Laboratory Heating Mantle
Feature: Heating Function
Capacity: 100ML/250ML/500ML/1,000ML/2,000ML/3,000ML/5,000ML/10,000ML/20,000ML
2.Digital Temperature Control Type
Feature: Heating Function, Temperature Display, Temperature Sensor
Capacity:100ML/250ML/500ML/1,000ML/2,000ML/3,000ML/5,000ML/10,000ML/20,000ML/50,000ML
3.Digital Magnetic Type
Feature: Heating Function, Temperature Display, Temperature Sensor, Magnetic Stirring
Capacity:100ML/250ML/500ML/1,000ML/2,000ML/3,000ML/5,000ML/10,000ML/20,000ML/50,000ML
4.Digital Display Constant Temperature Magnetic Force
Feature: Heating Function, Temperature Display, Time Display, Temperature Sensor, Magnetic Stirring, Timer
Capacity:100ML/250ML/500ML/1,000ML
Description
Technical Parameters
A laboratory heating mantle is a device that converts electrical energy into thermal energy to heat and control the temperature of experimental vessels such as test tubes and flasks. It achieves uniform heating of the experimental sample by embedding electric heating wires or heating elements into the sleeve, ensuring the accuracy and safety of the experiment. A hemispherical heating inner sleeve usually composed of alkali free glass fiber and metal heating wire, as well as a control circuit. This design not only provides good insulation performance for the heating sleeve, but also ensures uniform heat distribution and improves heating efficiency. Specifically, the electric heating sleeve adopts a spherical heating method, which enables the heating area of the container to reach over 60%, further enhancing the uniformity of heating. At the same time, the outer shell of the heating sleeve is mostly injection molded in one go, and the upper cover adopts electrostatic spraying technology, which is both beautiful and durable. As an indispensable heating device in laboratories, it plays an important role in various fields such as scientific research, chemical experiments, material synthesis, and biological experiments.
Product Description
The structural composition of the laboratory heating mantle is a complex system, where various parts cooperate and work together to ensure the efficient, stable, and safe operation of the heat jacket. When selecting and using heating sleeves, users need to consider and choose comprehensively based on experimental needs and equipment characteristics. The structural composition mainly includes the following parts:
1, Heating inner sleeve
Material: The heat inner sleeve is usually made of alkali free glass fiber and metal heat wire. Alkali free glass fiber has good insulation performance and high temperature resistance, which can protect metal heati wires from external environmental influences and ensure uniform heat transfer.
Shape: In order to better adapt to experimental vessels of different shapes and sizes, the heat inner sleeve is often designed in a hemispherical shape. This design not only increases the contact area with the heated object, but also improves the uniformity and efficiency of heat.
2, Control circuit
Function: The control circuit is the core part of the heat sleeve, responsible for receiving user instructions and controlling the working status of the heat wire. By setting parameters such as heat temperature and time, the control circuit can accurately control the heat process of the heat sleeve, ensuring the accuracy and safety of the experiment.
Characteristics: Modern laboratory heat sets often use microcomputer control technology, which has the characteristics of intelligence and digitization. Users can easily set and adjust the temperature through devices such as the control panel or remote control, and observe the temperature changes during the heat process in real time.
3, Shell and insulation layer
Shell: The shell is the external protective layer of the heat sleeve, usually made of lightweight insulation and high-pressure shaping materials. The shell not only protects internal components from external environmental influences, but also has certain insulation properties, which can reduce heat loss and lower energy consumption.
Insulation layer: The insulation layer is located between the heat inner sleeve and the outer shell, playing a role in insulation and heat preservation. The insulation layer is usually made of materials such as ceramics, glass fibers, metal fibers, etc. These materials have good insulation and high temperature resistance, which can effectively avoid energy loss and temperature fluctuations.
4, Auxiliary components
Temperature sensor: The temperature sensor is used to monitor the temperature of the heated object in real time and transmit the temperature signal to the control circuit. Through feedback control mechanism, the control circuit can adjust the working state of the heat wire according to real-time temperature, ensuring the stability and accuracy of the heat process.
Safety protection device: The heat sleeve is also equipped with various safety protection devices, such as overheat protection, overcurrent protection, etc. These devices can promptly cut off the power or adjust the working status in case of abnormal situations during the heat process, preventing equipment damage and safety accidents.
