Epe Amw-0.07 User manual

Specifications

Material of Construction

Body : Carbon Steel-Painted or

Low Temp Carbon Steel or

Stainless Steel.

Diaphragm : Nitrile(NBR) or

Epichlorohydrin(ECO) or

Viton (FKM).

Others on request.

Diaphragm Plug : Plastic (Standard) or CS or SS.

Connections

Gas Side : M28x1.5(M) or Dia 8 or

5/16” UNEF/Vg8.

Others on request.

Fluid Side : Female Threaded or

Combination Thread (M+F) or

SAE Ports. Others on request.

Technical Data

Design : Welded shell, non-repairable

Max. Pressure (PS) : 40-350 Bar.

Test Pressure (PT) : 1.43 x PS

Temperature range : -20°C to +80°C (Standard)

Permissible Pre. Ratio(P :P ): Refer page 4

2 0

Max. permissible

precharge pressure P : 130 bar. However limitations

0-max

due to transport regulations.

Nominal capacity : 0.075 to 5 Ltrs.

Fluid

Fluid Viscosity range : 10 to 400 cSt

Recommended viscosity : 32 cSt

Fluid contamination degree: Class 21/17/14

according to ISO 4406

or better on request.

Description

A hydro-pneumatic accumulator is a device used

specifically for storage of liquid under pressure. As liquids,

for all practical purposes, are incompressible, this objective

is achieved by utilizing the compressibility of gases.

A flexible rubber separator i.e., diaphragm is fitted into the

accumulator shell.

An inert gas - nitrogen - is filled into the diaphragm through

a pressure valve to a pressure P . The diaphragm expands,

filling the entire volume V of the accumulator shell.

When the system (circuit) pressure P is higher than the gas

precharge pressure P , the liquid enters the shell and the

diaphragm is compressed reducing the gas volume to V .

Should the liquid pressure rise to P , the volume of gas

reduces to V with an attendant rise in pressure, thus

balancing the Liquid pressure.

A potential energy is now stored in the accumulator to be

utilised whenever needed.

Construction

The accumulator, designed & manufactured according to

directive 2014/68/EU, consists of a pressure vessel on

which the gas connection is located at the top part, while

the fluid connection is in the lower part.

The body contains a flexible rubber diaphragm separating

hydraulic fluid and nitrogen. The diaphragm incorporates a

plug (in polymer, carbon steel or stainless steel), bonded to

the lower part which prevents its extrusion through the

hole of the liquid port.

The top and bottom portions of the Accumulator body are

welded to contain the diaphragm permanently within.

Gas Charging

Pre-loading and Checking Set type-PCM is used with

Version-M Gas Side Connection and type-PC for Version-V.

Accumulators with Version-P are non-rechargeable.

Hydraulic Symbol

AMW

0.75

210

5 6

M PO:10

Diaphragm Accumulator - Welded design

1Type

= AMW

Nominal

Capacity

0.075 Ltrs.

0.16 Ltrs.

0.32 Ltrs.

0.50 Ltrs.

0.75 Ltrs.

1.00 Ltr.

1.40 Ltr.

2.00 Ltr.

2.80 Ltr.

3.50 Ltr.

5.00 Ltr.

= 0.07

= 0.16

= 0.32

= 0.50

= 0.75

= 1

= 1.4

= 2

= 2.8

= 3.5

= 5

o o

Nitrile (NBR) (-20 C to +80 C)

o o

Epichlorohydrin (ECO) (-30 C to +110 C)

o o

Viton (FKM) (-10 C to +150 C)

Without diaphragm

Diaphragm

Material

= P

= Y

= V

= 0

Max. Working

Pressure (Bar)

(available sizes)

040 Bar

100 Bar

130 Bar (1.40 | 2.00)

140 Bar (0.75 | 1.00)

160 Bar (0.50 | 1.40)

210 Bar (0.32 | 0.50 | 0.75 | 1.40 | 2.00 | 2.80)

250 Bar (0.07 | 0.16 | 0.75 | 1.00 | 1.40 | 2.00

2.80 | 3.50 | 5.00)

350 Bar (0.75)

= 40

= 100

= 130

= 140

= 160

= 210

= 250

= 350

Body Material

o o

Carbon Steel (-20 C to +80 C) - painted

o o

Low Temp. CS (-40 C to +80 C) - painted

o o

Stainless Steel (-20 C to +80 C) - unpainted

= C

= L

= X

Certification Factory Testing (design as per PED)

CE/PED directive 2014/68/EU - marking

= 0

= 8

Precharge

Pressure (Bar)

Uncharged condition - Standard

xx Bar at 20 C

= -

= PO-xx

Oil Filling

on Gas Side (ml)

Without any oil fill - Standard

yy ml

= -

= O-yy ml

Others

CS Accumulators painted in RAL9005 - std

Diaphragm plug in Carbon Steel

Diaphragm plug in Stainless Steel

Other requirements (to specify)

= -

= C

= X

= Z

/ /

O:10ml -

To indicate 9/10/11 only if applicable

Fluid Side

Connection

Female Thread

Combination Thread (Male + Female)

SAE Connection

Others

With locking nut (external threading only)

= C..

