conforms to modern enterprise business and management, improve information construction, and reduce security loopholes through the IS027001 information security management system is of great significance to the long-term development of enterprises.
The benefits of constructing IS027001 Information Security management system:
(1) It can effectively protect information resources and promote the orderly, healthy and sustainable development of informatization process. IS027001 is a standard system in the field of information security management, similar to the quality management system certification IS09000 standard.
(2) When the enterprise passes the IS027001 certification, it is equivalent to the enterprise's information security management is scientific and reasonable, and can effectively protect customer information and internal information. After the IS027001 Information security management system certification, you can have a number of benefits or advantages. The introduction of information security management system can coordinate information management at all levels, simplify management links and improve management efficiency.
(3) Through the IS027001 information security management system certification, it can also increase the credit degree of e-commerce exchanges between enterprises, establish a trusted cooperative relationship between the website and trading partners, and deepen the development of enterprise business information.
(4) Through the IS027001 information security management system certification, it can promote the relevant enterprises to achieve information security commitments, eliminate the distrust of customers and employees, and improve business performance. In addition, it can even gain international recognition so that the business can expand overseas.
The significance of constructing IS027001 information security management system:
In essence, information security management system is an information security management mode, its purpose is to improve the management level of enterprises, promote the benign development of enterprises, ensure the security of various information resources of enterprises, and not be stolen by the outside world to cause negative impact on enterprises. Information security management system with many standards, the main reference is IS027001 information security management standard. To achieve enterprise information security management standardized and orderly through the reference of the standard, so that enterprise information security management can be more scientific and reasonable. Information security management develops with the development of information technology. In the information society, information resources have become a precious resource and has high economic value.
Under the realistic background of information security problems, strengthening the construction of information security management system has extremely important practical role and future significance. Under the IS027001 information security standard, we develop advanced technologies, carefully evaluate information security risks, and build an information security management system that conforms to the current situation and future development of enterprises.
Vacuum Drying Oven of Lab Companion
Small vacuum drying oven designed for various uses of vacuum drying.
● Through the auxiliary menu key, you can realize the operation of overrise prevention device, deviation correction, key lock setting.
● It has self-diagnosis loop (temperature sensing abnormal, heater line break, automatic over-rise prevention, SSR short circuit), over-rise prevention, leakage protection switch to prevent over-current, key lock and other safety functions.
● For safety, a protective panel made of resin is installed on the observation window.
Specification of vacuum drying ovens:
Model number
OVEN-V10
OVEN-V27
Method
Pressure reduction and wall heating
Temperature range of use
40~200℃
Pressure range of use
101~0.1kPa(760~1Torr)
The time it takes to reach the maximum temperature
About 60 minutes
About 90 minutes
Accuracy of temperature regulation
±1.5℃(at 240℃)
Heating method
Direct heating of pressure tank wall
Heater power
0.68KW
1.05KW
Timer
1 minute to 99 hours 59 minutes and 100 to 999 hours 50 minutes (with timing wait function)
Safety device
Self-diagnosis loop (abnormal temperature sensing, heater break, automatic over-rise prevention, SSR short circuit), over-rise prevention, over-current leakage protection switch, key lock function
Internal size(W*D*Hmm)
200×250×200
300×300×300
External size(W*D*Hmm)
400×410×672
510×460×774
Internal volume
10L
27L
Number of shelf layers/layer spacing
3 layers (fixed) /63mm
4 layers (fixed) /71mm
Weight
About 43kg
About 69kg
Accessory
Stainless steel sheet, 2 pieces
Optional
Shelf, vacuum pump, N2 import device, recorder, combined warning light (standby/running/failure), external communication function (RS485), temperature output terminal (4 ~ 20mA), external alarm output terminal, time arrival output terminal
Clean Hot Air Circulation Oven
Hot air circulation oven is a universal drying equipment with a long history, which has a wide range of application, uniform temperature, high thermal efficiency and simple operation. It is one of the necessary drying equipment for most pharmaceutical and related enterprises, and is also a popular drying equipment for users.
