Page 1
PURö-JZ / PURö-OZ
enhanced oil resistance
TECHNICAL DATA
PUR control and connection cable in alignment with DIN VDE
0285-525-1 / DIN EN 50525-1
Temperature range flexible -20°C to +80°C
fixed -40°C to +80°C
Nominal voltage AC U
Test voltage core/core 4000 V
Breakdown voltage 8000 V
Minimum bending radius flexible 7.5x Outer-Ø
fixed 4x Outer-Ø
CABLE STRUCTURE
n
• Copper wire bare, finely stranded acc.to DINVDE0295Class 5 /
IEC60228Class 5
• Core insulation: oil-resistant PVCin alignment with DINVDE0207363-3 / DINEN50363-3 (compound type TI2), with improved
gliding behaviour
• Core identification acc.to DINVDE0293-334, black cores with
consecutive labeling in white digits
• Protective conductor: starting with 3cores,
G = with protective conductor GN-YE, in the outer layer,
x = without protective conductor (OZ)
• Cores stranded in layers with optimal lay lengths
• Outer sheath: Special grade of full polyurethane acc.to
DINVDE0207-363-10-2 / DINEN50363-10-2 (compound type
TMPU)
• Sheath colour: grey (RAL7001)
• Length marking: in metres
/U 300/500 V
o
PROPERTIES
n
• resistant to: oil, UVradiation, ozone, oxygen, weathering effects,
hydrolysis, microbes, coolants, hydraulic fluids, acids, alkalis, greases, seawater and wastewater
• highly abrasion-resistant, notch-resistant, tear-resistant, cut-resistant, wear-resistant, low adhesion
• for outdoor use
• the materials used during manufacturing are cadmium-free, contain no silicone and are free from substances harmful to the wetting
properties of lacquers
TESTS
n
• oil-resistant acc.to DINVDE0473-811-404 / DINEN60811-404
/ IEC60811-404
• UV-resistant acc.to DINENISO4892-2
• weather-resistant acc.to DINENISO4892-2
APPLICATION
n
Connection and control cable with a high-grade oil-resistant PVCcore
insulation.Due to its resistance to mineral oils, notably against
coolant emulsions, it is suited for use in particularly critical locations
in machine, tool and plant construction, rolling mills and steel-
works.Suitable for flexible applications involving medium mechanical
stress with free movement, without tensile stress and without forced
motion control in dry, damp and wet rooms, as well as outdoors.
NOTES
n
• the conductor is metrically (mm²) constructed, AWGnumbers are
approximated, and are for reference only
Part no. No. cores x
22100 2 x 0.5 20 4.8 9.6 45.0
22101 3 G 0.5 20 5.1 14.4 55.0
22102 4 G 0.5 20 5.5 19.0 65.0
22103 5 G 0.5 20 6.2 24.0 75.0
22104 7 G 0.5 20 6.7 33.6 90.0
22105 8 G 0.5 20 7.4 38.0 105.0
22106 10 G 0.5 20 8.3 48.0 120.0
22107 12 G 0.5 20 8.7 58.0 135.0
22108 14 G 0.5 20 9.5 67.0 170.0
22109 18 G 0.5 20 10.7 86.0 205.0
22110 21 G 0.5 20 11.3 96.0 225.0
22111 25 G 0.5 20 12.6 120.0 270.0
22112 30 G 0.5 20 13.5 144.0 315.0
22113 34 G 0.5 20 14.3 163.0 380.0
22114 42 G 0.5 20 15.8 202.0 415.0
22115 50 G 0.5 20 17.5 240.0 550.0
22116 2 x 0.75 19 5.3 14.4 44.0
22.02.2021 / We reserve the right to make technical changes; the imprint in the image is purely exemplary
22117 3 G 0.75 19 5.6 21.6 53.0
22118 4 G 0.75 19 6.3 29.0 64.0
22119 5 G 0.75 19 6.9 36.0 76.0
22120 7 G 0.75 19 7.5 50.0 96.0
Continued on next page
cross-sec.
mm²
AWG,
approx.
Outer
Ø mm,
approx.
Cu-weight
kg/km
Weight
kg/km,
approx.
