The speed regulating glass reactor is mainly used for material synthesis, distillation, concentration and other experiments. The structure of the kettle can be divided into three types: single layer, double layer and three layers. The kettle can be pumped to a negative pressure state as required to meet the experimental conditions. By adjusting the constant pressure funnel or the regulating valve on the feeding bottle, the material can be uniformly added. The reaction product is recovered by distillation using the heat exchange function of the condenser.
The kettle body of the double-layer speed regulating glass reactor has inner and outer layers. The temperature of the materials in the kettle is adjusted by injecting a certain temperature of circulating liquid into the interlayer. The inner container of the double-layer glass reactor is used to place the reaction materials. At the same time, the vacuum can be evacuated and the speed can be adjusted for stirring. The interlayer can introduce freezing liquid, water and high-temperature liquid to heat and cool the materials.
Glass reactors are used for experiments, pilot tests and production of chemistry, fine chemicals, biopharmaceutical and new material synthesis. The product can be matched with circulating water multi-purpose vacuum pump, diaphragm vacuum pump, low-temperature circulation (vacuum) pump, circulation cooler, constant temperature circulator, low-temperature coolant circulation pump, closed refrigeration and heating circulation device, etc. to form a system device.
DOVMXtech 10L-50L Lifting Glass Reactor, is divided into Double layer with Lift DGRL-L, Three layer with Lift TGRL-L, Explosion-proof Double layer with Lift DGRL-EX, Explosion-proof Three layer with Lift TGRL-EX.
DOVMXtech Glass Reactor:
Selling point
-
For many years of production technology and experience, reduces the cost, and is simple and practical. a large number of installation cases, high quality and reasonable price;
- The equipment is scientific in design, safe and reliable, stable in operation, simple in operation, and Complete modular design delivery, No field installation is required;
-
High borosilicate glass has good physical and chemical properties;
- Designed with vacuum gauge and temperature display unit;
- High borosilicate glass has good physical and chemical properties;
- stainless steel frame is much more stable than standard type during mixing process;
- Wide working temperature range:-80℃ to 200℃;
- It can work under normal pressure and negative pressure, its vacuum degree can reach to 0.095Mpa;
- The reaction vessel and the lid can be separated, the glass vessel can be lifted up, and can be angled 120 degree both sides, which makes it more convenient to operate and clean;
- 4.3”, 65K true color LCD screen operation box, the torque value, temperature, running time, setting speed and actual speed can be displayed simultaneously;
- Teflon(PTFE) and FV rubber material cock or discharge valve, Sealing together with PTFE covered O ring;
- Openings are sealed with flanges, ensuring higher vacuum degree, easy to disassemble;
-
DOVMXtech brand is well-known worldwide;
-
We are a well-known OEM supplier of laboratory equipment in the United States and Canada;
-
Equipment can be customized according to customer requirements;
-
We can provide door-to-door transportation services, worry-free delivery, including customs clearance;
-
Recruit distributor partners globally. We have a very mature pricing system for distributors, fully guaranteeing the interests of distributors.
Product technical features
● all glass components are high borosilicate glass 3.3, with excellent physical and chemical properties.
● it can be used in the range of high temperature (200 ℃) to low temperature (- 80 ℃).
● it can work under the pressure of - 0.1 MPa ~ 0.0 MPa.
● the glass vessel can be rotated 120° lift up / down for easy use and cleaning.
● the inlet and outlet of the jacket are connected with stainless steel insulation hoses to eliminate the stress at the inlet and outlet.
● anti corrosion discharge valve designed for discharge at the side without liquid accumulation.
● lockable caster structure facilitates equipment movement and positioning.
● three phase asynchronous mixing motor, variable frequency speed regulation, digital display of mixing speed.
● adopt explosion-proof motor and explosion-proof electric control box, with explosion-proof grade of ExdⅡBT4, and all explosion-proof components have explosion-proof certification of the manufacturer.(explosion-proof type)
● the mixing bearing prevents the mixing rod from abrasion and chip dropping, with good sealing effect and long service life.
● PT100 temperature sensor is adopted, with high temperature control accuracy. SUS304 material is coated with polytetrafluoroethylene tube and double anti-corrosion.
