BY SOLAR PANEL

CONTENTS
SOLAR
RECOMMENDATIONS
P. 1
PARTS LIST
P. 2
HOW DOES A SOLAR CELL WORK
P. 4
OPERATING THE BATTERY CHARGER WITH THE SOLAR PANELS
P. 5
ABOUT GEARS
P. 6
ABOUT CHAIN GEARS
P. 8
TIPS AND TRICKS FOR MODEL BUILDING
P. 9
22 MODELS CAN BE BUILT
P. 10
MODEL 1 - SOLAR-WIND SAILCAR
P. 14
MODEL 2 - AMPHIBIOUS BOAT
P. 16
MODEL 3 - RACING CAR
P. 18
MODEL 4 - SCOOTER
P. 20
MODEL 5 - MOTORCYCLE
P. 22
MODEL 6 - SIDE-CAR MOTORCYCLE
P. 24
MODEL 7 - LOCOMOTIVE
P. 26
MODEL 8 - BEACH BUGGY
P. 28
MODEL 9 - TRAILER
P. 30
MODEL 10 - FORK-LIFT TRUCK
P. 32
MODEL 11 - ROAD ROLLER
P. 34
MODEL 12 - CEMENT MIXER TRUCK
P. 36
MODEL 13 - OIL TANKER
P. 38
MODEL 14 - BACKHOE
P. 40
MODEL 15 - STREET-SWEEPING CAR
P. 42
MODEL 16 - MAINTENANCE CAR
P. 44
MODEL 17 - HELICOPTER
P. 46
MODEL 18 - TWIN-PROP AIRPLANE
P. 48
MODEL 19 - SOLAR CAR with a Clutch
P. 50
MODEL 20 - CRANE
P. 52
MODEL 21 - ELEVATOR
P. 54
MODEL 22 - CABLE CAR
P. 56
Ⅱ
#7345R_0410006
RECOMMENDATIONS
SOLAR
General Advice and Warnings to Parents and Users
1. Please read these instructions, follow the safety rules and keep them for reference.
We recommend that you make the models in the order that is given. You will then be
able to understand assembly of parts and soon many more different models you wish.
2. "SENIOR SOLAR" is a toy that has been designed for children over 8 years of age.
It is designed to help children discover solar power and how it works, while creating
a variety of models.
For activating models without solar power, two 1.5-volt AA batteries are required,
which are not included in this kit.
3. Discuss the safety warnings and possible risks involved with the children before
allowing them to build these models.
4. Cleaning:
＊Only use a cloth that has been slightly dampened with water.
＊Never use a detergent.
WARNING TO PARENTS
This toy is not suitable for children under 3 years of age.It contains small parts that a
child could swallow.
This toy must be kept out of the reach of very young children.
SAFETY GUIDELINES:
1. Don't expose the movable solar panel to the high temperature bulb for a long
while to avoid
short circuit.
2. While activating the solar vehicles with electric bulb, please keep the kid's hands
away from the
bulb to avoid any harm from heat.
3. Please experiment with at least 60W bulb or outdoors under sunshine on sunny
day. The normal
electric torch is too weak to work.
4. The batteries must not be recharged.
5. Only re-chargeable batteries can be charged under the supervision of an adult.
6. Do not mix chargeable and non-chargeable batteries .
7. Only the recommended batteries are to be used.
8. The polarity of the batteries must always be observed.
9. The terminals of a battery must not be short-circuited.
10. The old batteries must be disposed of as hazardous waste.
11. Follow the recycling instructions given on the battery.
WARNING
1. Remove the batteries when not planning to use the device for a long period of time.
2. Misuse of batteries can cause them to leak, which damages and corrodes the area
around the battery, creating the danger of fire, explosion and personal injury.
1
SOLAR
PARTS LIST
NO.
PARTS NAMES
NO.
