Inheco SCILA 4位培养箱、四工位细胞培养箱、孵化器、细胞培养箱
在甲板上最小的空间内实现细胞培养参数的最大可变性
在全天候受控的环境中,以更少的错误和更高的准确度运行您的实验和细胞分析。Inheco SCILA细胞培养箱为您提供最大的精确度、卓越的保护和极大的灵活性,同时在自动化平台上占用最小的空间。
细胞培养箱被细胞生物学家、微生物学家和分子生物学家及其医疗技术助理用于细胞培养实验室中的自动化细胞培养和基于细胞的贴壁细胞培养物分析。它们允许实验室通过控制气体气氛、湿度和温度来创造和维持细胞生长的理想生理条件。它们非常好地提供了对环境每一部分的精确控制,同时保护了珍贵的样品。
强大且可扩展
Inheco SCILA是同类产品中最强大的孵化器。SCILA 4位培养箱专为液体处理系统中的自动化细胞培养应用而设计。因此,它非常适合受控环境中的中低通量细胞处理。通过将SCILA培养箱堆叠在塔中,您可以使用可变参数处理更多样本,而不会拥挤您的平台。
受到控制和保护
有了SCILA,您的实验室可以在完全符合要求的条件下处理每一份样品,而不用担心污染。这要归功于它的铜腔和水管、无菌水系统和易于清洁的设计。温度、湿度和气体环境都可以调节,SCILA提供了出色的环境和温度精度以及温度均匀性。选择购买可选的希拉混合气体混合器,以控制气体在您的孵化或添加自己的气体混合系统,可以提供混合气体。一起使用两个或三个气体混合器能够再现低氧条件,以模拟人体内的条件。
小巧灵活
SCILA的占地面积仅为291毫米高x 250毫米宽x 410毫米长,有4个微孔板(适用于高度小于20毫米的96孔板)或2个深孔选项(高度可达23毫米),允许您使用微量滴定器或样品瓶。或者两者叠加,为您的实验室提供最大的灵活性。
易于集成
SCILA可以快速连接和调试与SiLA兼容的软件以及可用的API。它也是物联网就绪的。它与大多数液体处理站无缝集成,并配有阅读器和机械臂。
Technical Specifications SCILA
| General specifications – SCILA CO2 MP-4 | |
|---|---|
| Dimensions (H x W x L) | 287 mm x 410 mm x 250 mm |
| Dimensions (H x W x L) with opened drawer | 287 mm x 644 mm x 250 mm |
| Volume of process chamber | 4.6 l |
| Weight | Approx. 16.3 kg |
| Interface | SiLA, Ethernet (RJ45 connector) |
| IP protection class | IP 21 according to IEC60529-1 |
| EMV device class | Group 1 / class A (industrial requirements) |
| SCILA device DC Input *1) | 24 Vdc |
| Noise while drawer opens | 65 dB(A) |
| Noise closed (only in heating mode) | 45 dB(A) |
| Horizontal precision of the labware in x and y direction (end position per opened drawer) | ± 0.3 mm |
| Vertical precision of labware in z direction (end position per opened drawer) | 1.5 mm |
| Cell culture plates 6-96 wells | Suitable for all kind of robot grippable plates (according to SLAS) |
| Maximum load on drawer | 200 g |
| Height of plate incl. lid | Up to 20 mm with standard labware carrier → chapter 8.5.2 Up to 23 mm with additional labware carrier → chapter 8.5.2 |
1) SCILA device shall only be powered by the included power supply
| Environmental conditions – SCILA CO2 MP-4 | |
|---|---|
| Tolerable relative humidity: | |
| Operation | 30-60% *2) |
| Transportation and storage | Transportation and storage 10-80% *2) |
| Temperature: | |
| Operation (at altitude 0 – 2500 m) | +15 °C to +32 °C [+59 °F to +90 °F] |
| Transportation and storage (water needs to be removed before shipment) | –20 °C to +60 °C [-4 °F to +140 °F], non condensing *2) |
2) Condensate can prevent the SCILA from operating properly and can damage the SCILA.
