You can easily renew the look of your parasol since the canopy and parasol frame are sold separately. Asssembly it all in place is also quick and easy – so you can spend more time relaxing in the shade.
The fabric gives excellent protection against the sun’s UV rays as it has a UPF (Ultraviolet Protection Factor) rating of 50+, which means it blocks 98% of the ultraviolet radiation.
You are protected from the sunshine all day long, since the parasol can be tilted.
The parasol pole is made of aluminium which means it won’t rust.
The dope-dyeing process reduces consumption of water and dyestuff while improving colour fastness compared to traditional dyeing techniques.
The strap with buckle keeps the fabric in place when folded.
With a light, passing rain shower, you can stay and relax under the parasol since the canopy repels water.
Eva Lilja Löwenhielm/IKEA of Sweden
May be completed with TOSTERÖ parasol cover (160 cm).
Complete with VÅRHOLMEN or LINDÖJA canopy so that you have an extra canopy when you want to change the look of the parasol or when a canopy needs to be washed.
Fits into HUVÖN (56 cm) or GRYTÖ parasol base.
The parasol does not provide protection against reflected or scattered solar ultraviolet radiation.
Parasol base is sold separately.
Aluminium, Polyester powder coating
Steel, Polyester powder coating
100% polyester (min. 90% recycled)
The best way to extend the life of your parasol is by cleaning it regularly, protecting it with a cover whenever not in use and storing it in a cool, dry place indoors when the season is over.
Clean: With a mild soapy solution.
Machine wash, max 40°C, normal process.
Do not bleach.
Tumble drying, low temperature (max 60°C).
Iron on reverse, max 110°C.
Do not dryclean.
Always fold the parasol when not in use and never use it when it is windy.
No perfluorinated chemicals (e.g. PFOS, PFOA, PFOSA) are used to make this product water repellent. As perfluorinated chemicals are non-degradable, it’s better for you and the environment to avoid them.
By using recycled polyester in this product, we consume less new raw materials and lower our environmental impact while existing materials get new life.
Polyester is a durable, wrinkle-resistant and easy-care material that is ideal for many home furnishing products like rugs, pillows, quilts and cushions.
The downside to virgin polyester is that it is made from oil, coal or natural gas. This means that when we use virgin polyester, we are exhausting the planet’s natural resources. Our response to this, is to replace all virgin polyester with recycled in our products.
In 2020, we achieved the milestone of replacing 79% of the virgin polyester used in IKEA textile products and will accelerate the transformation towards the aim of only using recycled polyester throughout the product range where polyester is used.
Virgin vs recycled polyester
Originally, all polyester was made from oil-based raw materials which are not renewable but we are switching to only using recycled polyester. The good thing is that polyester can be recycled over and over, without negatively affecting the quality of our products.
When we make products from recycled polyester, we give a second life to material that is not biodegradable and reduce the amount that may otherwise end up in landfill or the ocean. Instead, PET and other sources of polyester are used to make textiles, storage boxes, kitchen fronts and even lamps.
Recycled polyester is just as good as virgin polyester in terms of looks, quality and function, and produces about 50% less in CO2 emissions. And the material is just as clean and safe in every way.
Some challenges with recycled polyester
Recycled polyester makes us less dependent on oil. The amount we convert, is equal to the amount of virgin fossil fuel we eliminate from our polyester raw material (this excludes potential dyeing and other post recycled polyester production treatments).
With some exceptions, the challenge is not the conversion of polyester into recycled itself, but to make it available to everyone by keeping it affordable. Buying low environmental impact products often comes with a higher price tag. We want to change that by working to make recycled polyester products more affordable and accessible to the many people.
Only recycled polyester
IKEA is committed to end the dependency on virgin fossil materials and only use renewable or recycled materials by 2030.
We are accelerating this movement for polyester in our range and aim to replace all virgin polyester in our textile products with recycled. In 2020, IKEA replaced 79% of the virgin polyester used in IKEA textile products with recycled polyester. In volume, this means we converted 130,000 metric tonnes of recycled polyester, and saved 200,000 tonnes of virign polyester.
We haven’t reached our 100% goal yet, but we have come far and overcome many obstacles on the way. These volumes make us a leader in converting to recycled polyester and we hope that our decisions can inspire and motivate whole industries to change.
At IKEA, we demand that all recycled polyester used in IKEA products shall come from recyclers that are compliant with the Global Recycled Standard and traceability is secured to the IKEA product through requirements toward the IKEA Suppliers.
By only using recycled polyester that meets the Global Recycled Standards we manage to secure social, environmental and chemical practices at the recycler’s production. We believe that the GRS standard is the best standard on the market today. We work with our partners and textile organisations such as Textile Exchange to further improve standards on recycled materials, including traceability of material beyond the recycling units.
What is aluminium?
After iron, aluminium is the world's most used metal and has a very wide range of uses. It’s easy to shape and lightweight, but is still strong and durable. In our range we use it for things like kitchen utensils, curtain rods and tealight cups. A big advantage with aluminium is that it can be recycled again and again without losing its quality. Recycling consumes only a fraction of the energy required to produce aluminium from new raw materials.