PARTS NAMES
PCS
1
PEG /AXLE REMOVER
1
28
CRANK WITHOUT FLANGE
1
2
REVERSE GENERATOR
1
29
CRANK WITH FLANGE
1
3
MOVABLE SOLAR PANEL
2
30
WORM GEAR II
1
4
ROD
6
31
ROD CONNECTOR
2
5
LONG ROD
6
32
TIRE
4
6
AXLE CONNECTOR
10
33
BOAT
1
7
SHORT FRAME
4
34
HOE
1
8
LONG FRAME
8
35
WIRE CONNECTOR-D
2
9
L DR. AXLE (10cm)
3
36
WIRE CONNECTOR-R
1
10
M DR. AXLE (6cm)
9
37
BATTERY HOLDER
2
11
S DR. AXLE (3cm)
3
38
3-HOLE ROD
10
12
XL DR. AXLE (15cm)
2
39
5-HOLE ROD
9
13
MOTOR AXLE (Gray)
2
40
DUAL ROD
6
14
PEG
34
41
SQUARE FRAME
6
15
DRIVE CHAIN (Blue)
41
42
90 DEGREE CONVERTER-LEFT
4
16
M CHAIN GEAR
1
43
90 DEGREE CONVERTER-RIGHT
4
17
S CHAIN GEAR
1
44
TWO-IN-ONE CONVERTER
6
18
L GEAR
2
45
HINGE
8
19
M GEAR
4
46
BENDED ROD
8
20
S GEAR
6
47
SPOKE
1
21
CAM CONNECTOR
2
48
O RING L
3
22
AXLE
4
49
O RING M
4
23
WASHER
3
50
O RING S
3
24
GEAR FIXING
4
51
STRING(400cm)
1
25
L PULLEY
3
52
BLADES & RUDDER
1
26
M PULLEY
4
53
BUTTON FIXER
4
27
S PULLEY
3
54
DIE CUT CARDBOARD
1
55
BATTERY RECHARGER
1
TOTAL
2
PCS
265
SOLAR
1
7
2
3
8
4
9
10
5
6
12
11
13
14
21
15
16
23
24
25
30
31
32
37
43
51
17
38
44
18
52
27
28
33
39
45
20
19
26
40
46
34
41
47
29
35
36
42
48
53
22
54
49
50
55
3
HOW DOES A SOLAR CELL WORK?
A solar cell is a
flat device that
uses an electronic
component called
a semiconductor to
convert light energy
into electrical energy.
SOLAR
electrode
antiglare layer
n-type
semiconductor
p-type
semiconductor
electrode
load
electric
In a solar cell, electrons
current
of semiconductor are excited
into motion by exposure to
energy from light. It is designed to make the electrons flow in a
specific direction, creating a negative pole on the side where there are more electrons
and a positive pole on the side where there are fewer electrons, or more “empty holes”
for electrons. This results in a voltage and an electric current..
The current and the voltage of a single unit of solar cell are weak.
It is usual to combine solar cells in series to strengthen them.
GIGO MOVABLE SOLAR PANEL
Solar panel has several solar cells.
They are integrated into the black strips located under the protective
layer of plexiglass. If you turn the panel over, you can see the individual
cells very clearly. This panel is just the same as the big ones that you
can see on some roofs, except that it is smaller and produce less
electricity.
Each of the solar panel's two brackets has a round metal conductor to
pass on the positive and negative current produced by the solar cells
through the wire connectors attached to the battery holder.
GIGO REVERSE GENERATOR (Here in this kit
used as a solar engine)
Reverse generator can be activated to drive the model by the electricity
produced by solar panel or battery (size "AA") mounted onto the
battery holder.
On the other hand, in a mechanical device, reverse generator can generate electricity by mechanical power, too. (Refer details to GIGO
Item #1165 Generator)
4
OPERATING THE BATTERY CHARGER WITH THE SOLAR PANELS
SOLAR
ACTIVATING REVERSE GENERATOR (Solar energy) BY SOLAR PANEL
You can experiment to activate reverse generator as the following picture shows.
1. Mount solar panel on battery holder.
2. Connect the battery holder and reverse generator with wire connectors. Make sure to pay attention to the plus (+)
and minus (-) symbols on the battery holder, the solar panel and the reverse generator when you attach wire
connectors. The red wire is the positive line and the black is the negative line.