Product Parameter
SN-dZTW series (temperature Control)
| No. | AC531-100ML | AC531-250ML | AC531-500ML | AC531-1000ML | AC531-2000ML | AC531-3000ML | AC531-5000ML | AC531-10000ML | AC531-20000ML |
| Model | SN-DZTW-100ml | SN-DZTW-250ml | SN-DZTW-500ml | SN-DZTW-1000ml | SN-DZTW-2000ml | SN-DZTW-3000ml | SN-DZTW-5000ml | SN-DZTW-10000ml | SN-DZTW-20000ml |
| Products |  |
 |
|||||||
| Voltage | 220V 50HZ | ||||||||
| Overall Power(W) | 100 | 180 | 250 | 300 | 500 | 600 | 1000 | 1500 | 2500 |
| Display Mode | Voltmeter | ||||||||
| Max. Stirring Volume(ml) | 100 | 250 | 500 | 1000 | 2000 | 3000 | 5000 | 10000 | 20000 |
| Temp. Control Range | Ambient temperature -380℃ | ||||||||
| Temp. Accuracy of Heating Plate | / | ||||||||
| Speed Range(r/min) | / | ||||||||
| Net Weight(KG) | 1.6 | 1.6 | 1.6 | 2.8 | 3.5 | 3.7 | 5 | 7 | 11.5 |
| Product Size(φ×H mm) | 200×165 | 200×165 | 200×165 | 260×200 | 300×220 | 300×190 | 310×210 | 395×240 | 500×320 |
SN-ZNHW series (Digital)
| No. | AC532-100ML | AC532-250ML | AC532-500ML | AC532-1000ML | AC532-2000ML | AC532-3000ML | AC532-5000ML | AC532-10000ML | AC532-20000ML |
| Model | SN-ZNHW-100ml | SN-ZNHW-250ml | SN-ZNHW-500ml | SN-ZNHW-1000ml | SN-ZNHW-2000ml | SN-ZNHW-3000ml | SN-ZNHW-5000ml | SN-ZNHW-10000ml | SN-ZNHW-20000ml |
| Products |  |
 |
|||||||
| Voltage | 220V 50HZ | ||||||||
| Overall Power(W) | 100 | 180 | 250 | 300 | 500 | 600 | 1000 | 1500 | 2500 |
| Display Mode | LED Digital | ||||||||
| Max. Stirring Volume(ml) | 100 | 250 | 500 | 1000 | 2000 | 3000 | 5000 | 10000 | 20000 |
| Temp. Control Range | Ambient temperature -380℃ | ||||||||
| Temp. Accuracy of Heating Plate | ±1 | ||||||||
| Speed Range(r/min) | / | ||||||||
| Net Weight(KG) | 1.6 | 1.6 | 1.6 | 2.8 | 3.5 | 3.7 | 5 | 7 | 11.5 |
| Product Size(φ×H mm) | 200×165 | 200×165 | 200×165 | 260×200 | 300×220 | 300×190 | 310×210 | 395×240 | 500×310 |
SN-CLT-1A series (Digital magnetic force)
| No. | AC533-100ML | AC533-250ML | AC533-500ML | AC533-1000ML | AC533-2000ML | AC533-3000ML | AC533-5000ML | AC533-10000ML | AC533-20000ML | AC533-50000ML |
| Model | SN-CLT-1A-100ml | SN-CLT-1A-250ml | SN-CLT-1A-500ml | SN-CLT-1A-1000ml | SN-CLT-1A-2000ml | SN-CLT-1A-3000ml | SN-CLT-1A-5000ml | SN-CLT-1A-10000ml | SN-CLT-1A-20000ml | SN-CLT-1A-50000ml |
| Product |  |
 |
 |
|||||||
| Voltage | 220V 50HZ | |||||||||
| Overall Power(W) | 100 | 180 | 250 | 300 | 500 | 700 | 1000 | 1500 | 2500 | 4000 |
| Display Mode | LED Digital | |||||||||
| Max. Stirring Volume(ml) | 100 | 250 | 500 | 1000 | 2000 | 3000 | 5000 | 10000 | 20000 | 50000 |
| Temp. Control Range | Ambient temperature -380℃ | |||||||||
| Temp. Accuracy of Heating Plate | ±1 | |||||||||
| Speed Range(r/min) | 0~2000 | |||||||||
| Net Weight(KG) | 2.2 | 2.2 | 2.2 | 3.5 | 4.2 | 8.9 | 9.6 | 10.6 | 15 | 28 |
| Product Size(L×W×H mm) | φ200×165 | φ200×165 | φ200×165 | φ260×200 | φ300×220 | 300×300×190 | 310×310×210 | 395×395×240 | 500×500×310 | 650×650×700 |
SN-SZCL series (Digital Constant Temperature Magnetic Force)
| No. | AC534-100ML | AC534-250ML | AC534-500ML | AC534-1000ML |
| Model | SN-SZCL-100ml | SN-SZCL-250ml | SN-SZCL-500ml | SN-SZCL-1000ml |
| Products |  |
|||
| Voltage | 220V 50HZ | |||
| Overall Power(W) | 100 | 180 | 250 | 300 |
| Display Mode | LED Digital | LED Digital | Electric LED digital | Voltmeter |
| Max. Stirring Volume(ml) | 100 | 250 | 500 | 1000 |
| Temp. Control Range | Ambient temperature -380℃ | |||
| Temp. Accuracy of Heating Plate | ±1 | |||
| Speed Range(r/min) | 0~2000 | |||
| Net Weight(KG) | 4 | 4.2 | 4.5 | 5 |
| Product Size(φ×H mm) | 340×215×185 | 340×215×205 | 340×215×215 | 400×255×240 |
Product Application
Laboratory heating mantle has a wide range of applications in many experiments, including but not limited to the following areas:
Chemical experiments
It is widely used in chemical experiments, such as organic synthesis, inorganic synthesis, polymer chemistry, etc. Heat horseshoe can conveniently heat chemical reagents, promote chemical reactions, and improve reaction speed and yield.
