BLUEWEAR 010351 Safety Shoes Instruction Manual
- June 5, 2024
- BLUEWEAR
Table of Contents
SAFETY SHOES
OPERATING INSTRUCTIONS
Important! Read the user instructions carefully before use.
Save them for future reference. (Translation of the original instructions).
SAFETY INSTRUCTIONS
- Choose shoes that provide the required protection and which are suitable for their application.
- lithe conditions are not known, and the purchaser and seller should discuss the circumstances to ensure the best choice.
- Safety shoes are designed to minimize the risk of personal injury for the wearer during use.
- They are intended to be used in combination with a safe working environment, and cannot fully prevent personal injury in the event of an accident that results in the limit values according to EN ISO 20345:2011 being exceeded.
- The shoes protect the wearer’s toes against injury as a result of dialing objects and crushing injuries with the level of protection described below.
- If the footwear is damaged it will no longer provide the specified protection. Damaged footwear must be replaced immediately to ensure that the wearer is fully protected.
- Only use approved accessories. Non-approved accessories may alter properties and the protective function. Please contact customer services for further details.
- Anti-static footwear should be used where it is necessary to minimize any electrostatic build-up by dissipating electrostatic charges, thus avoiding the risk of spark ignition of, for example, flammable substances and vapors, and if the risk of electric shock from electrical devices or components has not been completely eliminated. It should be noted, however, that anti-static footwear cannot guarantee adequate protection against electric shock as it introduces only resistance between foot and floor. The lithe risk of electric shock has not been completely eliminated, additional preventative measures are essential. Such measures, as well as the additional tests set out below, should be a routine part of the accident prevention program in the workplace.
- Experience has shown that the discharge path through an anti-static product should normally have an electrical resistance not exceeding 1,000 MD at any given time throughout its useful life. A value of 100 k0 is specified as the lowest limit of resistance of a product when new, in order to ensure some limited protection against electric shock or ignition in the event of any electrical apparatus becoming defective when operating at voltages up to 250 V. However, users should be aware that in certain circumstances the footwear may not give adequate protection. Additional measures to protect the user should be taken at all times.
- The electrical resistance of this type of footwear can be changed significantly by flexing, contamination, or moisture. The footwear will not perform as intended if worn in damp or wet conditions. It is therefore necessary to ensure that the product is capable of fulfilling its intended function of dissipating electrostatic charges and providing some protection against electric shock during the whole of its life. The user is recommended to establish a routine test for electrical resistance and to use it at regular and frequent intervals.
- Class, I footwear can absorb damp if used for longer periods and can become conductive in damp or wet conditions.
- If the footwear is worn in conditions where the sole material becomes contaminated, the wearer must always check the electrical properties of the footwear before entering a hazardous area.
- Where anti-static footwear is in use, the resistance of the flooring should be such that it does not invalidate the protection provided by the footwear.
- No insulating objects, apart from normal socks, may be used between the footwear’s insole and the wearer’s foot. If any inlays are used between the insole and the foot, the electrical properties of the combination of footwear and inlay must be checked.
- The footwear comes with a detachable insole. Note that testing is carried out with the insole in place. Only wear footwear with the insole in. The insole may only be replaced with an insole of the same type.
SYMBOLS
**Conforms with the requirements in the relevant EU directives/regulations.
REGULATIONS AND STANDARDS**
- (EU) 2016/425 — Regulation for personal protective equipment (PPE).
- EN ISO 20345:2011— Personal Protective Equipment, safety shoes.
TECHNICAL DATA
The notified body ITS UK (NB 0362) performed the type-examination and issued
the type-examination certificate No. (see the declaration of conformity for
the certification number) The Notified body INTERTEK ITALIA S.p.An (NB 2575),
now owns this document, and it is valid under this notified body.
Intertek Italia S.p.A. Via Guido Miglioli 2/A, 20063 Cernusco sul Naviglio,
Milano (MI),Italy. Notify body 2575.
| Footwear size | 37-47 |
|---|---|
| Marking | S1P SRC |
| European standard | EN ISO 20345:2011 |
MARKING
| Safety class | S1 |
|---|---|
| Supplementary marking | P, SRC |
DESCRIPTION
The toe caps in the safety shoes protect the user’s feet from falling objects and crushing injuries in dangerous working environments.
- The absorbable impact energy is 2001.
- The absorbable static load is 15,000 N.
MARKING
Safety class
Categories for safety shoes
Category| Type*| Additional requirements
SB| I| Basic safety requirements.
S1| I| Sealed heel region.
