Festo YSRWJ-7-10-A Bruksanvisning

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Side 1/3

YSRWJ

Stop element

Festo SE & Co. KG

Ruiter Straße 82

73734 Esslingen

Deutschland

+49 711 347-0

www.festo.com

Operating instructions

8158274

2021-09b

[8158276]

Translation of the original instructions

1 Applicable Documents

All available documents for the product

è www.festo.com/sp.

2 Safety

2.1 Safety instructions

–Only use the product in its original condition without unauthorised modifica-

tions.

–Observe the identifications on the product.

–Store the product in a cool, dry environment protected from UV and corrosion.

Keep storage times short.

–Before working on the product, switch off the power supply and secure it

against being switched on again.

2.2 Intended use

The product is intended for use in cushioning the force of linear moving masses in

an axial direction.

The product is not suitable for rotary drives and for use in damp environments.

2.3 Training of qualified personnel

Work on the product may only be carried out by qualified personnel who can eval-

uate the work and detect dangers. Personnel must have the relevant mechanical

training.

3 Additional information

–Contact the regional Festo contact if you have technical problems

è www.festo.com.

–Accessories and spare parts è www.festo.com/catalogue.

4 Product overview

4.1 Product design

Fig. 1: Product design

Shock absorber

Spanner flat

Nut for securing the shock

absorber

Slot for proximity switch

(optional)

Rubber buffer (YSRWJ-7/8 only)

Stop plunger

Male thread for mounting and

positioning

Lock nut (2x)

Cross-hole nut for precision posi-

tion adjustment

4.2 Function

Insertion force F2 acting on the limit plunger moves the piston rod of the hydraulic

shock absorber through the cushioning length s to the end position.

When the piston rod is retracted, the hydraulic fluid in the shock absorber flows

through a path-dependent flow control valve and cushions the motion.

If the insertion force is less than the reset force F1 of the internal compression

spring, the stop plunger returns to the initial position.

F1 Reset force

F2 Insertion force

s Stroke/cushioning distance

Tab. 1: Function

The ring magnet is located on the stop plunger. The magnet enables end-position

sensing by an optional proximity switch.

10 1

Fig. 2: Internal product design

Shock absorber

Ring magnet

5 Mounting product

Mounting options:

–in through-hole

–in through thread

Mounting in drilled hole

Lock nut mounting, at both ends

The lock nuts must not protrude beyond the threaded area.

Tab. 2: Mounting in drilled hole

1. Insert the product up to the intended stop position.

When positioning, observe the maximum dimension x.

2. Secure the product with lock nuts. Tighten the lock nuts to the tightening

torque.

Mounting in thread

Lock nut mounting on one side

The lock nut must not protrude beyond the

threaded area.

The mounting surface must not protrude beyond

the thread area.

Tab. 3: Mounting in thread

1. Screw in the product up to the intended stop position.

When positioning, observe the maximum dimension x.

2. Tighten the lock nut to the tightening torque.

Size 5 7 8

Dimension x [mm] 15 20 20£ £ £

Lock nut

Tightening torque

[Nm] 2 3 5

Tolerance ± 20%

Tab. 4: Dimension x and tightening torques

Adjusting product

Fig. 3: Loosen lock nut

1. Position the mass to be cushioned at the intended end position.

2. Loosen the lock nut on the side of the cross-hole nut.

3. Adjust the position of the stop element in accordance with the mounting.

When mounting in drilled hole When mounting in thread

Turn the loaded lock nut in the desired direc-

tion. If necessary, hold the stop element

against the cross-hole nut.

Turn the cross-hole nut in the desired direc-

tion.

One revolution corresponds to approx. 1 mm stroke change.

4. Fix the position of the stop element. At the same time, tighten the lock nut on

the side of the cross-hole nut.

5.1 Mounting

5.2 Aligning product

–Observe the axial direction of force of the moving mass to the axis of the shock

absorber.

–The mass must contact the piston rod over a wide area.

Force direction, max. deviation Alignment of the mass

Tab. 5: Permissible axial force direction and alignment of the moving mass

5.3 Mounting accessories

Mounting optional proximity switch

Fig. 4: Mounting proximity switches

Slot for proximity switch

Proximity switch (optional)

• Place the proximity switch in the slot and fasten it in accordance with the end

position of the shock absorber.