3. Insert the drive axle into the reverse generator and mount an s chain gear on the axle.
4. Then take your model into bright sunlight and orient the solar panel toward the sun to drive the reverse generator.
You can see the s chain gear turning on the drive axle clearly.
5. You can switch the wire connectors on the generator or battery holder, either way can make the turning direction of
motor changed.
a. You can make the 2
Solar Panels in serial
as Fig.a.
b. You can make the 2
Solar Panels in
serial as Fig.b.
c. The 2 Solar Panels applying to
the Current model as Fig.c.
OPERATING THE BATTERY CHARGER WITH ONE OR TWO SOLAR PANELS
A diode is installed
into the red battery
charger.
For example:
+
D
1N5817
SOLAR
PANEL
AA1.2V*1
electronic symbol:
d. You can use 1
The diode allows only unidirectional electric current. The electronic symbol (the
Solar Panel to
charge 1
arrow) indicates the permitted direction for the electric current to flow. Generally
rechargeable
speaking, only if the electric current is forward current with the voltage of 0.7 V, it
battrey (size"AA")
R6-size(AA)
Rechargeable Battery
as Fig.d.
will be able to pass through the circuit. However, when the electric current flows in
the counter direction (as in the case that the positive and negative poles of the solar panel or the wire connector are
set reversely), it will be blocked, which is showed by the electronic symbol.
When the solar panels are shined by sunlight, electric current is produced and flows to the positive pole of the
rechargeable battery, and is slowly stored in the battery holder. As the sunlight disappears, although the tension of
the solar panel reduces, the diode still prevents the stored electric current from being lost by flowing backward.
e. You can charge 1 rechargeable
battery (size"AA") by making the 2
Solar Panels in serial as Fig.e.
f. You can charge 1
rechargeable battery
(size"AA") by making
the 2 Solar Panels in
serial as Fig.f.
g. The 1 charger applying to
the current model as Fig.g.
OPERATING THE REVERSE GENERATOR (Solar engine) BY 2 BATTERIES(size "AA")
When sunlight is not strong enough or indoor or at night, you can remove the Movable Solar Panel from the Battery
Holder and put on two "AA" battery (sold separately) instead to run the model. (1.5V+1.5V=3V)
It is flexible to add more Battery Holders with Movable Solar Panels (from another set) or "AA" batteries (sold
separately) in serial to increase power. Solar panel and battery an work together.
h. You can make the 2 full charged
batteries in serial as Fig.h.
i. You can make the 2 full
charged batteries in
serial as Fig.i.
j. The 2 full charged batteries
applying to current models
as Fig.j.
5
SOLAR
ABOUT GEARS
Gears of SENIOR SOLAR contain "Spur Gears"
(gear wheel to gear wheel) meshing in the same plane
and regulating speed or direction of turning of the
shafts and "Bevel Gears" (the rounded off sections on
one edge of your gears in the set) meshed together to
change direction at right angles to the initial turning
plane of the gears and shafts (axles).
A
B
C
DID YOU KNOW?
1.Try putting a red 20-tooth gear in mesh with
two yellow 60-tooth gears.Turn A. Does B turn
faster, slower or at the same speed as A? If you
turn A clockwise, which way does B turn?
Do you think it would make any difference to A
or B if you put a larger idle gear inbetween
them? Try it.
Did you noite any difference?
C is called an idle gear. It connects two other
gears together but does not actually drive
anything itself.
2.Connect 4 small gears in a row along one edge
of a base grid. What do you notice abuot the
direction in which they turn?
3.Assemble two yellow 60-tooth gears and a blue
40-tooth gear as shown.Can you explan why the
gears will not turn?
6
SOLAR
RECOMMENDATIONS
D
1. Use two red 20-tooth gears and two yellow 60-tooth
gears to make this system.
2. How many times do you have to turn the small gear A
in order to make the second large gear D turn once?
The small gear A turning the large gear B gives a 3
to 1 ratio as you found out on the table.
The second small gear C is directly driven by the
arrangement and produces another 3 to 1 ratio with
the second large gear D.
