Incubator

A gravity convection general incubator is a specific type of incubator used in scientific and research laboratories. It is designed to provide a stable and controlled environment for a wide range of applications, such as cell culture, microbiology, biochemical assays, and general sample incubation.

The term "gravity convection" refers to the method of heat distribution within the incubator. In a gravity convection incubator, the temperature is achieved by natural convection, where heat rises due to density differences within the chamber. There is no forced air circulation or fan system involved in the heating process. This type of incubator is known for its gentle and uniform heat distribution, making it suitable for applications that require minimal air movement, such as culturing delicate cells or maintaining stable conditions for certain experiments.

Here are some key features and characteristics commonly associated with gravity convection general incubators:

Temperature Control: Gravity convection incubators typically have precise temperature control systems that allow users to set and maintain the desired temperature accurately. They often offer a wide temperature range, typically from ambient temperature to around 70-80°C, depending on the specific model.

Chamber Design: These incubators usually have a well-insulated chamber with minimal air leakage to maintain temperature stability. The interior is often made of stainless steel or other durable materials that are easy to clean and resistant to corrosion.

Uniformity and Stability: Gravity convection incubators strive to achieve consistent temperature distribution throughout the chamber, ensuring uniform conditions for samples placed at different locations within the incubator. Stability in temperature control is crucial for maintaining the integrity and reliability of experiments and cultures.

Safety Features: Depending on the model and manufacturer, gravity convection incubators may include safety features such as over-temperature protection, alarms, and sometimes even backup systems to prevent temperature fluctuations and ensure the safety of samples and experiments.

Gravity Convection General Incubator Feature

Incubator is a basic lab equipment suitable for stagnant incubation and storage of tests requiring a specific range of temperatures for a specific period of time. In accordance to this, our incubator can maintain a uniform range of temperatures for a certain set period.

• Stainless steel inner chamber- Digital PID controller
• Inner glass door
• Powder coated steel plate
• Comfortable display at eye level
• Safety devices

A refrigerated incubator, also known as a cooled incubator or low-temperature incubator, is a specialized type of incubator that combines the functions of maintaining a controlled temperature environment with the capability to cool the internal chamber to below ambient temperatures. These incubators are commonly used in research laboratories, pharmaceutical industries, and other scientific settings where temperature-sensitive samples or experiments need to be incubated at specific temperature ranges, including both above and below room temperature.

Here are some key features and characteristics of refrigerated incubators:

Temperature Range: Refrigerated incubators typically offer a broad temperature range, allowing precise control within a specific temperature range. They can cool down to temperatures as low as -10°C or even lower, depending on the model and manufacturer. Additionally, they can maintain temperatures above ambient, typically up to around 70-80°C.

Temperature Control and Stability: Refrigerated incubators have advanced temperature control systems that enable accurate and stable temperature regulation. They often feature microprocessor-based controllers or programmable temperature profiles, allowing users to set and maintain the desired temperature with high precision. Stability is crucial in refrigerated incubators to ensure the integrity of samples and the reliability of experiments.

Refrigeration System: These incubators incorporate a refrigeration system to lower the temperature within the chamber. The refrigeration system may involve mechanisms such as compressors, refrigerant gases, and cooling coils to remove heat from the internal environment. The cooling mechanism is typically supported by insulation and well-sealed chambers to minimize temperature fluctuations and ensure efficient cooling performance.

Interior Design and Capacity: Refrigerated incubators generally have a well-insulated chamber made of materials like stainless steel or other durable and easy-to-clean materials. They often offer adjustable shelving or racks to accommodate different sample containers or trays. The interior capacity can vary across models, with options available to suit various research or industrial needs.

Additional Features: Depending on the model, refrigerated incubators may come with additional features such as humidity control, programmable lighting, built-in data logging capabilities, and alarms for temperature deviations or power failures. These features can enhance the versatility and functionality of the incubator for specific applications.

