SC Space User manual
18
Content
Technical data 20
Risers 21
Pre-ight check 21
Launching 22
In Flight Characteristics 22
Speed control 22
Turn control 23
Using accelerator 23
Descent Techniques 23
Big Ears 23
B-stall 24
Spiral dive 24
Flying in turbulence 24
Landing 24
Deations 25
Asymmetric collapse 25
Symmetric front collapse 25
Deep stall (parachuting) 25
Full stall 26
Asymmetrical stall 26
Self-rotation 26
Cravat 26
In ight damage 26
Packing Your glider 27
General Glider Care 27
Warrantee and Wing Repairs 28
List of materials. 29
Glider overview 30
Space M line plan 32
19
Thank you for choosing SC Space! This manual will help you to get
maximum information about your glider. This is information about the
design of the Space, advice how to use it best and how to care for it to
ensure it has a long life. The manual also includes technical specica-
tions and line plans.
Space is a high performance 3-liner with all modern technologies on
board. We hope it will present you hundreds kilometers of beautiful
cross country ights and, of cource, prizes in competitions!
SPACE
Warning! Paragliding is a high risk activity. We strongly recommend to learn paraglid-
ing only in certied schools and to choose only the equipment which is correspondent
to Your ying skills.
Space M is certied in EN “D” category. Pilot skill requirements - 300
ying hours.
school
paramotor
cross country
competitions
acro
20
Technical data
The total weight in ight is equal to the weight of the pilot and all the
equipment including the wing. Usually - pilot weight + 15...17 kg.
You can nd list of materials at the end of that manual.
Materials
size S M L
scale 0,967 1 1,032
wing area, sq.m 21,5 23 24,5
span, m 12,27 12,69 13,1
a/r 7
projected area,
sq.m
18,72 19,36 20,62
projected span, m 9,64 9,97 10,29
projected a/r 5,13
total line length, m 246 254 262
weight of the glider,
kg
---
cells 70
Vmin, km/h 25
Vmax, km/h 60
weight in ight, kg 70-90 80-100 90-110
EN -D-
21
Risers
Space has the risers scheme A3 B3 C4 (3 risers).
The risers are equipped with accelerator, that increases the speed
range of the glider. Accelerator travel is 18 cm.
There are special handles on the C-riser, that have to be used for
steering in accelerated ight.
Space does not have trimmers and any other adjustable or removable
or variable device.
You can nd risers drawings at the end of this manual.
Pre-flight check
- Lines are clear and leading edge is open
- Karabiners and maillons are tight
- All harness buckles are closed
- Helmet is on
- Check reserve parachute
- Wind direction is perpendicular to the glider
- Airspace is clear
You are not allowed to change the paraglider construction except
adjusting the brake lines, because it might lead to unpredictability in
ying and make the paraglider dangerous in certain ying situations.
Warning!
22
Launching
Your Space can take-o with both forward and reverse techniques.
Use forward technique when the wind is light, or there is no wind.
Move forward and your glider will start to inate. You must maintain a
constant pressure on the risers until the wing is overhead. Brake it a
little and launch.
Use reverse technique in light to strong winds
Pull the glider by its A-risers. When it is overhead, pull the brakes to
stop the glider, then turn and launch.
In Flight Characteristics
You can change speed by simultaneously pulling or releasing the
brakes or using accelerator. When brakes are pulled approximately
30 cm - you get minimum sink rate.
Speed control
Space has long brake travel, light brake pressure and turns very well.
It also has high resistance to deations in turbulence.
Maximum symmetric control travel is 50 cm.
23
In order to make Space turn with a minimum sink and radius while
pulling the internal brake you should pull very slightly the external one
too. Use weightshift to decrease the spiral radius. If the thermal ow is
narrow and strong, increase the tilt and the rotation speed by releas-
ing the external brake.
Turn control
Descent Techniques
Big Ears
While holding the brakes you should symmetrically pull the А’- risers.
For directional control of the glider use the weight shift. When you do
big ears, the horizontal speed increases slightly. In order to return to
normal ight, you should release the A-risers and pull the brakes a few
times, if necessary.
Spiraling is not permitted with big ears, because of the increased load
on the remaining lines so that they can be physically deformed.
In Flight Characteristics
Space reaches its maximum speed when you pull the accelerator to
its maximum and release the brakes. Use this mode for long-distance
ying and in strong winds. When using accelerator you will have a
maximum speed of about 60 km/h.
Remember, that when you use the accelerator, your glider is more
likely to collapse. We do not recommend to use accelerator, if your
altitude is less, than 100m. If collapse occurs, release accelerator im-
mediately.
Using accelerator
24
Flying in turbulence
You can help your glider to avoid dierent collapses in turbulence -
you must y actively for it. When the glider pitches forward - use the
brakes to slow it, if it goes back - release brakes. These movements
can be symmetric or asymmetric.