= E..

= S..

= Z

= ...N

Refer

page 3

Gas Side

Connection

M28x1.5(M) (Rechargeable type)

ø8 (Non-rechargeable / sealed type)

Plunger design (Rechargeable type)

= M

= P

= V..

Refer

page 3

Fluid side

Connection

= C1

= C2

= C3

= C6

= C7

= C8

= E1

= E2

= E3

= E4

= E5

= E6

= E9

= E10

= E11

= E12

= E13

= E14

= E15

= S1-S8

= C4

= C5

= E7

= E8

For upto 250 Bar - Female Thread

G1/2” (F) with ø29

G1/2” (F) with ø34

G3/4” (F)

M18x1.5(F)

G3/4” (F) without spot face

1/2” NPT(F) with 36 Hex

For upto 250 Bar - Combination Thread

M14x1.5(M) with ø5 hole

G1” (M) x G1/2” (F)

M33x1.5(M) x G1/2” (F)

M42x1.5(M) x G3/4” (F)

M32x1.5(M) x M22x1.5(F)

M33x1.5(M) x M22x1.5(F)

M45x1.5(M) x G3/4” (F)

G1” (M) with ø20 hole

G3/4” (M) x M16x1.5(F)

M18x1.5(M) with ø8 hole

M18x1.5(M) with OR

G3/8” (M) with ø8 hole

M27x2(M) x M16x1.5(F)

For upto 250 Bar - SAE Thread

S1 .. S8 (SAE Port Size)

For above 250 Bar - Female Thread

G1/2” (F)

G3/4” (F)

For above 250 Bar - Combination Thread

M33x1.5(M) x G1/2” (F)

M45x1.5(M) x G3/4” (F)

* Before ordering, check for availability

AMW

0.75

210

5 6

M PO:10

0: / /

O:10ml -

To indicate 9/10/11 only if applicable

Gas Side

Connection

M28x1.5(M) (Rechargeable type)

ø8 (Non-rechargeable / sealed type)

Plunger design (Rechargeable)

.. 5/8” UNF(M)

.. 5/8” UNF(M) in Stainless Steel

.. 5/16” UNEF(M) / Vg8

.. 5/16” UNEF(M) / Vg8 - Military design

.. 1/4” BSP(M)

.. 7/8” UNF(M)

.. M16x2(M)

.. M16x1.5(M)

.. Without Gas Valve

= M

= P

= VV

= VX

= V1

= VM

= V2

= V4

= V5

= V6

= V0

Dimensions

Design 1 Design 2 Design 3 Gas Side Connections

Model

Permissible Pre. Ratio

Design

Standard Connection

Weight (kgs)

Diameter D (mm)

Height H1 (mm)

Height H (mm)

MWP (Bar)

Capacity (Ltrs)

Model

Permissible Pre. Ratio

Design

Standard Connection

Weight (kgs)

Diameter D (mm)

Height H1 (mm)

Height H (mm)

MWP (Bar)

Capacity (Ltrs)

Model

Permissible Pre. Ratio

Design

Standard Connection

Weight (kgs)

Diameter D (mm)

Height H1 (mm)

Height H (mm)

MWP (Bar)

Capacity (Ltrs)