Refrigerated Incubator Feature

This version of incubator comes with a high-powered refrigeration compressor. Its cooling temperature ranges from -5ºC to 60ºC. It is designed to conduct separated tests in high or low temperature. It is also capable of minimizing adjustment period from low to high or vice versa.

• Stainless steel inner chamber
• Accurate temp control
• RS-485 or RS-232C interface
• Water proof socket
• Leveling caster
• Safety devices
• Digital controller
• Inner glass door

A 4-chamber incubator refers to an incubator that consists of four separate chambers or compartments within a single unit. Each chamber operates independently and can provide controlled temperature and environmental conditions for different samples or experiments simultaneously. These incubators are commonly used in research laboratories and scientific settings where multiple experiments or samples need to be incubated at the same time while maintaining separate conditions for each chamber.

Here are some key features and characteristics of 4-chamber incubators:

Multiple Independent Chambers: The main feature of a 4-chamber incubator is its ability to provide four separate and independent compartments or chambers. Each chamber typically has its own temperature control and environmental settings, allowing different experiments or samples to be incubated simultaneously without cross-contamination or interference.

Temperature Control: Each chamber within the 4-chamber incubator will have its own temperature control system. This allows users to set and maintain different temperature conditions in each chamber according to the specific requirements of their experiments or samples. The temperature control may include precise temperature regulation, stability, and the ability to cool or heat as needed.

Environmental Control: In addition to temperature control, 4-chamber incubators may offer other environmental control features, such as humidity control, adjustable airflow, or gas control (e.g., CO2 or O2) for specific applications. These features ensure that the conditions inside each chamber can be tailored to the requirements of the experiments or samples being incubated.

Chamber Design and Capacity: The design and capacity of each chamber within a 4-chamber incubator may vary depending on the specific model and manufacturer. Each chamber typically has its own interior space, with adjustable shelving or racks to accommodate different sample containers or trays. The interior design may include insulation, lighting, and easy-to-clean materials.

Monitoring and Control: 4-chamber incubators often have a central control panel or interface that allows users to monitor and adjust the settings for each chamber independently. This centralized control system provides convenience and ease of operation, allowing users to manage and track the conditions of multiple experiments or samples simultaneously.

4 Chambers General Incubator Feature

For efficient space usage and increased productivity level, we provide 4-room chamber model that can be controlled by independent temperature controller. The users can set four different temperatures into these four different compartments and have independent processes inside of the each four chamber at the same time. 

• Stainless steel inner chamber
• Accurate temp control
• RS-485 or RS-232C interface
• Leveling caster
• Safety devices
• Digital controller
• Inner glass door

A cold lab chamber, also known as a cold room or cold storage chamber, is a specialized enclosure designed to maintain low temperatures for the storage of temperature-sensitive materials, samples, or experiments. These chambers are typically used in scientific research, pharmaceutical industries, food storage, and other applications where precise temperature control and cold storage are required.

Here are some key features and characteristics of a cold lab chamber:

Temperature Range: Cold lab chambers are capable of maintaining temperatures below room temperature, typically ranging from a few degrees above freezing (e.g., 2°C) to sub-zero temperatures (e.g., -20°C, -80°C, or lower). The specific temperature range may depend on the design and specifications of the chamber.

Insulation and Sealing: Cold lab chambers are constructed with high-quality insulation materials and well-sealed doors and panels to minimize heat transfer and maintain temperature stability. The insulation prevents external heat from entering the chamber and helps preserve the low temperatures inside.

Temperature Control and Stability: These chambers have advanced temperature control systems, often equipped with microprocessor-based controllers or programmable temperature profiles. The temperature control mechanism maintains the desired set temperature with high precision, and stability is crucial to ensure the integrity of stored samples or materials.

Interior Design and Capacity: The interior of a cold lab chamber is typically designed with adjustable shelving or racks to accommodate various storage containers, boxes, or trays. The capacity of the chamber can vary, depending on the specific model and requirements. Some chambers may also offer features like modular storage systems or partitioning options for efficient organization and utilization of space.