Let us remind you once again that you should be very careful choos-
ing the weather to y.
Descent Techniques
Spiral dive
When you hold either brake down for a long time, the glider goes
into a fast sharp turn and loses a lot of height. The rotation axis can
be somewhere between the pilot and the wing. The sink rate could
be more than 15 m/sec. To get out of the spiral dive you must release
the inner brake. Mind that Space may take up to two more turns after
releasing the brake.
While spiral diving, the pilot experiences considerable overload up to
3 – 4g, so you can lose orientation.
B-stall
It’s possible to use B-stall for quick descent on Space, but we do not
recommend it, because wings with high aspect ratio are oen unsta-
ble in B-stall.
Landing
In small winds, when you have 1-2 meters to the ground, you should
pull the brakes gently to your arms’ full length, so that you put your
Space in stall at a height of about 0.2 -- 0.5 m and the horizontal
speed is zero.
25
Landing
In strong winds you must land facing the wind. If necessary you can
fold the ears. As you approach the ground, you must take В-risers
while holding the brakes. As soon as you hit the ground, you must turn
towards the glider and pull B-risers running towards the wing. If the
wing is opping about a meter above the ground, release the B-risers
and pull the brakes hard to your arms length. We do not recommend
you to use the brakes in the strong wind, as the wing could catch the
wind and pull the pilot.
Do not let the glider overtake you and hit the ground with its front
edge, which leads to increased pressure in the wing and may damage
it.
Deflations
Asymmetric collapse
Every paraglider may collapse in turbulent conditions.
Asymmetric collapses can be controlled by weight-shifting away from
the collapse and applying a small amount of brake to control the ight
direction. At the same time you should use the brake to re-inate the
canopy.
Remember that the deated glider has higher stall speed and smaller
brake travel. That is why you should be careful not to pull the brake
too hard to avoid stall. Therefore, if there is a reserve of altitude and
space, you can not to compensate the rotation - Space will take some
speed, pressure inside the canopy will grow and help to open inated
part of the wing. However, in this case, there is a possibility of autoro-
tation - the pilot must be very careful!
Symmetric front collapse
Space comes out of symmetrical front collapse by itself. You can pull
the brakes about a 20 cm to speed the re-ination.
Deep stall (parachuting)
To get out of this mode you must pull А – risers or swing the wing by
pulling and releasing the brakes (preferably the rst one).
26
Deflations
Asymmetrical stall
It can take place when you pull one of the brakes too hard, or while
spiraling at a small speed in turbulence you increase the angle of at-
tack. Rotation in the asymmetrical stall is called negative spiral. This
is one of the most dangerous ying situations. In order to get out
of asymmetrical stall, just release the brakes. There may follow side
thrust forward with a following wing collapse.
Cravat
If the collapsed part of the canopy is entangled in the lines, you must
try to release it by pulling the ear-line. If you cannot do it and the rota-
tion is increasing, you must use the parachute.
Estimate the damage. If a brake has untied - no problem as Space
can be steered well by weight shift and pulling the back risers. Even if
the damage allows for a sustainable controlled ight, you should land
as soon as possible. If normal ight is impossible, you must use the
parachute.
In flight damage
Self-rotation
Increasing rotation usually takes place when the pilot has not reacted
properly to the asymmetric collapse of the accelerated paraglider.
Try to slow down the rotation by counter-shifting your weight in the
harness and pulling the outer brake. If the self-rotation is increasing,
drop the rescue parachute quickly in the direction of the rotation. This
mode can also take place when you make extreme turns of the over-
loaded paraglider.
Full stall
Full stall happens when you pull both brakes too hard. To return
to the normal ight you must release both brakes. After this usually
comes a front dive with a possible front deation.
Just because Space warns the pilot about stalling by increasing the
brake load, it is highly unlikely for you to enter it unexpectedly.
27
General Glider Care
Take care while using Your glider. The inappropriate and/or inac-
curate use may cause the damage of the canopy and lines, and the
glider may become dangerous in ight.
Follow these rules and your Space will be in good condition:
- Do not expose your glider to the sun any longer than necessary
- Keep it away from water and other liquids
- Do not let the front edge hit the ground
- If wet dry Space in shade. If soaked in salty water, rinse the glider
thoroughly in non-salty water
- Keep your glider away from re
- Do not put anything heavy on your glider, do not pack it in a rucksack
too tightly.
- Regularly inspect the canopy, lines, risers and harness. If you nd any
defects, contact your dealer or the manufacturer. Do not attempt to
self-repair the paraglider!
