SCA Tork EasyCube™ User Manual Computer, server device or smartphone not included. The Tork EasyCube application can be accessed from any available connected device. Devices shown are not the actual size.
SCA 1 Introduction- Tork EasyCube™ Tork EasyCube™ delivers actionable washroom insights through a web user interface. The service consists of Tork dispensers equipped with sensors that communicate the dispenser status and refill needs to a cloud based system, made available for different roles such as a facility manager or the cleaning staff. The system as well includes visitor registration units that can count people passing into a washroom area. Figure 1.
SCA 2 Get an instant overview At any point in time the system will provide a quick overview of the status of the installed dispensers through a web based dashboard. Instantly the user of the web application, for example a facility manager, will be able to spot if dispensers are about to become empty. Figure 2. Status red indicates very soon out-of-paper and Yellow indicates a half-full dispenser. Status green needs no attention. Add a dashboard measurement of a critical location to track its usage. 2.
SCA 3 Technical components used in Tork EasyCube Figure 3 - The different components used for the Tork EasyCube solution 3.1 Sensors A selected range of Tork dispensers is prepared to be equipped with sensor technologies to optimize the function, depending on the field of use. There are three different sensor technologies used within Tork EasyCube: SCU (Sensor Communication Unit) which is used to measure refill levels in Tork dispensers Dispensers with embedded sensors.
SCA . 3.3 Dispensers with embedded sensors Tork dispensers such as Tork Foam Soap Dispenser with Intuition sensor™ do not need an additional Tork EasyCube sensor. Instead, they have an additional radio component within the cassette which forwards information to the DCU via 2.4 GHz radio. Figure 5 - The battery operated, touch free Tork Foam Soap Dispenser The system runs on the same battery as the dispenser, no additional battery is needed. 3.
SCA 4 Wireless Communication There are different sensors in the Tork EasyCube system, but they all communicate in the same manner. Figure 8 - Communication overivew The sensors send data to the DCU with a default defined time interval. The DCU is configured for Tork dispensers with defined status levels, e.g. Almost Empty, Time for Refill and Full . If a change in status occurs, the DCU forwards the information to the back-end server.
SCA 5 Technical Specifications 5.1 Radio Frequency 2.405 GHz Radio standard IEEE 802.15.4 5.2 DCU Power adapter Input: 90-264V AC, Output: 5V DC, 1.2A Battery 3.6V, 4.4Ah Battery backup Up to 10 hours Internet connection GPRS Dimensions 188 x 188 x 33mm / 7.4 x 7.4 x 1.3 inches 5.3 VRU Sensors Infrared (IR) Battery 3.6V, 2.1Ah Dimensions 158 x 23 x 23mm / 6.2 x 0.9 x 0.9 inches 5.4 SCU Sensors Light Battery 3V, 500mAh Dimensions 62 x 50 x 6mm / 2.4 x 2.0 x 0.
SCA Cautions: TM Warning! Only use the power supply provided with the Tork EasyCube . TM Warning! If any of the contents of the Tork EasyCube appear to be damaged or broken, contact SCA Customer Service at 1 866 722 8675. Important: Save this instruction manual for future reference. If any changes to the installation are necessary, please contact SCA for support. No modification of this equipment is allowed. TM Tork EasyCube must be returned to SCA after the end of its service life.