Safety Features: Cold lab chambers may include safety features such as temperature alarms, backup systems in case of power failures, and door open/close sensors. These safety measures help protect the stored samples or materials and maintain a stable environment within the chamber.

Monitoring and Data Logging: Many cold lab chambers are equipped with monitoring systems and data logging capabilities. These systems allow users to track and record temperature variations over time, ensuring the stability and traceability of storage conditions. Some chambers may also provide remote monitoring options for convenient access to temperature data.

Cold Lab Chamber (Laboratory Refrigerator) Feature

Cold Lab Chamber (Laboratory Refrigerator) is a lab equipment which is necessary when storing reagent or testing sample in low temperature. 

SH Scientific's Cold Lab Chamber (Laboratory Refrigerator) supports temperature from  0℃ to 10℃ and provides sophisticated and stable temperature control performed by Heater Controlling Method. 

• Stainless steel inner chamber
• Accurate and stable temperature control
• Water proof socket
• Caster foots
• Super cool down
• Digital PID controller
• RS-485 or RS-232C interface

A CO2 incubator, also known as a carbon dioxide incubator, is a specialized type of incubator used in cell culture and tissue culture applications. It provides a controlled environment with precise regulation of temperature, humidity, and carbon dioxide levels to support the growth and maintenance of cells in vitro.

Here are some key features and characteristics of CO2 incubators:

Temperature Control: CO2 incubators typically offer precise temperature control, typically ranging from around 5°C above ambient temperature up to 50-60°C, depending on the model and manufacturer. Temperature stability is crucial for maintaining the optimal growth conditions for cells.

CO2 Control: The main feature of a CO2 incubator is its ability to control and maintain a specific level of carbon dioxide (CO2) within the incubation chamber. The most common CO2 concentration used in cell culture is 5%, which mimics the physiological conditions inside the human body. The incubator achieves this through the use of infrared or thermal conductivity sensors that monitor and regulate the CO2 concentration.

Humidity Control: CO2 incubators often provide humidity control to maintain an appropriate moisture level for cell growth. Some models offer a built-in water reservoir or humidity pan that provides humidity through evaporation, while others may have a direct water injection system.

Sterilization and Contamination Prevention: CO2 incubators often feature sterilization mechanisms such as high-temperature sterilization cycles or in-chamber sterilization using UV light. These features help prevent contamination and maintain a sterile environment for cell cultures.

Interior Design and Capacity: CO2 incubators typically have an interior chamber made of stainless steel or other materials that are easy to clean and resistant to corrosion. The chamber may include adjustable shelves or racks to accommodate various culture vessels, such as flasks, plates, or tubes. The capacity of CO2 incubators can vary depending on the specific model and requirements.

Monitoring and Alarm Systems: Many CO2 incubators have built-in monitoring systems that continuously measure and display temperature, CO2 concentration, and humidity levels. They may also have audible and visual alarms to alert users in case of temperature deviations, CO2 fluctuations, or power failures.

Additional Features: CO2 incubators may come with additional features like programmable temperature and CO2 profiles, humidity alarms, door open/close sensors, and integration with external monitoring or control systems.

CO₂ Incubator Feature

For efficient space usage and increased productivity level, we provide 4-room chamber model that can be controlled by independent temperature controller. The users can set four different temperatures into these four different compartments and have independent processes inside of the each four chamber at the same time. 

• Precise and reliable CO₂ detection by applying Dual Wave length NDIR Sensor
• Stackable unit to save space
• Temperature control on the door prevents condensation
• Audible and visual alarm at over limit status
• HEPA air filtration provides class 100 air purification
• Inner & Out Glass door sensors
• Sample hole
• Perfect leakage prevention by inner glass door handle and sealing gasket
• Mirror grade stainless steel chamber with round corner for each clean up