| Thermal specifications – SCILA CO2 MP-4 | |
|---|---|
| Temperature range | 5 K above ambient to +45 °C |
| Temperature accuracy in steady state at +37 °C) | ±1.0 K |
| Temperature uniformity in steady state at +37 °C | Max temperature difference between plates: 1.0 K within one plate: 0.3 K |
| Temperature recovery at +37 °C (conditions see table below *3)) | 3 minutes (air temperature) |
| Max. heat up time from +22 °C ambient to +37 °C *4) | ~ 19 minutes (air temperature) |
| CO2 specifications – Gas inlet SCILA CO2 MP-4 | |
|---|---|
| Pressure range for SCILA Inlet | 0.9 – 1 bar (gas pressure reduction valve necessary if inlet pressure is higher than 1 bar) |
| Flow rate range for SCILA Inlet | 0 – 4.5 ln/min |
| Gas flow – normal | 0.2 l/min |
| Gas flow – boost | 4 l/min |
| CO2 specifications – incubation chamber SCILA CO2 MP-4 | |
|---|---|
| CO2 gas concentration | ≤ 10% |
| CO2 recovery time at 5% (conditions see table below *3)) | ≤ 5 minutes |
| Humidity specifications – SCILA CO2 MP-4 | |
|---|---|
| Max. water filling volume in incubation chamber | 175 ml |
| Max. operation time at +37 °C, without opening any drawer and without refill | ~ 140 hours |
| Evaporation of sample rH > 85% at +37 °C *5) | Typically < 0.04% per hour |
| Evaporation of sample without humidification at +37 °C *5) | < 4% per hour |
| Humidity recovery time (conditions see table below *3)) | 25 minutes |
| Relative humidity over complete temperature range | 95% +5%/-10% (not actively controlled) |
3) table showing the standard drawer opening and closure cycle (basis for recovery time tests):
| Standard drawer opening and closure cycle | |
|---|---|
| 1 | SCILA in steady state (2 h after turning on) |
| 2 | Drawer 4 (top drawer): open; hold for 10 s; close |
| 3 | 10 s dead time |
| 4 | Drawer 3: open; hold for 10 s; close |
| 5 | 10 s dead time |
| 6 | Drawer 2: open; hold for 10 s; close |
| 7 | 10 s dead time |
| 8 | Drawer 1: open; hold for 10 s; close |
| 9 | start measuring recovery time |
4) Start temperature +22 °C, with water prefilled (22 °C), with CO2, measured in air with 2 temperature sensors in drawer 2
5) Incubation device loaded with 4* NUNC 167008 96 well plates x 250 μl liquid with lid, closed drawers
5) Incubation device loaded with 4* NUNC 167008 96 well plates x 250 μl liquid with lid, closed drawers
精确、受保护且易于维护
SCILA不仅仅是一个强大的孵化器。它也很容易使用和维护。
设置
- 快速集成–尺寸小,适合您的甲板,加上SiLA兼容软件,可快速连接。
- 启动时间仅为19分钟。快速设置和调试。
- 精确控制温度、湿度和气体环境
所有板在37°c时内部温度均匀,板位置内的温差低于0.5 K,饱和湿度为0.3 K,内置安全机制以控制水位。 - 快速气体浓度恢复在打开/关闭抽屉循环后,由于气体增压功能和快速(< 10秒)访问。
- 最大污染保护在加湿系统中具有铜培养室和铜水管。
- 无菌水得到保证–无菌水的外部供应装置具有自动补水功能,通过水管上可更换的Luer-Lock连接无菌过滤器。
维护
- 易于清洁。我们的专利抽屉设计将完整的抽屉机械装置放在培养室外面,使带有圆形边缘的内部铜表面易于清洁。SCILA的前部可以拆卸,无需清洁和维护工具。
软件
- SiLA兼容,API可用,IOT就绪。SCILA可快速连接,并为您实验室的未来发展做好准备。