Anti-static properties.
Energy absorption in the heel region.
Resistance to oil.
S2| I| As S1 plus.
Water penetration and water absorption, upper.
S3| I| As S2 plus.
---|---|---
Penetration resistance.
Cleated outsole.
| | Sealed heel region.
| | Anti-static properties.
S4| II
Energy absorption in the heel region.
| | Resistance to oil.
| | As S4 plus.
S5| II| Penetration resistance.
| | Cleated outsole.
SBH| Hybrid
footwear|
*Type I* is a footwear made of leather and other materials, although not
footwear made entirely of rubber or entirely of polymer
Type II** is footwear made entirely of rubber (fully vulcanized) or
entirely of polymer (fully molded).
SUPPLEMENTARY MARKING
| Marking | Significance |
|---|---|
| P | Penetration resistance (1,100 N). |
Electrical safety
C| Resistance is the passage of current (max. 100 k0).
A| Resistance, anti-static (100 k0 to 1,000 MO).
I| I Electrically non-conductive footwear.
Resistance to aggressive environmental factors
HI| Heat insulation
CI| Cold insulation
E| Energy absorption in the heel region (20J).
WR| Water resistance
m| Metatarsal protection
AN| Ankle protection
CR| Protection against cuts, upper.
Upper
WRU Water penetration and water absorption.
Outsole
HRO| Temperature resistance, contact with hot objects.
FO| Resistance to oil.
Slip safety
SRA| Tile floor with sodium lauryl sulfate.
SRB| Steel floor with glycerol.
SRC| Tile floor with sodium lauryl sulfate Steel floor with glycerol.
NOTE:
There is still a risk of slipping in certain environments.
MAINTENANCE
Shoes are subjected to considerable stress and require meticulous care to last for a long time. Below are various pieces of basic advice regarding how to look after and extend the life of your work shoes:
- Maintain your shoes regularly, check the soles, remove stones, etc.
- Clean your shoes with a damp cloth, or alternatively brush off mud, sand, dust and other dirt with a soft shoe-brush are each use. If the shoes become wet, allow them to dry at room temperature —never in a drying cabinet, on a radiator, or similar.
- If the shoelaces become worn, replace them immediately to ensure a good fit.
- If the shoes become damaged, replace them immediately. Damaged shoes do not provide the specified level of protection and must be discarded.
NOTE
Do not use strong detergents!
STORAGE
The packaging provided with the footwear at the point of sale is designed to
ensure that the footwear is delivered to the customer in the same condition as
it left the manufacturer. The packaging can also be used to store the footwear
when not in use. Do not place any heavy objects on the packaging when the
footwear is inside as this could cause the packaging to collapse and damage
the footwear.
-
The footwear must be stored at a normal temperature and humidity. The estimated lifetime is as follows:
— 10 years from the date of manufacture for footwear with a rubber sole and leather upper.
— 3 years from the date of manufacture for shoes with polyurethane. -
How long the shoes will actually last depends on environmental factors, contamination, and wear.
EU DECLARATION OF CONFORMITY
Item number
010351-010361
Jula AB, Box 363, SE-532 24 SKARA, SWEDEN
This declaration of conformity is issued under the sole responsibility of the
manufacturer.
SAFETY SHOE
TACOMA S1P 37 – 47
Conforms to the following directives, regulations, and standards:
| Directive/Regulation | Harmonized standard |
|---|---|
| PPE (EU)/2016/425 | EN ISO 20345:2011 |
The PPE is identical to the PPE which is subject to EU type-examination
certificate No:| LECF100378464
---|---
Name and address of the notified body involved:| ITS Testing Services (UK) Ltd
(issued the certificate) Centre Court, Meridian Business Park, Leicester, LE19
1WD, United Kingdom
NB 0362
Name and address of the notified body involved:| Intertek Italia S.p.A. (new
NB after transfer of ownership)
Via Guido Miglioli 2/A, 20063 Cernusco sul Naviglio – Milano (MI), Italy
NB 2575
This product was CE marked in a year: -19
Skara 2021-04-21
Maria Sihvonen Grahn
BUSINESS AREA MANAGER
DoC: EN-SE-NO-PL-DE-FI-FR-NL
Jula reserves the right to make changes.
For the latest version of operating instructions, see
mvw.jula.com
JULA AB, BOX 363, SE-532 24 SKARA
2021-12-28
©Jula AB
Documents / Resources
|
BLUEWEAR 010351 Safety
Shoes
[pdf] Instruction Manual
010351, 010361, Safety Shoes
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