Did you find out that you had to turn the small gear A
9 times to turn the second large gear D once?
The overall gear ratio of the system is 9 to 1. ( A gear
ratio of 3 to 1 multiplied by another 3 to 1 = 9 to 1).
3. Add a third red 20-tooth gear to the short drive
axle at (x). Why does it lock?
4.Add a blue 40-tooth and a red 20-tooth gear to
the system. Can you work out mathematically
what the gear ratio of system would be?
Count the number of turns. Were you right?
C
A
B
X
D
C
40
20
1. This gear box uses a combination of red 20-tooth gears and yellow
60-tooth gears.
There are four pairs of red 20 and yellow 60-tooth gears.
Each pair produces a gear ratio of 3 to 1.
The overall gear ratio would then be
3 x 3 x 3 x 3 = 81.
If gear B is turned 81 times then gear A would turn once.
2. If gear A could be turned once then gear B would
turn 81 times!
B
Could you add another pair of gears to make a
ratio of 243 to 1?
B
A
A
ABOUT WORM GEAR
Worm gear is used to greatly reduce the speed and increase the
force.
When it meshes with a 20-tooth red gear, a gear ratio of 20 to 1
will be produced.
It has a feature of no-reverse, which makes the elevator safe in
changing up to down.
WORM GEAR
7
SOLAR
ABOUT CHAIN GEARS
1. The power transmission of chain gears depends on chains instead of meshing
each other. The teeth of chain gears must go with chains. The "working"
diameters of the chain gears are about 10mm (10-tooth), 20mm (20-tooth)
and 30mm (30-tooth).
Try to ensure that when connecting drive chains they are neither too tight nor
too loose so that the motion of one is transmitted efficiently to the other. If
the lengths can not exactly fit the distance a little looser will work
better than a little tighter, only that the drive chains
come off the chain gears.
This system can be found in normal bikes or
A
B
escalators.
2. Connect a 10-tooth chain gear to a 30-tooth
chain gear as shown.
3. Use a pencil point, or something similar, to turn B. Which way does A turn?
Would this be the same if A and B were two gears in mesh?
How many times would you have to turn A for B to rotate once?
The gear ratio of these two chain gears would be _ to _ ?
4. Repeat the experiment for the two other arrangements and make a table of
your results for all three.
A
A
B
B
5. Try chaining a 10-tooth chain gear and two 30A
tooth chain gears together. Turn A clockwise.
What happens to B and C?
Do they turn in the same direction? Do they turn at
the same speed?
6. Try to chain the 10-tooth chain gear C as shown.
Turn A clockwise. What happens to B and C?
A
Do they turn in the same direction?
Do they turn at the same speed?
7. By connecting two sets of chain gears together three
speeds can be obtained.
This system is widely used in transmission bikes by
adding a gear shift in between.
8
C
B
C
B
SOLAR
TIPS AND TRICKS FOR MODEL BUILDING
1.Both peg and axle connector can be used to join rods and frames. (Fig. 1-1)
But only axle connector can make rod turn on the frame after joined. (Fig. 1-2)
2.Use L Dr. Axle to push the Axle Connector out of the rod. (Fig. 1-3)
3.Frames can be connected directly to each other end to end. (Fig. 2)
4.When fixing a gear or a tire onto the framework with a drive axle, be sure to keep a gap of about
1mm between the gear or the tire and the framework to decrease the friction caused in operation
so that a smooth motion can be expected. (Fig. 3)
5.Try to ensure that when connecting drive chains they are neither too tight nor too slack so that the
motion of one is transmitted efficiently to the other. If the lengths can not exactly fit the distance,
a little looser will work better than a little tighter.
6.Chains can be connected with each other to an intended length and linked end to end to become
a drive chain.
