Rifle vacuum pumps Leyvac-this is a new design solution in the field of artillery pumping. This line of vacuum pumps is developed using proven technologies for the Dryvac and Ruvac series pumps, which ensures resistance to large overloads, high speed of action. Pumps are designed for use under hard operating conditions and have a very high service life.
Pumps are equipped with water cooling. The speed of action in the range from 80 to 140 M 3 /h.
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|
Name of the parameter |
Meaning |
|
1 entrance flange |
DN 63 ISO-K |
|
2 output flanet |
DN 40 ISO-K |
|
3 maximum speed of action at a frequency, m 3 /h - 50 Hz - 60 Hz |
80.0 96.0 |
|
5 maximum partial pressure, MBAR (mm Hg) |
1.0x10 - 2 |
|
7 acceptable pressure of water vapor at a frequency, MBAR - 50 Hz - 60 Hz |
20.0 30.0 |
|
9 Water Paragraph performance at a frequency, kg/hour - 50 Hz - 60 Hz |
1.24 2.30 |
|
10 Number of working fluid, l |
0.8 |
|
11 noise level, dB - with muffler - stationary exhaust highway |
75 65 |
|
12 leakage, MBAR × l/s |
1.0x10 -5 |
|
12 Curlery consumption, l/h |
180 |
|
13 Permissible pressure of cooling water, bar |
2-7 |
|
14 The permissible temperature of cooling water, o s |
from +5 to +35 |
|
15 pipe for supplying cooling water |
RC 3/8 ’’, internal |
|
16 EDUCTION EL/DOWN. From a network of three -phase alternating current with a frequency of 50/60 Hz, voltage, in |
200-460 |
|
17 Power consumption at maximum pressure at a frequency, kW - 50 Hz - 60 Hz |
2.9 3.2 |
|
19 degree of protection of the electric motor |
IP 54 |
|
20 Permissible ambient temperature, o s |
from +5 to +45 |
|
21 mass, kg |
|
Name of the parameter |
Meaning |
|
1 entrance flange |
DN 63 ISO-K |
|
2 output flanet |
DN 40 ISO-K |
|
3 maximum speed of action at a frequency, m 3 /h - 50 Hz - 60 Hz |
80.0 96.0 |
|
5 maximum partial pressure, MBAR (mm Hg) |
1.0x10 - 2 |
|
7 acceptable pressure of water vapor at a frequency, MBAR - 50 Hz - 60 Hz |
125.0 160.0 |
|
9 Water Paragraph performance at a frequency, kg/hour - 50 Hz - 60 Hz |
1.24 2.30 |
|
10 Number of working fluid, l |
0.8 |
|
11 noise level, dB - with muffler - stationary exhaust highway |
75 65 |
|
12 leakage, MBAR × l/s |
1.0x10 -5 |
|
12 Curlery consumption, l/h |
180 |
|
13 Permissible pressure of cooling water, bar |
2-7 |
|
14 The permissible temperature of cooling water, o s |
from +5 to +35 |
|
15 pipe for supplying cooling water |
RC 3/8 ’’, internal |
|
16 EDUCTION EL/DOWN. From a network of three -phase alternating current with a frequency of 50/60 Hz, voltage, in |
200-460 |
|
17 Power consumption at maximum pressure at a frequency, kW - 50 Hz - 60 Hz |
2.9 3.2 |
|
19 degree of protection of the electric motor |
IP 54 |
|
20 Permissible ambient temperature, o s |
from +5 to +45 |
|
21 mass, kg |
280.0 |
|
Name of the parameter |
Meaning |
|
1 entrance flange |
DN 63 ISO-K |
|
2 output flanet |
DN 40 ISO-K |
|
3 maximum speed of action at a frequency, m 3 /h - 50 Hz - 60 Hz |
125.0 145.0 |
|
5 maximum partial pressure, MBAR (mm Hg) |
1.0x10 - 2 |
|
7 acceptable pressure of water vapor at a frequency, MBAR - 50 Hz - 60 Hz |
125.0 160.0 |
|
9 Water Paragraph performance at a frequency, kg/hour - 50 Hz - 60 Hz |
11.5 18.0 |
|
10 Number of working fluid, l |
0.8 |
|
11 noise level, dB - with muffler - stationary exhaust highway |
75 65 |
|
12 leakage, MBAR × l/s |
1.0x10 -5 |
|
12 Curlery consumption, l/h |
180 |
|
13 Permissible pressure of cooling water, bar |
2-7 |
|
14 The permissible temperature of cooling water, o s |
from +5 to +35 |
|
15 pipe for supplying cooling water |
RC 3/8 ’’, internal |
|
16 EDUCTION EL/DOWN. From a network of three -phase alternating current with a frequency of 50/60 Hz, voltage, in |
200-460 |
|
17 Power consumption at maximum pressure at a frequency, kW - 50 Hz - 60 Hz |
3.9 4.3 |
|
19 degree of protection of the electric motor |
IP 54 |
|
20 Permissible ambient temperature, o s |
from +5 to +45 |
|
21 mass, kg |
300.0 |
|
Name of the parameter |
Meaning |
|
1 entrance flange |
DN 63 ISO-K |
|
2 output flanet |
DN 40 ISO-K |
|
3 maximum speed of action at a frequency, m 3 /h - 50 Hz - 60 Hz |
125.0 145.0 |
|
5 maximum partial pressure, MBAR (mm Hg) |
1.0x10 - 2 |
|
7 acceptable pressure of water vapor at a frequency, MBAR - 50 Hz - 60 Hz |
125.0 160.0 |
|
9 Water Paragraph performance at a frequency, kg/hour - 50 Hz - 60 Hz |
11.5 18.0 |
|
10 Number of working fluid, l |
0.8 |
|
11 noise level, dB - with muffler - stationary exhaust highway |
75 65 |
|
12 leakage, MBAR × l/s |
1.0x10 -5 |
|
12 Curlery consumption, l/h |
180 |
|
13 Permissible pressure of cooling water, bar |
2-7 |
|
14 The permissible temperature of cooling water, o s |
from +5 to +35 |
|
15 pipe for supplying cooling water |
RC 3/8 ’’, internal |
|
16 EDUCTION EL/DOWN. From a network of three -phase alternating current with a frequency of 50/60 Hz, voltage, in |
200-460 |
|
17 Power consumption at maximum pressure at a frequency, kW - 50 Hz - 60 Hz |
3.9 4.3 |
|
19 degree of protection of the electric motor |
IP 54 |
|
20 Permissible ambient temperature, o s |
from +5 to +45 |
|
21 mass, kg |
300.0 |
|
Name of the parameter |
Meaning |
|
1 entrance flange |
DN 63 ISO-K |
|
2 output flanet |
DN 40 ISO-K |
|
3 maximum speed of action at a frequency, m 3 /h - 50 Hz - 60 Hz |
250.0 300.0 |
|
5 maximum partial pressure, MBAR (mm Hg) |
1.0x10 - 2 |
|
7 acceptable pressure of water vapor at a frequency, MBAR - 50 Hz - 60 Hz |
125.0 160.0 |
|
9 Water Paragraph performance at a frequency, kg/hour - 50 Hz - 60 Hz |
---- ---- |
|
10 Number of working fluid, l |
0.8 |
|
11 noise level, dB - with muffler - stationary exhaust highway |
75 72 |
|
|