- If you detect a damaged line, inform the dealer or manufacturer
about the line number according to the line plan
- Keep your Space in a rucksack in a dry well-ventilated place under
neutral temperature and humidity conditions
- If you do not use the glider, then once a month you should unpack it,
ventilate it well, and then pack it back in the rucksack.
- Do not wash Space. Do not use detergents or solvents. Clean dirty
places with wet soft cloth or sponge.
Packing Your glider
The paraglider must be folded cell to cell so that the plastic rods at
the leading edge lie at on each other and don’t get bent. Try to pack
your Space as loosely as the rucksack allows, because every fold weak-
ens the cloth.
Avoid packing the glider if it is wet or contains the abrasive particles
(sand, ice...). If the glider was packed wet and/or contains abrasive sta
- unpack it, let it dry and remove the trash from the canopy as soon as
possible.
28
Warrantee and Wing Repairs
The producer guarantees the correctness of the declared character-
istics and the paraglider’s normal performance for two years after the
purchase date, but no more than 200 ying hours. Warrantee for the
lines is 100 hours. The producer conducts special, and after-warranty
repairs and maintenance at the owners’ request for an extra price.
We recommend to inspect your paraglider (including checking sus-
pension line strength, line geometry, riser geometry and permeability
of the canopy material) one time at two years, or every 100 hours of
ying time (whichever comes rst); Those inspection must be made by
manufacturer or dealer.
If damaged, your Space must be repaired by manufacturer, or dealer.
Small holes in Skytex may be repaired with sticky rip-stop tape.
Attention please!
The producer bears no responsibility for non-compliance with the
stated characteristics if:
- the user manual is not followed;
- the paraglider structure is changed in any way;
- the paraglider is self-repaired.
29
List of materials.
Canopy Fabric code Finish Weight Material Suppliyer
Upper sail Skytex 9017 E25A 40 g/sqm Nylon NCV
Bottom sail Skytex 9017 E25A 40 g/sqm Nylon NCV
Ribs Skytex 9017 E29A 40 g/sqm Nylon NCV
Diagonal ribs Skytex 9017 E29A 40 g/sqm Nylon NCV
LE reinforcements Flexon cord 2,4 mm Nylon
Attachement point reinforcements Dacron 170 g/sqm Nylon NCV
Attachement points nylon tape 10 mm Nylon
Thread Zwibond 60 Polyamide Gutterman
Suspension lines Line code Finish Strength Material Suppliyer
Lines - upper level A8000U 90, 70, 50 uncovered 90, 70, 50 aramid Edelrid
Lines - brakes DC60 uncovered 60 daN dyneema Liros
Lines - middle level A8000U 130, 90, 70, 50 uncovered 130, 90, 70, 50 aramid Edelrid
Lines - main level A8000U 230, 200, 130,
90
uncovered 230, 200, 130,
90
aramid Edelrid
Risers Code Finish Size Material Suppliyer
Riser webbing polyester covered 12 mm aramid Cousin
Connectors Maillon rapide 3,5mm stainless steel Peguet
SPACE
30
Glider overview
Общий вид параплана
1 - top surface / верхняя поверхность
2 - bottom surface / нижняя поверхность
3 - air intake / воздухозаборник
4 - lines / стропы
5 - risers / свободные концы
31
Risers
Свободные концы
Risers for Space S,M,L. Length 500 mm
Свободные концы Space S,M,L. Длинна 500 мм
32
Space M line plan
схема строп
33
Lines measurement
SpaceM
Overall lines lengths including risers.
Длины строп включая свободные концы.
ABC brake A-B B-C
1 7490 7390 7470 7635 100 80
2 7410 7310 7390 7385 100 80
3 7400 7300 7380 7375 100 80
4 7460 7360 7440 7305 100 80
5 7400 7310 7380 7155 90 70
6 7340 7250 7320 7125 90 70
7 7310 7220 7290 7175 90 70
8 7340 7250 7320 7025 90 70
9 7170 7080 7100 7055 90 20
10 7110 7020 7040 6855 90 20
11 7030 6940 6950 6855 90 10
12 7030 6940 6950 6885 90 10
13 6910 6830 6840 6885 80 10
14 6890 6810 6820 80 10
15 6640 6810 6660 30 50
16 6580 6580 6620 0 40
34
SPACE
You can use this plan, if you want to order the new line instead of damaged.
Пользуясь этой схемой, Вы можете заказать необходимую стропу у дилера или производителя.
35
SPACE
Wing check and repairs information
Serial number
Production date
Test pilot
Dealer
Date
36
USER’S MANUAL version 1.1
issued February 2017
Harness, used for testing:
Supair - Access M
Harness to risers distance (cm) 43
Distance between risers (cm) 46
Sky Country, 61085 Astronomichna str., 27, 29, Kharkiv, Ukraine
phone +38050 9151530
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