● paddle type mixing paddle, polytetrafluoroethylene mixing blade; The mixing rod is made of SUS304 and wrapped with polytetrafluoroethylene, with high strength and strong corrosion resistance.
● plug or discharge valve made of Teflon + FV rubber; "O" ring with tetrafluoroethylene protective layer.
● equipped with casters, easy to move.
● compact structure and space saving.
● the height of the discharge valve is appropriate for discharging.
lift lifted up
rotating 120 degree
Product Specifications
Model |
DGRL-10L TGRL-10L DGRL-10EX TGRL-10EX |
DGRL-20L TGRL-20L DGRL-20EX TGRL-20EX |
DGRL-30L TGRL-30L DGRL-30EX TGRL-30EX |
DGRL-50L TGRL-50L DGRL-50EX TGRL-50EX |
Vessel capacity | 10L | 20L | 30L | 50L |
Jacket capacity | 8L | 9L | 10L | 13L |
Condensing area | 0.245㎡ | 0.245㎡ | 0.245㎡ | 0.42㎡ |
Glass material | High borosilicate glass | |||
Stirring speed | 20-500rpm | |||
Power Supply | 100—240V~, 50/60Hz EX: 220—240V~, 50/60Hz | |||
Diameter of circulating fluid inlet and outlet | Rc 3/4″ | |||
Bearable temperature difference | 60℃(Triple wall), 80℃(Double wall) | |||
Working temperature range | -80~200℃ | |||
Ambient temperature | 5-35℃ | |||
Relative humidity | ≤70% | |||
Operating pressure | Ordinary pressure or negative pressure | |||
Jacket pressure | 0.03MPa | |||
Lifting distance | 400mm | |||
Max.drain port ground clearance | 580mm | 530mm | 620mm | 570mm |
Dimensions W*D*H MM |
850*1100*2050 | 850*1100*2050 | 860*1100*2050 | 860*1100*2050 |
10L Double layer glass reactor with Lifting DOVMXtech DGRL-10L Technical Data
釜内有效容积(L) |
10.0 |
|
釜体夹套容积(L) |
约3.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约580 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
10L Three layer glass reactor with Lifting DOVMXtech TGRL-10L Technical Data
釜内有效容积(L) |
10.0 |
|
釜体夹套容积(L) |
约3.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约580 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
20L Double layer glass reactor with Lifting DOVMXtech DGRL-20L Technical Data
釜内有效容积(L) |
20.0 |
|
釜体夹套容积(L) |
约6.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约530 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
20L Three layer glass reactor with Lifting DOVMXtech TGRL-20L Technical Data
项目 |
技术参数 |
|
釜内有效容积(L) |
20.0 |
|
釜体夹套容积(L) |
约6.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约530 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
20L explosion-proof Double layer glass reactor with Lifting DOVMXtech DGRL-20EX
釜内有效容积(L) |
20.0 |
|
釜体夹套容积(L) |
约6.0 |
|
冷凝器冷凝面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约530 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
20L explosion-proof Three layer glass reactor with Lifting DOVMXtech TGRL-20EX
釜内有效容积(L) |
20.0 |
|
釜体夹套容积(L) |
约6.0 |
|
冷凝器冷凝面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约530 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约850W×1100D×2050H |
30L Double layer glass reactor with Lifting DOVMXtech DGRL-30L
釜内有效容积(L) |
30.0 |
|
釜体夹套容积(L) |
约10.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约620 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
30L Three layer glass reactor with Lifting DOVMXtech TGRL-30L
釜内有效容积(L) |
30.0 |
|
釜体夹套容积(L) |
约10.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
90 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约620 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
30L explosion-proof Three layer glass reactor DOVMXtech TGRL-30EX
釜内有效容积(L) |
30.0 |
|
釜体夹套容积(L) |
约10.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约620 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