Part no. No. cores x
22121 8 G 0.75 19 8.3 58.0 111.0
22122 10 G 0.75 19 9.2 72.0 140.0
22123 12 G 0.75 19 9.8 86.0 170.0
22124 14 G 0.75 19 10.6 101.0 202.0
22125 18 G 0.75 19 12.2 130.0 260.0
22126 21 G 0.75 19 12.7 151.0 269.0
22127 25 G 0.75 19 14.3 180.0 282.0
22128 30 G 0.75 19 15.3 216.0 400.0
22129 34 G 0.75 19 16.5 245.0 475.0
22130 42 G 0.75 19 18.1 302.0 600.0
22131 50 G 0.75 19 19.8 360.0 720.0
22132 2 x 1 18 5.6 19.0 53.0
22133 3 G 1 18 5.9 29.0 63.0
22134 4 G 1 18 6.6 38.0 75.0
22135 5 G 1 18 7.3 48.0 89.0
22136 7 G 1 18 8.1 67.0 115.0
22137 8 G 1 18 8.8 77.0 131.0
22138 10 G 1 18 9.8 96.0 166.0
22139 12 G 1 18 10.4 115.0 201.0
22140 14 G 1 18 11.4 134.0 230.0
22141 18 G 1 18 12.9 173.0 289.0
cross-sec.
mm²
AWG,
approx.
Outer
Ø mm,
approx.
Cu-weight
kg/km
Weight
kg/km,
approx.
Page 2
PURö-JZ / PURö-OZ
enhanced oil resistance
Part no. No. cores x
22142 21 G 1 18 13.8 196.0 306.0
22143 25 G 1 18 15.4 240.0 380.0
22144 32 G 1 18 17.1 308.0 620.0
22145 34 G 1 18 17.7 326.0 645.0
22146 42 G 1 18 19.5 403.0 730.0
22147 50 G 1 18 21.3 480.0 890.0
22148 2 x 1.5 16 6.4 29.0 68.0
22149 3 G 1.5 16 6.8 43.0 87.0
22150 4 G 1.5 16 7.4 58.0 106.0
22151 5 G 1.5 16 8.3 72.0 131.0
22152 7 G 1.5 16 9.2 101.0 173.0
22153 8 G 1.5 16 10.0 115.0 199.0
22154 10 G 1.5 16 10.9 144.0 245.0
22155 12 G 1.5 16 11.8 173.0 293.0
22156 14 G 1.5 16 13.0 202.0 347.0
22157 18 G 1.5 16 14.6 259.0 454.0
22158 21 G 1.5 16 15.6 302.0 534.0
22159 25 G 1.5 16 17.4 360.0 641.0
22160 30 G 1.5 16 18.6 410.0 800.0
22161 34 G 1.5 16 20.0 490.0 945.0
22162 42 G 1.5 16 21.8 605.0 1100.0
22163 50 G 1.5 16 24.2 720.0 1250.0
22164 2 x 2.5 14 7.8 48.0 110.0
22165 3 G 2.5 14 8.3 72.0 146.0
22166 4 G 2.5 14 9.2 96.0 183.0
22167 5 G 2.5 14 10.1 120.0 222.0
cross-sec.
mm²
AWG,
approx.
Outer
Ø mm,
approx.
Cu-weight
kg/km
Weight
kg/km,
approx.
Part no. No. cores x
22168 7 G 2.5 14 11.2 168.0 293.0
22169 12 G 2.5 14 14.8 288.0 512.0
22170 18 G 2.5 14 18.2 432.0 740.0
22171 25 G 2.5 14 21.6 600.0 940.0
22172 2 x 4 12 9.2 77.0 147.0
22173 3 G 4 12 9.8 115.0 228.0
22174 4 G 4 12 10.9 154.0 291.0
22175 5 G 4 12 12.1 192.0 355.0
22176 7 G 4 12 13.2 269.0 503.0
22177 3 G 6 10 11.9 173.0 362.0
22178 4 G 6 10 13.0 230.0 468.0
22179 5 G 6 10 14.5 288.0 570.0
22180 7 G 6 10 16.2 403.0 808.0
22181 3 G 10 8 14.9 288.0 555.0
22182 4 G 10 8 16.5 384.0 720.0
22183 5 G 10 8 18.3 480.0 894.0
22184 7 G 10 8 20.2 672.0 1295.0
22185 4 G 16 6 20.1 614.0 1063.0
22186 5 G 16 6 22.6 768.0 1400.0
22187 7 G 16 6 24.8 1075.0 1800.0
22188 4 G 25 4 25.0 960.0 1590.0
22189 4 G 35 2 28.7 1344.0 2200.0
22190 4 G 50 1 34.1 1920.0 2400.0
22191 4 G 70 2/0 40.2 2688.0 4400.0
22192 4 G 95 3/0 46.0 3648.0 6000.0
cross-sec.
mm²
AWG,
approx.
Outer
Ø mm,
approx.
Cu-weight
kg/km
Weight
kg/km,
approx.
22.02.2021 / We reserve the right to make technical changes; the imprint in the image is purely exemplary
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