7.Ensure to get the face of chains when connected each other so that the transmission can be done
efficiently and smoothly. (Fig.4)
8.Use the end "A" of Axle/Peg Remover to pull off the peg. (Fig. 5-1)
9.Use the end "B" of Peg/Axle Remover to remove the battery out of the battery holder. (Fig. 5-2)
10. Gear fixing can be easily mounted on axles without moving gears or axles to keep gears and axles
from slipping.(Fig. 6)
11. The wires can be settled by winding it around the driving axle. (Fig. 7)
12. Put O Ring L on around the L Pulley’s groove, a wheel is then shaped. (Fig. 8)
PEG
AXLE CONNECTOR
or
AXLE
CONNECTOR
Fig. 1-1
Fig. 1-2
Fig. 1-3
Fig. 2
Fig. 8
B
OK! (with gap)
Fig. 5-2
NG! (without gap)
Fig. 3
Fig. 4
Fig. 5-1
Fig. 6
Fig. 7
9
SOLAR
22 MODEL CAN BE BUILT
Model 1
SOLAR-WIND SAILCAR
Model 2
AMPHIBIOUS BOAT
Model 3
10
RACING CAR (MODIFIED)
Model 4
SCOOTER
Model 5
MOTORCYCLE
Model 6
SIDE-CAR MOTORCYCLE
SOLAR
Model 7
LOCOMOTIVE
Model 8
BEACH BUGGY
Model 9
TRAILER
Model 10
FORK-LIFT TRUCK
Model 11
ROAD ROLLER
Model 12
CEMENT MIXER TRUCK
11
SOLAR
22 MODEL CAN BE BUILT
Model 13
OIL TANKER
Model 14
BACKHOE
Model 15
12
STREET-SWEEPING CAR
Model 16
MAINTENANCE CAR
Model 17
HELICOPTER
Model 18
TWIN-PROP AIRPLANE
SOLAR
Model 19
SOLAR CAR with a Clutch
Model 21
ELEVATOR
Model 20
CRANE
Model 22
CABLE CAR
13
SOLAR
MODEL 1 - SOLAR-WIND SAILCAR
This sailcar can run with solar power, or only with wind by liftimg up the driven
wheel from the ground.
PARTS NEEDED
2
3
X1
1
X1
14
X2
24
4
20
22
X1
X1
X1
X4
14
43
45
23
25
27
X1
X2
X2
X1
X3
X2
1.
2.
3.
4.
5
12
X3
8
X1
X1
48
50
X3
X2
39
11
37
X1
X2
X2
35
51
X1
36
X1
X1
5.
SOLAR
6.
completed
TIPS!
When using wind for sailing, the
engine should be turned so that
the wheel attached to it will
leave the floor. (as Figure A shows).
Meanwhile, the sail should be
adjusted at 90 degree (Fig. B)
or 45 degree (Fig. C) against
the mast depending on the
wind directions so that
your sail boat can get
the wind as much as
possible.
Fig. A
90
Fig. B
45
Fig. C
15
SOLAR
MODEL 2 - AMPHIBIOUS BOAT
This boat can run on land and sail over water with clear plastic blades attached
to the wheels and the tail rudder.
PARTS NEEDED
2
3
X1
41
X2
1.
3.
16
24
33
X3
X2
X1
20
18
5
12
38
39
40
X2
X2
X3
X1
X2
X2
X4
37
11
1
14
46
27
10
52
23
50
53
X2
X1
X1
X20
X2
X1
X3
X1
X2
X1
X4
2.
35
36
X2
X1
SOLAR
5.
4.
6.
completed
TIPS!
Reverse the connection of the wire
connectors to the engine as the drawing
shows so that your model will go backward.
17
SOLAR
MODEL 3 - RACING CAR
PARTS NEEDED
2
3
32
X1
1
X1
X2
4
5
38
39
X1
X1
X2
X3
X3
14
44
46
45
26
10
23
49
X2
X2
X2
X6
X1
X1
X1
X1
1.
2.
18
X2
24
41
X2
35
36
X2
X1
37
11
X2
X2
SOLAR
3.
4.
completed
19
SOLAR
MODEL 4 - SCOOTER
PARTS NEEDED
2
3
X1
X2
1
14
44
X1
X8
X5
32
24
X2
X1
46
X8
7
X1
20
38
39
X1
X8
X2
45
26
10
23
49
X2
X1
X1
X2
X1
X1
2.