30L explosion-proof Double layer glass reactor with Lifting DOVMXtech DGRL-30EX
项目 |
技术参数 |
|
釜内有效容积(L) |
30.0 |
|
釜体夹套容积(L) |
约10.0 |
|
冷凝器换热面积(m²) |
约0.245 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约620 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
50L Double layer glass reactor with Lifting DOVMXtech DGRL-50L
釜内有效容积(L) |
50.0 |
|
釜体夹套容积(L) |
约16.0 |
|
冷凝器换热面积(m²) |
约0.420 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
140 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约570 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
50L Three layer glass reactor with Lifting DOVMXtech TGRL-50L hot sale in stock
釜内有效容积(L) |
50.0 |
|
釜体夹套容积(L) |
约16.0 |
|
冷凝器换热面积(m²) |
约0.420 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
搅拌电机功率(W) |
140 |
|
调速方式 |
变频调速 |
|
转速调整范围(rpm) |
50~500 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约570 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
50L explosion-proof Double layer glass reactor with Lifting DOVMXtech DGRL-50EX
釜内有效容积(L) |
50.0 |
|
釜体夹套容积(L) |
约16.0 |
|
冷凝器换热面积(m²) |
约0.420 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约570 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
备注:防爆电机,防爆电控,防爆线路
50L explosion-proof Three layer glass reactor with Lifting DOVMXtech TGRL-50EX
釜内有效容积(L) |
50.0 |
|
釜体夹套容积(L) |
约16.0 |
|
冷凝器换热面积(m²) |
约0.420 |
|
恒压漏斗容积(ml) |
1000 |
|
釜盖上开孔 |
搅拌插入孔 |
50#法兰口 |
温度传感器插入孔 |
24#标准磨口 |
|
冷凝分液器连接口 |
50#法兰口 |
|
真空表安装阀接口 |
35#法兰口 |
|
恒压漏斗弯头接口 |
35#法兰口 |
|
固体加料口 |
80#法兰口 |
|
玻璃组件 |
高硼硅玻璃3.3 |
|
移动方式 |
可锁定脚轮 |
|
工作温度(℃) |
-80~200 |
|
釜体内外温差限值(℃) |
≤80 |
|
釜内压力(MPa) |
-0.1~0.0 |
|
夹套耐压(MPa) |
≤+0.03 |
|
真空系统升压速率 |
≤2kPa/h |
|
防爆搅拌电机功率(W) |
180 |
|
调速方式 |
变频调速 |
|
转速调节范围(rpm) |
50~500 |
|
防爆等级 |
ExdⅡBT4 |
|
温度显示精度(℃) |
±0.1 |
|
进出液循环接口规格 |
Rc3/4 |
|
密封件材质 |
聚四氟乙烯 |
|
放料阀距地面最大高度(mm) |
约570 |
|
釜体升降行程(mm) |
400 |
|
搅拌桨 |
桨式搅拌桨 |
|
电源 |
220-240V~,50/60Hz |
|
使用环境温度 (℃) |
5~35 |
|
环境相对湿度 (%) |
≤ 65 |
|
外形尺寸(mm) |
约860W×1100D×2500H |
Precautions for operation:
1. Add materials into the kettle through solid feeding or other feeding ports.
2. Vacuum the reaction kettle according to the reaction needs. The three-layer reactor can use a vacuum pump to vacuum the outermost jacket to form a vacuum state, so as to realize the insulation function and avoid the loss of cooling capacity.
3. Adjust the temperature control equipment according to the displayed temperature to make the kettle reach the required reaction temperature.
4. Slowly adjust the knob to the required speed.
5. After the reaction is completed, turn off the temperature control equipment first, and then turn off the power supply of the reactor.
note: the circulating valve cannot be closed.
6. Open the discharge valve to discharge the materials. The valve parts or the kettle can be cleaned as required and re installed firmly.
If the glass parts are to be cleaned, they must be restored to normal temperature. After cleaning, wipe the water beads inside and outside to avoid cracking of the kettle due to uneven temperature or sudden temperature change.
We're sorry if we didn't respond in time.
Each equipment will undergo many strict inspections before delivery and transportation to ensure that it is intact. All electrical parts are warranted for one year (except for vacuum pumps and glassware). We have provided double copies for easily damaged items. Please rest assured that the whole machine will be maintained for life. if something breaks, replacement parts will be shipped next day by air.
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