Filters series UCML 60

In-line medium pressure filters

In-line medium pressure filters

Index

Technical data

1

Filters series UCML 60

2

Filters series UCML 90

4

Accessories

6

Spare parts

7

Uni-Cardan Italia S.p.A. reserves the right to make technical changes to the products without notice. The products shown in this catalogue have been developed by Uni-Cardan Italia S.p.A., a company owned by GKN Automotive.

In-line medium pressure filters series UCML

Description

Technical data filter elements

The UCML series filters are suitable for in-line installation on low-medium pressure hydraulic circuits with flow rate up to 90 l/min. The filters series UCML are available with By-pass valve set at 6 bar and visual clogging indicators.

l A/B: paper treated with resin, filtration rating 10 and 25 microns ßx ≥ 2 l F/N/G/H: inorganic fiber, filtration rating 3, 6, 10 and 25 microns ßx ≥ 200 l L/M: stainless steel mesh (AISI 304), filtration rating 10 and 25 microns l C: steel mesh, filtration rating 60 microns l End cap in galvanized steel l Support tube in galvanized steel l Support mesh in galvanized steel with epoxy coating

Technical data complete filter l Filter head in tempered aluminium alloy l Filter bowl in tempered aluminium alloy l Max working pressure = 110 bar l Max test pressure = 220 bar l Differential collapse pressure filter elements = 20 bar l By-pass valve set at 6 bar ± 10% l Working temperature –25° C up to +110° C l 1/2” BSP thread connections

Filter elements are manufactured in accordance with the following ISO standards: l ISO 4572 Filtration performance valuated with Multi-pass test l ISO 2941 Verification of collapse/burst resistance l ISO 2942 Verification of fabrication integrity and determination of the first bubble point l ISO 2943 Compatibility of materials with fluids (type HH, HM, HR, HV, HG according with ISO 6743/4) l ISO 3723 Method for the end load test l ISO 3724 Verification of flow fatigue characteristics l ISO 3968 Evaluation of pressure drop versus flow characteristics

1

Filters series UCML 60

Pressure drop (in accordance with ISO 3968)

The assembly pressure drop is obtained by adding the ��

pressure drop of the filter housing with the pressure drop of the filter element.

Filter elements pressure drop

���� ���

�

��

��

��

��

���

Pressure drops in the filtering elements All the curves have been obtained using mineral oil with kinematic viscosity of 30 cSt. The pressure drop is

��

proportional to the variation of kinematic viscosity.

��

�p (bar)

CML 60

6,0

F

4,5 G

3,0

H 1,5 0,0 0

15

30

45

60

75

90

Flow rate [l/min]

Type

Max flow

Weight

UCML 60

60 l/min

0,95 kg

�p (bar)

CML 60

1,2

L

0,9 0,6

Filtration area (cm2)

2

A B M C

0,3

A

B

C

F

G

H

L

M

240

240

314

336

336

336

314

314

0,0 0

15

30

45

60

Flow rate [l/min]

75

90

Filter Housing pressure drop

How to order the complete filter

Housing pressure drop All the curves have been obtained with mineral oil with a density of 860 Kg/m³. The pressure drop is proportional to the variation of density.

By-pass valve

Size Series

S

Without By-pass

In line complete filter

R

With By-pass set at 6 bar

UCML 60

�p bar ��� ��� ���

Flow limit

��� ��� ��� ��� ��� � �

� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� ��

�

Flow rate [l/min]

U C M L

6 0

A N R

Filtration elements

By-pass valve pressure drop

By-pass valve pressure drop All the curves have been obtained with mineral oil with a density of 860 Kg/m³. The pressure drop is proportional to the variation of density.

�p bar

UCML 60

�� �

_

Without filter element

A

Paper treated with resin 10 µ ßx ≥ 2

B

Paper treated with resin 25 µ ßx ≥ 2

C

Steel mesh 60 µ

F

Inorganic fibre 3 µ ßx ≥ 200

G

Inorganic fibre 10 µ ßx ≥ 200

H

Inorganic fibre 25 µ ßx ≥ 200

L

Stainless steel wire mesh (AISI 304) 10 µ

M

Stainless steel wire mesh (AISI 304) 25 µ

N

Inorganic fibre 6 µ ßx ≥ 200

Seals N

Nitrile Buna-N

V

Viton

�

� � 0

4

8

12

16

20

24

Flow rate [l/min]

3

Filters series UCML 90

Pressure drop (in accordance with ISO 3968)

The assembly pressure drop is obtained by adding the ��

pressure drop of the filter housing with the pressure drop of the filter element.

Filter elements pressure drop

���

���� ���

�

��

��

��

��

Pressure drops in the filtering elements All the curves have been obtained using mineral oil with kinematic viscosity of 30 cSt. The pressure drop is

���

proportional to the variation of kinematic viscosity.