4.
37
11
X3
X2
X2
35
36
41
42
1.
3.
31
X2
X1
5.
6.
SOLAR
TIPS!
7.
Reverse the connection of the wire
connectors to the engine as the drawing
shows so that your model will go backward.
completed
21
SOLAR
MODEL 5 – MOTORYCLE
PARTS NEEDED
2
3
X1
1
X1
1.
3.
22
X2
32
24
4
31
5
38
39
37
X3
X1
X2
X1
X2
X8
X2
X2
11
14
42
46
10
X2
X17
X4
X4
X3
35
36
X1
2.
4.
X1
5.
6.
SOLAR
7.
completed
23
SOLAR
MODEL 6 - SIDE-CAR MOTORCYCLE
PARTS NEEDED
2
3
X1
X2
24
32
X4
X2
7
X4
9
5
12
38
39
40
X1
X2
X1
X3
X1
X1
11
1
37
14
44
46
42
26
10
23
49
X2
X1
X2
X9
X4
X4
X2
X4
X1
X2
X4
1.
2.
3.
24
35
36
X2
X1
41
X1
SOLAR
4.
5.
6.
completed
25
SOLAR
MODEL 7 - LOCOMOTIVE
PARTS NEEDED
2
3
X1
41
X4
1.
3.
26
X2
24
4
32
X2
X2
X4
7
X3
20
19
18
22
9
5
38
40
X2
X2
X1
X2
X1
X2
X1
X2
1
11
37
14
44
43
46
10
X1
X3
X2
X11
X4
X4
X2
X2
35
8
36
X2
X1
2.
4.
X1
5.
6.
completed
SOLAR
7.
27
SOLAR
MODEL 8 - BEACH BUGGY
PARTS NEEDED
2
3
X1
40
X4
1.
4.
28
X2
41
X1
7
24
32
X2
X4
X1
4
20
22
19
13
31
5
12
38
39
X2
X6
X2
X1
X1
X2
X1
X2
X3
X3
37
1
14
11
44
46
10
X2
X1
X13
X2
X2
X4
X1
35
2.
36
X1
3.
5.
X1
6.
7.
8.
9.
SOLAR
completed
29
SOLAR
MODEL 9 - TRAILER
PARTS NEEDED
2
3
X1
X2
24
32
X2
X2
4
22
38
39
40
41
37
11
1
X3
X2
X3
X2
X4
X3
X2
X3
X1
7
X4
14
44
46
43
45
26
10
X15
X3
X2
X4
X4
X4
X3
8
49
X2
35
X4
X1
1.
2.
3.
4.
5.
6.
30
36
X1
7.
9.
11.
8.
SOLAR
10.
12.
TIPS!
Reverse the connection
of the wire connectors to
the engine as the drawing
shows so that your model
will go backward.
completed
31
SOLAR
MODEL 10- FORK-LIFT TRUCK
PARTS NEEDED
2
1.
3.
32
3
6
24
X10
X2
7
X2
4
20
19
21
9
5
38
39
X6
X2
X4
X2
X2
X4
X1
X4
X1
X2
37
11
1
14
44
23
X2
X2
X1
X12
X2
X2
35
36
X2
X1
2.
4.
41
X2
5.
6.
7.
8.
completed
SOLAR
9.
33
SOLAR
MODEL 11 - ROAD ROLLER
PARTS NEEDED
2
3
X1
X2
X2
7
X2
4
20
18
9
12
39
41
37
X3
X2
X2
X1
X1
X5
X5
X2
11
1
14
44
46
42
26
10
49
X2
X1
X12
X2
X2
X4
X2
X3
X2
1.
3.
5.
34
32
2.
4.
35
36
X2
X1
6.
SOLAR
7.
8.
9.
TIPS!
completed
Reverse the connection of the wire
connectors to the engine as the drawing
shows so that your model will go backward.
