Suitable for cleaning, boiling, and drying surgical instruments, rigid endoscopes, minimally invasive instruments, glassware, oral instruments, breathing tubes, baby bottles, and various moisture resistant instruments. It is the cleaning equipment required for the disinfection supply center.
By using vacuum technology to reduce the pressure inside the cleaning chamber, the cleaning solution is vaporized and boiled under low temperature and low pressure (vacuum pumping) conditions. The boiling liquid is used to flush the surface and lumen of the instrument, quickly level the pressure, and the vaporized liquid is instantly formed into a liquid state. This repeated pulse causes the attached substances to quickly detach and peel off, thus achieving the cleaning purpose. Disinfection treatment is carried out under low pressure using the temperature and time required for moist heat disinfection, and finally the items are dried using heating tubes and multi-stage pulse vacuum.
Effective capacity of 160L, capable of loading 8 DIN standard instrument trays. The cabin has undergone mirror treatment, and all welds have undergone mirror and passivation treatment, with a smoothness of a<0.6um, no dead corners, no gaps, and no threaded connections inside.
Reduce the complexity of operations and fully implement one click operation.
Record: Built in printing and recording device, real-time recording of various physical parameters during the cleaning process, in line with the requirements of hospital infection tracing management.
Traceability: The equipment is equipped with a reserved traceability information system interface, which can be integrated with the quality management traceability system to trace and record various operational data of the equipment.
The user only needs to set the ratio of cleaning agent and lubricant, and the equipment can automatically calculate the liquid intake and achieve automatic addition.
According to Article 10.1 of WS 310.1-2016, the conductivity of the final rinse water used in the cleaning process should be ≤ 15us/cm.
Real time monitoring of water quality during the cleaning process, displayed in real-time on the interactive interface and providing real-time prompts.
Decompression boiling achieves three-stage load selection, and operators can choose the required water level based on the load capacity.
It can achieve multiple choices of 4 baskets, 6 baskets, and 8 baskets, thereby reducing program time and energy consumption.
Multiple cleaning modes to meet the cleaning needs of various instruments.
Both the loading and unloading sides are equipped with a 9.7-inch 1024 × 768 full HD touch screen display. Real time display of device operating status, load capacity, temperature, pressure, inlet conductivity, Ao value and other parameters.
| Model | KATRINA-160L-Q |
|---|---|
| Total volume of cavity (L) | 160 |
| Overall dimensions (length×width×height) | 1187×870×2060 |
| Cabin volume | 160L |
| Maximum loading capacity | 8 DIN standard instrument trays |
| Opening method | Automatic downward opening door |
| Loading applicability | Standard 3-layer instrument cleaning rack |
| Number of programs | 9 presets+21 custom programs |
| Program printing table | Easy to recognize Chinese curves, list, two options to choose from |
| Circulating water heating method | Steam heating/electric heating/choose one of the two |
| Hot air filter | Equipped with a small filter that can filter out tiny particles of 0.2 μ m |
| Drying method | Pulse drying, vacuum drying |
| Air heating method | Electric heating, 1.2KW |
| Data recording method | Standard micro printer |
| Interface | 9.7-inch high-definition touch screen, resolution 1024×768 |
| Interior observation light | There are light strips inside the doors on both sides |