A guide to bouncy castle and inflatable hire safety
Phil Pike of the Amusement Device Safety Council (ADSC)
explains what to look for when booking inflatables.
If you're hiring a bouncy castle or similar device for your
school event then you may well assume that the supplier you've
chosen will be doing everything that is required of them in terms
of safety. Unfortunately, this isn't always the case. The following
short guide will help you know what to look for and ask for, and
guide you to a safer experience.
This guide relates to the types of bouncy castles and inﬂatable
slides that are typically used at fairs and fun days, where a
continuous inﬂator fan is used to keep the inflatable up and in
How they are made
Any inﬂatable used for commercial purposes in the UK should have
been made to the British Standard BS EN14960:2013. The Standard
includes stipulations on the material that the inﬂatable is made
from, how many anchor points it should have, and where these should
be. Make sure that any inﬂatable you hire mentions in its
documentation that it has been made to this BS Standard.
A bouncy castle is made by stitching together panels of
vinyl-covered material. Because of this it needs to have a
'continuous ﬂow' inﬂator that is constantly running, pumping air
into it continuously as the air escapes naturally through the
stitching. If it suﬀers a tear, rip or failure of the stitching
then it will quickly collapse as the air has found another way to
escape. This type of inflatable will collapse rather than
Castles come with a powered inﬂator (or blower) on them. The
most common type of 'blower' is electrically powered (240 volts).
For this you will need to connect it to a power supply using an
extension lead, so think about how far this will need to reach and
possible trip hazards. You may need to consider an RCD inline (trip
switch) as well. Don't assume that any domestic outlet is suitable
for this, you may need to seek electrical advice. It's best if you
ask for the inflatable hirer to supply any electrical leads needed
as normal domestic types might not be suitable for outside use and
weather resistance. When the inflatable is being set up, have a
visual check over the cables to make sure they are not defective
(electrical tape, wires showing, broken plugs). Think about
possible trip hazards from using cables.
Alternatively, it may be powered by a generator. A generator
will need fencing oﬀ with a ﬁre extinguisher placed close by. Do
not leave spare fuel cans out in the open near the generator.
Check with the supplier as to how the bouncer is inﬂated, as
this may determine where the inflatable can be sited. Many hire
companies and suppliers will assume they will be placing the
inflatable very near to an electric supply that you will provide
The castle also needs to be fenced oﬀ around the back and sides
(maybe even the front) so children can't touch or trip on things
such as the metal anchor stakes or the power inﬂator and electric
It also needs to be placed in a suitable position, away from
trees and hazards such as rubbish bins and walls. The gradient
needs to be fairly level otherwise the inflatable has more chance
of turning over when children are using it.
Areas with potholes and stones, etc should be avoided. Safety
mats (or crash mats) must be placed at entry and exit points. If
the castle is being used on concrete (or similar) or indoors then
extra safety matting may be required.
General condition of the castle
Upon its installation and inﬂation, have a look around the
inflatable. Does it look right? Is it clean? Look for tears or worn
stitching, and check that its shape looks right. If the shape looks
wrong, it may be that some of the internal stitching has come
Check that the castle has the correct-sized power inﬂator. The
safety certiﬁcate for the castle and/or castle ID sticker should
state the size required. The usual size for small inflatables is a
3/4 hp (750 watts) inflator and 1.5hp for larger units. Some
inﬂatables may need two or more inﬂators.
You need to bear this power consumption in mind when running out
extension leads or using a generator. If the castle is not buoyant
enough this may mean that the inﬂator is too small or that the
integrity of the castle stitching needs looking at.
Any inflatable must be made with at least six anchor points.
EVERY anchor point ﬁtted by the castle manufacturer must be used,
even the ones not at ground level (the higher ones help keep a
castle's shape intact and avoid putting additional strain the
The stipulated size of ground stakes for grass use is a 16mm
diameter metal rod at least 380mm long, resembling a shepherd's
crook (rounded top).
Any ropes used to assist anchorage must be in good condition and
strong enough for the task.
Where ground stakes cannot be used, an equally effective way to
anchor the down inflatable down must be found (such as sand bags,
weights or ground fixings). This should be clearly set out in the
operators manual. If weights or other ballast are being used, then
there must be a suitable method of attaching any guy ropes.
