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Fully Automated H₂O₂-Airlock accessible

The environmentally friendly H₂O₂-technology for material airlock processes.

Ortners passable H₂O₂ material airlocks are suitable as cleanroom compatible decontamination systems for the aseptic introduction or introduction of heat- labile material.

The fast and gentle bio- decontamination with gaseous hydrogen peroxide runs fully automatically. The innovative nozzle system accelerates the gas inlet and outlet as well as the gas distribution within the chamber.

The airlock can be installed as a steplessly accessible version or as a variant on an existing floor. Different loading systems facilitate the daily handling in the airlock area.

The airlock can be easily operated via an intuitively structured user interface using a touch- screen panel. All processes can additionally be controlled and monitored via visualizations.

Controlled Room- to- Room Material Transfer

The passable material airlock is a powerful decontamination system for airlocking and sterilizing goods, material and equipment. 

The environmentally friendly H₂O₂-technology enables an almost unlimited application for material- saving airlock processes. 

Automated H₂O₂-Decontamination Airlock Systems

The automated H₂O₂-decontamination airlock system communicates with the driverless transport and building management system.

It can be integrated into an automated logistics system for a building.

Loading is possible by AGVs, as well as by human operators. The system also recognizes humans as AGVs (Automated Guided Vehicles). 

Automated H₂O₂-Locks
Automated H₂O₂-Locks Ensure Increased Flexibility and Safety
Pull- Out Cabinet
Pull- Out Cabinet with Integrated H₂O₂-Gas Generator
Picture of the H₂O₂-Lock as Ground-Level Design
Drivable H₂O₂-Locks as Ground-Level Designs

Controlled Room- to- Room Material Transfer

The passable material airlock is a powerful decontamination system for airlocking and sterilizing goods, material and equipment. 

The environmentally friendly H₂O₂-technology enables an almost unlimited application for material- saving airlock processes. 

Environmentally Friendly H₂O₂-Technology

User Interface
Intuitive user interface
Environmentally Friendly H₂O₂-Decontamination
Rapid cycle times
Door system is one of the main guarantors
Functional door system
Ortner Plus Symbolgrafik

Ortner Plus

  • Easy integration planning due to standardized compact design
  • Factory-qualified systems including a decontamination test run conducted at the factory
  • Integrated, pneumatically operated H₂O₂-generator for safe and stable decontamination processes
  • Simple seal replacement without the need for door removal
  • 5-liter H₂O₂-containers for multiple cycles
  • Extendable technical area for easy maintenance and calibration work
  • Split design with a plug/in system for easy installation, especially for complex installation situations.

PERFORMANCE DATA

Power supply
400 VAC / 50 Hz /16 A
Max. supply air flow rate
650m3/h
Lock Chamber Tightness
Class 4 (DIN EN ISO 14644-7:2004)
Material of outer cladding
Stainless steel AISI 304, brushed surface
Surface of inner chamber
Brushed surface; Ra < 0.8μm
Material door frame
Natural anodized aluminum
Door material
ESG glass 2x6mm
Door seal
Pneumatic
Maximum noise level
< 67 dB (A)
Supply air filtration technology
H14 Easy Change
Supply air filtration technology
H14 cassette filter
H14 filter DEHS test connections
Yes
Chamber differential pressure control
- 60 to + 60 Pascal
Control unit
Siemens S7 (Safety)
Optical signaling
RGB-LED
Acoustic signaling Alarm buzzer
Outside 1x HMI 15", inside 1x sensor button with segment display
H₂O₂-reservoir
5 litersH2O2-concentration
H₂O₂-pump rate
1-10 grams
Recipe storage space
20x time-controlled; 5x dynamic

SENSOR TECHNOLOGY - BASIC EQUIPMENT

HC-Sensor – ProzessmonitoringHC Sensor – Process monitoring
LC Sensor – Monitoring of threshold limit values (MAK) at 3 measurement points
Air Velocity Sensor – Supply air flow rate
Differential Pressure Sensors – H14 filter monitoring

Additional Options:

  • LC-Sensor lock chamber monitoring
  • HC sensor lock chamber monitoring
  • LC sensors for room monitoring
  • Supply air fan
  • Exhaust air fan incl. chamber pressure control
  • Ram protection in the airlock chamber
  • Exhaust air HEPA filter H14
  • Catalyst 500 or 1000 m3/h and recirculation fan
  • Remote maintenance
  • Audit trail
  • Factory cycle development
  • Rail system
  • Non-contact / automatic door operators
  • Schuko sockets in the lock chamber
  • RFID access management
  • Chamber lighting

Impressions of H₂O₂-Decontamination Airlock

Models in standard version

Model
Interior dimension (mm) W x H x D
Outer dimension (mm) W x H x D
SG-1
1300 x 2100 x 1500
2140 x 2750 x 1620
SG-2
1300 x 2100 x 2000
2140 x 2750 x 2120
SG-3
1300 x 2100 x 2500
2140 x 2750 x 2620

* Models in standard version: Overall dimension outside in height with removable exhaust filter box, catalyst, fans and gas-tight dampers = 3900 mm. Possibility: Can also be placed in a remote or above technical area.

oom in on the lower part of an open glass door of a chamber. Inside is an automatic transport device loaded with a trolley. This trolley is made of rods and is loaded with many small plastic boxes.
In the center is an open glass door leading into a chamber. To the left of it is a small screen embedded in the wall. To the right of the glass door is a small screen embedded in the wall, along with a black button and a yellow-red button.
In the center is a slightly open glass door that leads into a chamber. To the left of it is a small screen embedded in the wall. To the right of the glass door is a small screen also embedded in the wall, along with a black and a yellow-red button. Behind the glass door, you can see a cart made of poles and loaded with many plastic boxes.

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