CML 90

F

��

�p (bar) 2,0

1,5

G

1,0

H

0,5 0,0 0

15

30

45

60

75

90

Flow rate [l/min]

Type

Max flow

Weight

UCML 90

90 l/min

1,25 kg

�p (bar)

CML 90

0,60

L

0,45

Filtration area (cm2)

0,30 A

A

B

C

F

G

H

L

M

0,15

495

495

642

688

688

688

642

642

0,00

B M C 0

15

30

45

60

Flow rate [l/min]

4

75

90

Filter Housing pressure drop

How to order the complete filter

Housing pressure drop All the curves have been obtained with mineral oil with a density of 860 Kg/m³. The pressure drop is proportional to the variation of density.

By-pass valve Size

UCML 90

�p bar ���

S

Without By-pass

R

With By-pass set at 6 bar

Series

��� ���

Flow limit

���

In line complete filter

��� ��� ��� ��� � �

� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� �� ��

�

Flow rate [l/min]

U C M L

9 0

A N R

Filtration elements _

Without filter element

A

Paper treated with resin 10 µ ßx ≥ 2

B

Paper treated with resin 25 µ ßx ≥ 2

C

Steel mesh 60 µ

F

Inorganic fibre 3 µ ßx ≥ 200

G

Inorganic fibre 10 µ ßx ≥ 200

H

Inorganic fibre 25 µ ßx ≥ 200

L

Stainless steel wire mesh (AISI 304) 10 µ

M

Stainless steel wire mesh (AISI 304) 25 µ

N

Inorganic fibre 6 µ ßx ≥ 200

Seals N

Nitrile Buna-N

V

Viton

By-pass valve pressure drop

By-pass valve pressure drop All the curves have been obtained with mineral oil with a density of 860 Kg/m³. The pressure drop is proportional to the variation of density.

�p bar

UCML 90

�� � �

� � 0

4

8

12

16

20

24

Flow rate [l/min]

5

Accessories

How to order

Clogging indicators

42

70

45

CH 30 1/2" BSP

28

*1/2" BSP

CH 30

1/2" BSP

U C F

D V

5 0 0

-

Ø 16

Ø 16

Description

Code

UCF-DV500

Setting

45

Visual indicator

UCF DE500

Visual-electrical indicator

UCF DR500

Visual - electrical indicator with “Reed” contacts

70

UCF DV500

SP

* 1/2" BSP

CH 30

5 bar

Thread

Ø 16

UCF-DR500

1/2” BSP

M

M 20x1.5

42

70

45

-

CH 30

28

*1/2" BSP

1/2" BSP

CH 30

Breakdown voltage Ø 16

Ø 16

Series UCF-DE500: Change over contacts with the following values

UCF-DE500

* Differential visual indicators are available also with M20x1.5 thread

A

B

A

B

A

B

A

B

Voltage (V)

Resistive load (A)

Inductive load (A)

A.C. 125

5

5

A.C. 250

5

5

Symbol

D.C. 15

10

10

D.C. 30

5

5

With By-pass

D.C. 50

2

2

D.C. 125

0,5

0,06

A

A

A

A

B B B UCF-DV500 B

A

N.A.

N.A.

N.A.

N.C.

N.C.

N.C. 3

C

C

C

2 3

1

2

1

2 3

Series UCF-DR500: Power with inductive load

1

B UCF-DE500 UCF-DR500

(V)

(VA)

A.C. 3 - 115

20

D.C. 3 - 115

20

Without By-pass A

6

B

A

B

A

A

B B

A

A

A

A

B B B UCF-DV500 B

A

A N.A.

N.A. 2

N.A.

N.C.

N.C. 3

N.C.

C

C

C

1

2 3

1

B UCF-DE500 UCF-DR500

A

A

A

A

A

A

A

A

2 3 1

B

B

B B

B

B

B

B

B

N.A.

N.A. 2

N.A.

N.C.

N.C. 3

N.C.

C

C

C

1

2 3

1

2 3 1

How to order

Spare parts Size 60

Cartridge series CML

90

Seals

Cartridge size In-line filter UCML

CML

C M L

6 0

N

Nitrile Buna-N

V

Viton

A N

Filtration elements A

Paper treated with resin 10 µ ßx ≥ 2

B

Paper treated with resin 25 µ ßx ≥ 2

C

Steel mesh 60 µ

F

Inorganic fibre 3 µ ßx ≥ 200

G

Inorganic fibre 10 µ ßx ≥ 200

H

Inorganic fibre 25 µ ßx ≥ 200

L

Stainless steel wire mesh (AISI 304) 10 µ

M

Stainless steel wire mesh (AISI 304) 025 µ

N

Inorganic fibre 6 µ ßx ≥ 200

7

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