Based on years of actual production experience and existing production technology, combined with the current national pharmaceutical industry GMP requirements, our company designed the oven that is higher than the current national GMP standard requirements for the pharmaceutical industry - clean oven, its technical characteristics are described as follows:
1, Equipment materials: internal and external walls are SUS304 stainless steel, the internal cavity is full of welding, rounded transition, making the oven without wind phenomenon in the working state, and making the equipment easy to clean, no water seepage phenomenon in the heat preservation layer, to ensure that the cleanliness of the items dried each time. The external wall is made of brushed board making the outer surface of the oven is flat, smooth, beautiful, no visible concavity and convexity;
2, Circulating fan impeller, volute shell are made of stainless steel, to ensure clean circulating air; selection of large air volume, high air pressure centrifugal fan as a circulating fan for forced ventilation, which can speed up the drying speed of the material to ensure the uniformity of material drying.
3, The drying oven air inlet is divided into two levels of filtration, the new air inlet for the intermediate filter, making the new air up to 300,000, after heating each cycle of hot air with high-temperature high efficiency filter filtration, so that the hot air into the drying oven are more than 10,000 levels of cleanliness, to ensure that the drying process of cleanliness;
4, The system is equipped with all stainless steel moisture exhaust fan, and the system's PLC program module collects the humidity in the system for intelligent control: According to the signal provided by the humidity control instrument, the damper actuator of the humidification port is controlled by the damper. At the same time, the damper is controlled by the frequency converter to output the corresponding frequency according to the size of the humidity signal, and the reasonable air volume is discharged to achieve the best humidification effect and achieve reasonable humidification. The moisture outlet is equipped with a medium effect filter to ensure the cleanliness of the return air of the moisture outlet.
5, Oven heating form: steam or electric heating. The material is stainless steel. Its has good heat dissipation effect and sanitary conditions. The fluctuation range is about ±1℃;
6, The circulatory system stroke from both sides of the main machine into the same time, concentrated to the middle exhaust air, compared with the conventional design to reduce the temperature difference between the left and right sides of the oven; According to the guiding rules of the air volume and air pressure of the air inlet and air outlet, multiple groups of punching plates with different ratios are designed as the distribution device of the inward hot air to achieve a smaller temperature difference. Moreover, the fixing method of the air equalizing network board and the main engine adopts the quick fixing method, which can quickly clean the inlet and outlet air duct to ensure the cleanliness of the chamber;
7, The equipment is designed with 5 sewage outlets in the air inlet, skip and air outlet, which can ensure that all the sewage is discharged quickly after cleaning. The five sewage outlets are gathered into a main pipe for centralized discharge, reducing the total sewage outlet, so that the plant can open less floor drains;
8, The equipment in the inlet and outlet duct design can cover the entire system of 7 online cleaning ports, in normal circumstances to achieve fast and simple online cleaning function, can also be directly set up online cleaning device, in order to achieve the true meaning of CIP;
9, The oven track is convex splints, and the bottom plate is connected by round foot welding, and the drying car is equipped with inclined pedal, which makes the drying car easy to enter and exit; At the same time reduce the dead Angle without affecting the blowdown performance; Stainless steel square tube is used for the column and stainless steel Angle steel is used for the beam of the oven, and argon arc welding is adopted. Wheels with high temperature resistant nylon wheels, each dryer with 2 directional wheels, 2 steering wheels. The whole dryer has reasonable structure, high strength, beautiful and practical;
10, The equipment heating system (heater, high temperature and high efficiency filter) is concentrated in the closed stainless steel chamber, good insulation effect, high cleanliness, and high temperature and high efficiency filter for the drawer type fast loading structure, can be cleaned and replaced quickly; The connecting parts and the system are connected with the adjustable screw quick installation design, which is convenient for maintenance and overhaul;
11, The oven door lock adopts advanced adjustable elastic door lock, good locking performance, easy to operate. High temperature and non-toxic silicone rubber sealing ring is used between the door and the box, which has excellent sealing performance. The insulation layer of the oven adopts ultra-fine glass wool, which has good thermal insulation performance.
12, All the round flanges in the system are connected by quick-opening clamp, and the method is designed by quick-mounting butterfly screws, which facilitates the disassembly and cleaning of the pipeline;
13, There are two quick verification ports on the equipment host, which is convenient to verify the temperature and humidity during the working process.
Get A Quote
IPv6 network supported