WHY SHOULD I CHOOSE POLLY BOOT ?
Polyurethane based Polly Boot Occupational and Work safety Boots, having microcellular structure, which is also termed “air bubbled structure” makes the boots exceptionally lightweight, more durable, flexible and comfortable to wear. By providing a continuous flow of air transfer these bubbles maintain the heat of your feet in winter and summer avoiding
accumulation of cold or warm air inside the boot. Polly Boot boots keep the flexibility and durableness even at minus 30 C. With its flexible feature it enables easy and comfortable use and Polly Boot products are much lighter compared to other boots.
The robust structure and lightweight of Polly Boot boots strengthen you to do your work tirelessly and to remain fresh throughout the workday
Turkey’s the first Polyurethane Safety Boot Producer started the business in 1998, trading quality
PPE products with conscious and liable service concept. As one
of the leading companies in the Personal Protective Equipment
sector of Turkey and with its ongoing R and D activities, our
company follows the sectoral developments both in Turkey and
abroad closely and brings innovation to understanding of
production and servicing in line with the needs identified and
increases the existing market share day by day.
With an annual production capacity of 400 thousand pairs of
occupational and work safety boots.
FOR WORK SAFETY BOOTS
From technical aspect work safety boots are designed to increase the efficiency in
protection and to reduce the risks of accidents. For that reason there are some important
points to be taken into account when buying work safety boots.
Every company has different risks depending on the working ambiance. Work safety boots
are produced by evaluation of alternative choices to bring the best suitable solution for
various risks. When buying work safety boots the risks must be analysed by a comittee at
the production facility to determine the right boots which comply with the requirements.
Also advice service must be taken by experienced customer representatives and as far as
possible they must be given the oppotunity for sighting the production facilities. In
particular it must be utilized from free trial samples that is provided by customer
representatives and after the benefit-cost analysis of the comittee, it can be agreed which
product is the most beneficial for the company. Using an inappropriate product and
without doing risk analysis of the work place the risk of accidents will not be reduced and
no protection properties can be obtained. Therefore, incurred expenditure in such a way
will not meet the expectations. To execuate a risk analysis in the right way, questions of
Sales Experts should be answered completely and clearly and the experts should be given
the possibility of sighting the production facilities.
Work safety boots must certainly bear the CE label. When you buy a work safety boot attention
should be given that accurate full data is available on the CE label.
The certificates of the products that is claimed to comply with nonslip quality requirements
must bear the SRC expression. Product certificates have to be provided from EU approved
Institutions. TSE(Turkey), SATRA (England), CTC ( France), RICCOTEST (Italy) are some of
the institutions. These certificates are recognized with the ‘’EC TypeCertification’’
expression on it. Particularly protective steel toe cap and all other material properties of
the boots must be indicated on the certificate.
-Separate certification is an obligatory for each product group. For that reason you should
make sure that the model description, which is mentioned on the certificate is exactly the
same with the model description of the boot that you would like to buy.
-The materials like steel toe cap have separate certificates. You should take in
consideration that these certificates will not to be present as of the certification of the
-At least OB Standart must be sought in the boots, which have especially antistatic and
double density sole.
Standart- Safety Type
There are standart- safety types applied for work safety boots in Europe. (S4,S5,O4,05,OB
etc.) Customers must be informed about these standarts in detail and they should be
suggested with appropriate BOOTS for their work place. By the time of purchase product’s
qualities must be examined and it must also be controlled whether it complies with the
standart as on label or not. Taking hese elements into consideration by choosing work
safety boots not only it minimizes the risks but also maximizes the productivity of the user.
ABBREVIATIONS STANDARTS AND STATEMENTS
EN ISO 20347 occupational safety boots( non-impact resistance)
OB – Antistatic,shock absorbing heel
05- Antistatic,shock absorbing heel,waterproof,steel midsole plate
EN ISO 20345 Work safety boots
S4- Antistatic,shock absorber heel, protective steel toe boots
S5- Antistatic,shock absorbing heel, protective steel toe + steel midsole boots
TEST RESULTS EN ISO 20345 and EN ISO 20347 standart,
EN ISO 20344 passed test in this standart, high performance and safe materials
comply with the standarts of Europe.
P- Anti-puncture steel midsole
C- Conductive shoes
CI- Cold Insulation
E- Energy absorbtion of heel
WRU- Waterproof Upper
FO- Oil resistant Sole
SRA- Slip Resistant on Ceramic Surface
SRB- Slip Resistant on Steel Surface
SRC- SRA+SRB (Dynamic Fricton Coefficient)
TPU- Thermo Polyurethane
Low density midsole is not only light and flexible but also good at heel shocks and vibrations. It resists to
abrasion, hydrocarbons, oils, cold, slipping and it has high density SRC certificated outsole.
Low density midsole is not only light and flexible but also good at heel shocks and vibrations with its double
density. It resist to abrasion, hydrocarbons, oils, cold, slipping and it has high density SRC certificated outsole.
It has been made from single and double density polyurethane. It is Sweat and shock absorbing, washable and
comfortable PU Innersole.
TS EN ISO 50321 2000- Electrical insulating shoes to work in places with Low Voltage. The electric insulting
shoes’ standart is for places up to a maximum of 1000 V.
TS EN ISO 13287- SRA-SRB-SRC
TS EN 12568- test mode of boot toe’s resistance
TS EN 20344.5.4- Feet Protector- shock resistant indication
TS EN 20344.5.16- Protector of upper part of the feet and 100, 200 joule test method of resistance
The antistatic seams prevent the accumulation of static electricity. Due to its protective inner structure made of %30 wool, %30 acrylic, %40 polyester mixture of felt, it enables high protection and prevents also from negative effects of unfavorable weather conditions.