Introduction
Thank you for choosing our GLISS 2000TC ratiomotor. All items in the wide Cedamatic production range are
the result of twenty-years' experience in the automatism sector and of continuous research for new materials
and advanced technologies. We are, therefore, in the position to offer higly reliable products that due to their
power, effectiveness and useful life, fully satisfy the final user's requirements.
All our products are manufactured to the existing standard and are covered by warranty.
Possible injury to people or accidents caused by defects in construction are covered by a civil liability policy
drawn up with one of the major insurance companies.
1. General information
For an efficient operation of the sliding automatic mechanism, the gate must have the following features:
- The guide rail and its wheels must be suitable in size and mantained to prevent gate from excessive sliding
friction.
- When running, gate must not rock excessively.
- Opening and closing stroke must be regulated by a mechanical limit stop (to safety standard in force).
2. General features
Automation with three-phase power supply for sliding gates with max weight of 2000 Kg.
The small and elegant design enbloc GLISS 2000TC consists of an aluminium unit containing the motor and
irreversible reduction unit, realized with high-grade materials. The GLISS 2000TC has a spring-operated
travel-end. A personalized key emergency release enables manual gate operation in the event of power failure.
3. Installation of the foundation plate
Dimensions of the foundation plate are shown in Fig. 1.
It is essential to keep the distance from the rack, in order to position and remove the actuator once the rack
is fitted to the gate leaf.
The types of fittings of the foundation plate are mainly the following:
1 Installation without adjustment in height on the already existing base in concrete (Fig.2).
By using the plate as drilling template, drill 4 holes Ø10mm, and insert the steel threaded screw anchors,
Ø10x120mm, similar to those shown in Fig. 2.
Lock the actuator directly to floor, as indicated in Fig.7.
2 Installation with adjustment in height on the already existing base in concrete (Fig.3).
By using the plate as drilling template, drill 4 holes, and insert the Ø 10mm steel screw anchors for threaded
bars.
Tighten the 4 threaded bars, M10/120mm, and anchor the screw anchors by tightening the nuts "B" to floor
with the corresponding washers.
With reference to Fig. 3, position the foundation plate by means of the adjustment nuts "A". After carrying out
the required regulations, position the motor as shown in Fig.6, and lock it, as indicated in Fig.7.
3 Installation with adjustment in height on concrete base.
With reference to Fig. 4, fit the stretcher bolts on the foundation plate and provide for a hole of adequate
size.
Immerse the stretcher bolts in concrete, then remove the nuts "D" and the 11x30, large band washers "R".
Move them under the plate to allow for regulations in height of the actuator (Fig. 5).
Carry out the regulations shown in Fig. 6 and lock the motor as indicated in Fig.7.
CAUTION: apart from the fitting modality used, carefully check that the actuator is steadily positioned
and the materials are suited to the intended use.
4. Rack fixing
Iron rack, 12x30mm.
Position the spacers D by welding or fit them to the gate with screws at 130/150mm height from the centre
line of the slot used for fitting to the base on which the foundation plate is to be fixed. Keep the pitch of teeth
between the two parts of the rack; the joining with another piece of rack would make it easier to achieve (see
Fig.8).
Secure the rack with the screws V making sure, once the actuator has been installed, that between rack and
the drive gear there is always approx. 1mm clearance (see Fig.9); to get this clearance use the slots on the rack.
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