Biological experiments
In biological experiments, it is often necessary to heat cells, proteins, etc. Heat horseshoe in the laboratory can conveniently heat these cells and proteins, and control the heat temperature and time to obtain more accurate experimental results.
Materials science experiments
In materials science experiments, materials need to be subjected to high-temperature heat or low-temperature cooling treatment. Heat horse hooves in the laboratory can meet the temperature requirements of different materials by adjusting the temperature, thereby obtaining high-quality materials.
Environmental science experiments
In environmental science experiments, laboratory heat horseshoe can be used to heat sewage, exhaust gas, etc., promoting the decomposition and transformation of pollutants.
Overall, it is widely used and can provide heat and temperature control functions in many experiments. However, it is necessary to pay attention to safety issues during use and make appropriate adjustments and controls according to specific experimental requirements.
Product Use
The correct methods for using lab beating jacket include:
Ensure that the laboratory countertop is clean and prepare the necessary reagents and equipment.
Place the beating jacket on the laboratory countertop and plug the power cord into a suitable socket. Ensure that the surface of the heat mantle is clean and free of impurities.
If the beating jacket needs to use cooling water to lower the temperature, please connect the inlet and outlet of the cooling water to the water source to ensure a stable supply of cooling water.
Pour the reagent that needs to be refluxed into an appropriate glass container, such as a round bottomed flask.
Turn on the power and heat switch, and adjust them to the appropriate position for heat and stirring as needed. If temperature needs to be displayed, glass thermometer or digital thermometer can be used for auxiliary measurement.
Adjust the stirring knob to the appropriate position according to the speed display for stirring. If the stirring capacity is large or the solution is viscous, the knob can be adjusted appropriately to increase the stirring force.
After use, turn off the power and heat switch, and wait for the beating jacket to cool before removing its contents.
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Product Safety
When using laboratory heating mantle, the following safety precautions should be noted:
The instrument should have good grounding.
When using it for the first time, it is normal for white smoke and odors to appear inside the mantle, and the color to change from white to brown and then to white. Due to the presence of oil and other compounds in the production process of fiberglass, it should be placed in a ventilated area and can be used normally after a few minutes of disappearance.
When using electric beating jackets with a volume of over 3000ml, there may be a squeaking sound due to different furnace wire structures and related to the pulse signal of thyristor voltage regulation. It can be used with confidence.
It is strictly prohibited to heat the beating jacket with electricity when there is no heat medium in the beating jacket, in order to avoid damage caused by empty burning of the beating jacket.
It is prohibited to heat materials containing flammable and explosive solvents to prevent explosion accidents.
It is prohibited to place damp items on the surface of the beating jacket to avoid electric leakage or short circuit accidents.
It is prohibited to place metal objects on the surface of the beating jacket to avoid affecting the heat effect or causing short circuit accidents.
It is prohibited to touch the power plug of the beating jacket with wet hands to prevent electric shock accidents.
If there is a malfunction or abnormal situation in the beating jacket, the power should be immediately turned off and professional personnel should be contacted for maintenance or replacement.
If liquid overflows into the mantle during use, the power should be quickly turned off, and the electric beating jacket should be placed in a ventilated area. It can only be used after drying to avoid danger caused by leakage or electrical short circuits.
When not in use for a long time, please store the electric beating jacket in a dry and non corrosive gas place.
When the environmental humidity is relatively high, please confirm that the ground wire is connected.
Products Maintenance
The lifespan of an electric beating jacket depends on various factors, such as heat temperature, heat time, frequency of use, maintenance, etc. Generally speaking, the lifespan of an electric beating jacket is around 2-3 years, but factors such as high frequency of use, high heat temperature, and long heat time may shorten the lifespan of the electric beating jacket.
The maintenance methods for laboratory heating mantle include:
Regular cleaning: Regularly clean the surface and interior of the electric beating jacket to remove dirt and residue, maintain a clean state, and extend its service life and improve heat efficiency. When cleaning, it is necessary to cut off the power and let the electric beating jacket cool before cleaning.
Place in a dry and ventilated place: The electric beating jacket should be kept dry during use and should not be affected by moisture or rainwater. During maintenance, it is also necessary to place the electric heat mantle in a dry and ventilated place.
Regular inspection: Regularly check whether the power cord, plug, switch, etc. of the electric beating jackets are damaged or loose, and replace or repair them in a timely manner to ensure safe use.
Avoid excessive use: Avoid using the electric beating jacket continuously for a long time to prevent overheat damage or shortened service life of the heat element.
Strictly follow the instructions: When using the electric beating jacket, it should be operated strictly according to the instructions to avoid damage or safety accidents caused by improper use.
Regular maintenance: Conduct comprehensive maintenance on the electric heat mantel on a regular basis, including cleaning, inspecting, replacing heat elements, etc., to maintain its good working condition and extend its service life.
By using the correct maintenance methods, the service life of the electric beating jacket can be extended, the heat effect can be improved, and the accuracy and safety of the experiment can be ensured.
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