6 Commissioning

6.1 Executing test run

1. Start the test run at the drive at reduced velocity.

2. If necessary, readjust the position of the stop element.

3. Gradually increase the velocity of the drive to the operating value in steps.

ÄIf set correctly, the end position is reached without a hard stop.

With hard stop:

–Reduce the impact velocity if necessary.

–Check function and design of the stop element.

6.2 Notes on operation

Energy absorption

• Only use the shock absorber within the permissible range of 25% to 100% of

the maximum energy absorption

è 10 Technical data.

Recommendation: use the shock absorber within the optimum range from

50% to 80% of the maximum energy absorption.

Energy absorption Note

0 … 25% Unfavourable; fluid leakage at the shock absorber may be

increased

25 … 50% Permitted

50 … 80% Optimal

80 … 100% Permitted

> 100% Impermissible

Tab. 6: Energy absorption of the shock absorber

Cushioning effect

The viscosity of the hydraulic fluid declines over its operating life due to the

generated friction heat. This can reduce the cushioning effect.

7 Maintenance

Maintenance interval Maintenance work

Every 2 million load changes Check shock absorber:

–sealing, no fluid leakage

–Cushioning distance s è 10 Technical data

In case of leakage, hard stop or cushioning distance too short:

replace shock absorber.

Every 5 million load changes Replace rubber buffer.

Every 10 million load changes Replace shock absorber.

Tab. 7: Maintenance schedule

The hydraulic fluid in the shock absorber cannot be topped up or changed.

The shock absorber cannot be repaired.

7.1 Replacing shock absorber

123116

Fig. 5: Replacing shock absorber

Shock absorber

Spanner flat

Nut for securing the shock absorber

Stop plunger

Connecting clip

1. Release the load on the stop plunger .6

2. Loosen the nut on the shock absorber.3

3. Unscrew the shock absorber, if necessary with a tool on the spanner flat.

4. If the connecting clip was removed with the shock absorber, press theaA

connecting clip on the new shock absorber.

5. Screw in the new shock absorber to the stop.

6. Tighten the nut to the tightening torque.3

Size 5 7 8

Nut 3

Tightening torque

[Nm] 2 3 5

Tolerance ± 20%

7. Actuate the stop plunger slowly until it reaches the end position and then

release the load.

ÄThe connecting clip clicks into place.

8 Fault clearance

Malfunction Possible cause Remedy

Leakage/fluid leakage Shock absorber faulty Replace shock absorber.

Noisy impact at the start of the

stroke

Rubber buffer worn Replace rubber buffer

(YSRWJ-7/8 only).

Hard stop in the end position Stop element overloaded Reduce impact velocity or

check the layout of the stop

element.

Shock absorber faulty Replace shock absorber.

Malfunction during position

sensing

Incorrect position of proximity

switches

Correct position of proximity

switches.

Incorrect proximity switch type

used

Only use proximity switches

type SME/SMT-8-...-B.

Proximity switch defective Replace proximity switch.

Ferritic parts in the vicinity of

the proximity switch

Use parts made from non-mag-

netic materials.

Tab. 8: Fault clearance

9 Dismantling and disposal

CAUTION

The product contains pressurised hydraulic fluid that can escape in an uncon-

trolled manner if the housing is damaged.

The hydraulic fluid can injure people's eyes and skin and damage the environ-

ment.

• Have the product disposed of by a qualified waste disposal company.

• Do not destroy the product in order to drain the hydraulic fluid.

10 Technical data

Size 5 7 8

Stroke/cushioning distance s [mm] 7.5 9.5 13.5

Male thread M8x1 M10x1 M12x1

Mode of operation Single-acting, pushing

Cushioning Self-adjusting

Mounting position Any

Max. mass1) [kg] 2 5 10

Max. energy absorption per stroke

at +20 °C1)

[J] 1 2 3

Max. energy absorption per hour

at +20 °C1)

[kJ] 10 15 21

Impact velocity [m/s] 0.1 … 2 0.1 … 3

Min. insertion force F2[N] 5 18 80

Max. stop force at end position [N] 200 300 500

Min. reset force F1[N] 1.5 2 3.5

Reset time at 20 °C [s] 0.2£

Reset time at 0 °C [s] 1£

Ambient temperature [°C] 0 … +60

1) At higher temperatures in the range of 80 °C: the max. mass and the max. energy absorption are

reduced approximately 50%.

Tab. 9: Technical data

Produkspesifikasjoner

Merke:	Festo
Kategori:	Ikke kategorisert
Modell:	YSRWJ-7-10-A

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