AMW-0.07

0.075

250

111

Ø64

0.76

8 : 1

AMW-0.16

0.16

250

99.5

119.5

Ø75

0.95

8 : 1

AMW-0.32

0.32

210

118

138

Ø92.5

1.42

8 : 1

AMW-0.5

0.50

160

127

149

Ø103

1.82

8 : 1

AMW-0.5

0.50

210

129.5

151.5

Ø105

2.00

8 : 1

AMW-0.75

0.75

140

138

160

Ø115.5

2.22

8 : 1

AMW-0.75

0.75

210

140

162

Ø118

2.52

8 : 1

AMW-0.75

0.75

250

144

166

Ø121.5

3.30

8 : 1

AMW-0.75

0.75

350

148

170

Ø125.5

3.92

8 : 1

AMW-1

1.00

140

152

174

Ø130

2.70

8 : 1

AMW-1

1.00

250

158

180

Ø136

4.20

8 : 1

AMW-1.4

1.40

130

170

192

Ø148

3.60

8 : 1

AMW-1.4

1.40

160

172

194

Ø150

3.94

8 : 1

AMW-1.4

1.40

210

176

199

Ø155

5.20

8 : 1

AMW-1.4

1.40

250

180

202

Ø157

6.34

8 : 1

AMW-2

2.00

130

223

245

Ø148

4.68

6 : 1

AMW-2

2.00

210

229

251

Ø155

6.60

6 : 1

AMW-2

2.00

250

233

255

Ø159

8.72

6 : 1

AMW-2.8

2.80

210

247

269

Ø166.5

8.64

4 : 1

AMW-2.8

2.80

250

251

273

Ø170.5

10.86

4 : 1

AMW-3.5

3.50

250

278

300

Ø174

11.44

4 : 1

AMW-5

5.00

250

361.5

383.5

Ø174

14.90

4 : 1

±1

ØD

±2

±1

ØD

±2

±1

ØD

±2

Liquid Side Connection Dimensions

E10

E11

E12

E13

E14

E15

21.5

23.5

16.5

18.5

12.5

Ø39

Ø52

Ø39.9

Ø32

Ø29

Ø23.8

Ø29

Ø32

25.5

G3/4”

G1/2”

G3/4”

G1/2”

G3/4”

G1/2”

M18x1.5

1/2”NPT

Ø34

Ø29

W/O

Ø34

Ø29

M14x1.5

G1”

M33x1.5

M45x1.5

M33x1.5

M42x1.5

M32x1.5

M33x1.5

M45x1.5

G1”

G3/4”

M18x1.5

G3/8”

M27x2

Ø5

G1/2”

G3/4”

G1/2”

G3/4”

M22x1.5

G3/4”

Ø20

M16x1.5

Ø8

M16x1.5

G3/4”(F)

M14x1.5(M)

G1/2”(F)

G3/4”(F)

G1” x G1/2”

M33x1.5 X G1/2”

G1/2”(F)

M45x1.5 X G3/4”

M33x1.5 X G1/2”

G3/4”(F)

G1/2”(F)

M18x1.5(F)

1/2”NPT(F)

M42x1.5 X G3/4”

M32x1.5 X M22x1.5

M33x1.5 X M22x1.5

M45x1.5 X G3/4”

G1”(M)

G3/4”(M) x M16x1.5

M18x1.5(M)

M18x1.5(M)+OR

G3/8”(M)

M27x2 X M16x1.5

Fig Type Thread B E GH I JK L M N

(SPOT FACE)

Thread

Code

(A/F)

Mounting Accessories

General

The accumulators should be properly fitted / clamped on the system. Clamping should not cause the shell or the

accumulator connection to be stressed due to over tightening. It is necessary, especially with larger capacities / lengths,

horizontal mounting or with heavy units, to use fasteners (clamps, brackets etc) that support the accumulator and prevent

dangerous vibrations.

To achieve a high degree of efficiency, the accumulator should be fitted as close as possible to the installation it serves. The

space necessary for charging & gauging kit is atleast 150mm above the gas fill valve.

Position

It is suggested that the accumulators are installed vertically with gas side on top. The manufacturers name plate stating

the initial pressure must be visible. Moreover access to the vent screw, if any, must be kept unobstructed.

The mounting must be such that, should a rupture occur on the pipe system at the liquid connection, or should the gas fill

valve break, the accumulator cannot be pulled from its mounting by the forces involved. No welding or other mechanical

process must be carried out on the accumulator shell for the purpose of attaching fasteners.

The choice of the elastomer used for the seals depends on the liquid to be used and on the operating temperatures

(and at times, storage). In the chart below, each polymer has a designated letter to be used in the ordering code.

Code

letter

Polymer ISO

NBR

Temperature

range (°C)

-20 +80to

Some of the liquids compatible with the polymer

Y ECO -30 +110to

V FKM -10 +1 0to 5

Mineral, vegetable, silicon and lubricating oils, industrial water,

glycols, non-flammable liquids (HFA-HFB-HFC), aliphatic

hydrocarbons, butane, diesel oil, kerosene, fuel oils etc.

Mineral oils and greases, aliphatic hydrocarbons (propane,

butane and gasoline), silicone oils and greases, water at room

temperature, resistance to ozone, aging and weathering..

Mineral oils, greases, non-flammable fluids of group, silicone HFD

oils, animal and vegetable oils, aliphatic hydrocarbons (gasoline,

butane, propane, natural gas), aromatics hydrocarbons (benzene,

toluene), chlorinated hydrocarbons (Tetrachloroethylene, carbon

tetrachloride), fuels (regular, super and containing methanol),

excellent resistance to ozone, weathering and ageing.

Checking & Charging

For Accumulators with M design Gas Valve use Pre-Loading & Checking Set type-PCM. For Accumulators with V design Gas

Valve PC type with appropriate adaptor is to be used. Accumulators with P design Gas Valve - Non-rechargeable type.

When charging, the nitrogen bottles must be capable of delivering pressure higher than the desired accumulator gas

pressure. Use dry industrial nitrogen. NEVER USE OXYGEN OR AIR.

