"SCIENCE AND EDUCATION IN THE MODERN WORLD:
CHALLENGES OF THE XXI CENTURY"
NUR-SULTAN, KAZAKHSTAN, JULY 2019
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Figure 3 – Vacuum pump handling device
1 – elastic platform; 2 – vacuum cavity; 3 – capture body; 4 –
intermediate capacity; 5 –
vacuum pump; 6 – capture control valve; 7 – ring; 8 – sling branches; 9 – plate
The General scheme of the vacuum load gripping device (VSU) is shown in figure 3.
VSU is fixed to CMU by means of a ring 7 and a sling 8. The principle of operation of
the VSU is as follows: the Capture is lowered to the plate 9, then with the help of the pump 5
from the vacuum cavity 2, the air is pumped out, the control valve of the capture 6 is in the
closed state. Due to the pumping of air in the vacuum cavity, a negative pressure is created, and
therefore between the capture and the plate there is a force of attraction. Then plate up, laid on a
sand base, open the valve control engagement, resulting in the cavity of the vacuum air enters
the stove is exempt from seizure.
Figure 4 shows the flow diagram of the precast coating device using a specialized set of
machines (SCM) with the proposed machine for laying plates.
Figure 4 – Technological scheme of the device of precast coatings with the use of
machines for laying slabs
1 – motor grader; 2 – tubular pattern; 3 – machine for stacking plates with the vacuum lifting
device; 4 – the car with a load for pressing of plates; 5 - welding unit; 6 - pourer stitches mixes
mortar; 7 – vehicle; 8 – compressor; 9 – gruntovik; 10 – pourer of seams of bitumen-polymer
mastic
The scheme shows that the use of this machine in the construction of prefabricated
coatings will reduce the number of processes (transportation and laying of plates will be carried