The point of anchor in this case should be at ground level to
stop wind from getting under the inflatable. However, the
suitability of using alternative anchoring (other than ground
stakes) may be difficult to determine as their ability to withstand
the necessary force cannot be easily measured. At the very least
each anchor point must be at least 163Kg force on it, but is likely
to need more to achieve the 1600KN force necessary to keep the
inflatable in position.
For indoor use, the inﬂatable will still need to be anchored.
The operator's manual will give guidance on this as although wind
won't blow it away, it still needs to be stopped from moving around
the ﬂoor, kept to its proper shape and stopped from
The speed to remember is 24 miles per hour (38kph).
This is the maximum wind speed in which any inﬂatable, no matter
how many anchor points it has, can be used. However, an inﬂatable
may have a maximum operational wind speed less than this, so you
need to check.
A wind meter, often referred to as an anemometer, must be in
operation where the inﬂatable is being used. Wind measurements
should be taken at frequent intervals to ensure that wind
conditions are okay for the continued operation of the
inflatable. Using a weather app or weather forecast is not
considered accurate enough as these are not based on local
readings. Factors such as trees, buildings, hills and wind-alley
conditions on site can inﬂuence this in either direction.
Although weather apps can be used to help predict conditions
predictions they may only show 'average' wind speeds, so 'gust' and
maximum speeds need to be accounted for.
Users and supervision
All inﬂatables should be supplied with operational information.
This is very important if you have 'dry hired' the inflatable (the
operator has set it up and then left it for you to supervise). This
sheet will contain information about the number of children allowed
on it at one time relating to their height (this should also be on
a patch stitched on by the manufacturer). Information should also
contain advice about the type of behaviour not allowed on the
Do not let children climb on castle walls or somersault. Unless
otherwise stated, shoes should be removed to prevent people
accidentally being kicked by others. Glasses may need to be removed
and pockets should be emptied.
It should be supervised at all times, and the supervisor should
have a whistle to gain the attention of the children. The
supervisor must be over 18 years old.
Throughout the event, someone should continue to check the
castle to make sure anchor points haven't dislodged, that the
inﬂation tube between the castle and blower is secure and that any
rips or tears haven't occurred.
Certificates and other safety
You should ask your supplier for the following documentation and
• Public liability insurance cover
• Safety certiﬁcate(s) for their equipment
• Risk assessment
• Operator's manual
Inﬂatables should have regular tests carried out on them to
check their integrity. This test should have been carried out
within the previous 12 months. The best way to insure that this
test has been done by a qualiﬁed (or competent) person is if it has
been tested by someone who has issued it with a PIPA or ADIPS
certiﬁcate. Certiﬁcates issued this way can be checked online on
the PIPA or ADIPS websites, meaning there is less chance of
fraudulence. They will also have a PIPA tag or some type of
identiﬁcation on them.
You should also read the risk assessment of the inﬂatable as
this will help inform you of the factors that need addressing. Any
electric inﬂator should have had a PAT test (electrical test) as
If you have many inﬂatables at a fair then it may also be
advisable to have some kind of ﬁrst aid presence.
The operator or supplier
It is also worth noting that there are a number of trade
associations of which inﬂatable operators can be members. Although
not being a member of such an organisation should not be viewed
adversely, if a supplier does belong to a trade association this
normally indicates that they have been vetted and are informed of
relevant regulations and guidance.
Read our bouncy castle and inflatables
A good resource for further reading is the Health & Safety
Executives (HSE) website, where you'll find recently updated guidance on inflatables.
The Amusement Device Safety Council (ADSC) is the policy setting
body for ADIPS and the focal point for industry related safety
matters. Its vision is to encourage, promote and develop safe
practice within the fairground and amusement park industry
throughout the UK. The ADSC is formed from fairground, leisure
and testing representatives of each of the following associations.
BACTA, BALPPA, SGGB, NAFLIC, SIRPS, ALES, ACES and the AIS. It
administers and manages (through ADIPS Ltd) the Amusement Device
Inspection Procedures Scheme (ADIPS).
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