Proceed as follows:

* Fit the suitable pre-charging equipment to the gas valve;

* Connect it to the nitrogen cylinder with the charging hose;

* Slowly introduce nitrogen into the accumulator until reaching a pressure slightly above the required level;

* Close the valve of nitrogen cylinder and disconnect the charging hose from the equipment;

* Wait for the gas temperature stabilization;

* Set the pressure by venting off the excess of gas.

* Tighten the Charging Valve to 20 Nm using torque wrench.

A PRESSURE REDUCING VALVE MUST BE INSTALLED BETWEEN THE NITROGEN GAS CYLINDER AND

THE ACCUMULATOR WHEN THE GAS CYLINDER PRESSURE IS HIGHER THAN MAX PERMISSIBLE

PRESSURE OF ACCUMULATOR.

Bleed

Non-return valve connection

for charging hose

Ring nut

M28x1.5

OR 16x3

Hexagon 6

SW 14

125

Pre-Loading & Checking Set

Type PCM Type PC

Diaphragm materials | Checking & Charging

EPE Process Filters & Accumulators Pvt. Ltd., Techni Towers, C-54/A, APIE, Balanagar, Hyderabad - 500 037, Telangana, INDIA

Ph : +91 40 23778803 | Fax : +91 40 23871447 | [email protected] | www.epe-india.com 8

Certification

All hydraulic accumulators are pressure vessels and are

subject to the national regulations and directives, valid at

the place of installation.

Diaphragm accumulator type AMW are designed and

manufactured as per CE/PED in accordance with Directive

2014/68/EU.

As per the provisions of Directive 2014/68/EU all

accumulators with V ≤ 1 ltr and PS ≤ 1000 bar (PS = max.

working pressure in bar) are not allowed to be CE marked

[Article 4 Clause 3] .

Accumulators of capacity greater than 1 ltr are available

with CE marking. When specified every shipping batch is

provided with a conformity declaration and use and

maintenance instructions.

Safety

All pressure vessels must be protected by means of a

pressure relief valve in accordance with Directive

2014/68/EU. Safety Blocks type-B are used for this

purpose.

The most important elements of the safety-related

equipment are the pressure measuring device (pressure

gauge), device for the preventing excess pressure (safety

valves), non-return valves and shut-off valves and devices

for de-pressurising (bleed valves). These functions can be

performed with individual components or integrated in the

form of a safety block type-B.

Special Instructions

It is strictly forbidden to:

- weld or solder or carry out any mechanical operations on

the accumulator.

- engrave or permanently stamp the surfaces of the

accumulator shell and / or carry out other operations that

could affect or change the mechanical properties of the

accumulator

- use the accumulator as a structural element: it should not

be subjected to stresses or loads.

- change the data of the nameplate and / or accumulator

without the permission of the manufacturer.

- use a different fluid than those designed for .

Installation

Before installation, you must perform a visual check to

verify that the accumulator has not suffered any damage

during shipping / handling. Verify that the requested type

matches with what stamped on the nameplate.

We recommend using the accumulator with a suitable

safety valve or a security safety block type B. This device

provides user and equipment protection against possible

damage caused by pressure surges, and also makes the

maintenance of the accumulator easier, so facilitating the

interception and the discharge.

Provide for a clearance of 200 mm above the gas pre-

charge valve to allow access to and control of the pre-

charge equipment.

These accumulators may be installed in any position from

horizontal to vertical (preferably with the pre-charge

valve at the top), and the identification details must be

visible.

Proceed to the assembly so that no abnormal force

affects the pipes connected directly or indirectly to the

accumulator, so we recommend the use of supporting

components and also fastening to avoid the transmission

of vibrations.

Make sure the fluid is compatible with the elastomer of

the diaphragm.

Check that the max. allowed accumulator pressure is

equal to or greater than that of the hydraulic circuit and

that the temperature during operation is maintained

within the range expected.

Make sure the fluid does not contain contaminants

and/or abrasive.

Disposal

Before the accumulator is sent for disposal or recycling, it

should always be discharged completely of the pre-

charge pressure and the gas valve unscrewed. Pre-

loading and checking kits are suited for this task.

For permanently sealed design Accumulators (Version-P)

the diaphragm is preferably damaged on a test rig or the

accumulator is carefully drilled (Ø ≥ 6 mm) on the gas

chamber using a suitable clamp . As the gas flowing out

can draw metal splinters or particles with it, safety

glasses must be worn.

Environmental Protection

Careless disposal of the accumulator and the residual

fluid contained therein can cause environmental

pollution.

Dispose the Accumulator in accordance with provisions

applicable in the country of use.

Fluid residues are to be disposed according to the

respective safety data sheets valid for the specific

hydraulic fluids.

Special Instructions

EPE/13.001 Rev.5/12-2019

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