35
SOLAR
MODEL 12 - CEMENT MIXER TRUCK
PARTS NEEDED
2
3
X1
X2
17
24
32
16
15
20
18
9
5
12
38
39
X1
X4
X4
X1
X41
X2
X2
X1
X2
X1
X4
X9
1
40
41
37
11
14
46
42
10
23
X1
X6
X2
X2
X1
X24
X1
X2
X4
X1
1.
36
36
X2
2.
3.
5.
35
4.
6.
X1
7.
9.
SOLAR
8.
10.
TIPS!
Reverse the connection of the wire
connectors to the engine as the drawing
shows so that your model will go backward.
completed
37
SOLAR
MODEL 13 - OIL TANKER
PARTS NEEDED
2
3
X1
32
X4
X4
7
X2
18
9
5
12
38
39
40
41
X2
X1
X4
X1
X3
X1
X2
X4
1
37
11
14
44
46
42
43
10
8
X1
X2
X2
X9
X6
X1
X3
X2
X3
X1
1.
4.
7.
38
X2
24
2.
35
36
X2
3.
6.
5.
8.
X1
9.
SOLAR
10.
11.
12.
13.
TIPS!
Reverse the connection of the wire
connectors to the engine as the drawing
shows so that your model will go backward.
14.
completed
39
SOLAR
MODEL 14 - BACKHOE
PARTS NEEDED
2
3
X1
40
X2
6
32
34
X4
X4
X1
7
X4
4
20
19
18
21
5
X4
X2
X1
X1
X1
X4
1
12
38
39
41
37
11
14
44
43
X1
X2
X3
X3
X2
X2
X2
X21
X4
X2
1.
2.
3.
4.
5.
6.
35
36
X2
X1
SOLAR
7.
8.
9.
10.
completed
41
SOLAR
MODEL 15 - STREET-SWEEPING CAR
PARTS NEEDED
2
3
X1
32
20
19
12
38
39
40
41
37
X4
X4
X6
X4
X1
X10
X7
X2
X1
X2
1
14
44
46
10
X1
X20
X4
X4
X9
1.
42
X2
24
8
23
X2
X2
35
36
X2
2.
3.
4.
5.
6.
X1
7.
8.
9.
10.
SOLAR
11.
completed
43
SOLAR
MODEL 16 - MAINTENANCE CAR
PARTS NEEDED
2
3
X1
44
X2
32
6
24
X4
X6
X1
7
X2
4
20
19
9
31
38
39
40
X4
X2
X2
X3
X2
X3
X6
X3
35
36
1
41
37
11
14
44
28
30
10
X1
X6
X2
X2
X22
X5
X1
X1
X3
1.
2.
3.
4.
8
X2
X2
X1
5.
6.
7.
8.
SOLAR
TIPS!
Reverse the connection of
the wire connectors to the
engine as the drawing
shows so that your model
will go backward.
completed
45
SOLAR
MODEL 17 - HELICOPTER
PARTS NEEDED
2
3
4
20
19
22
9
5
38
39
40
X2
X3
X1
X4
X2
X2
X6
X9
X4
24
X2
X1
X2
1
41
37
14
44
46
47
42
10
23
X1
X1
X2
X21
X6
X8
X1
X1
X2
X1
X1
X2
1.
2.
4.
5.
7.
46
7
16
8.
35
36
X2
X1
3.
6.
9.
10.
11.
12.
13.
SOLAR
completed
47
SOLAR
MODEL 18 - TWIN-PROP AIRPLANE
PARTS NEEDED
2
3
X1
7
X2
X4
4
20
19
9
31
38
39
40
41
37
X3
X2
X2
X2
X2
X6
X5
X6
X3
X2
8
1
11
14
46
45
27
10
X1
X3
X17
X5
X8
X3
X2
1.
X2
X3
35
36
X2
X1
2.
3.
5.
50
4.
6.
7.
48
8.
SOLAR
9.
10.
11.
12.
14.
16.
13.
15.
completed
49
SOLAR
MODEL 19 - SOLAR CAR with a Clutch
With a clutch device this solar car can start,stop or change direction randomly.
PARTS NEEDED
2
3
X1
4
32
X4
X2
X4
7
X1
41
1
37
14
44
46
42
X5
X1
X2
X23
X4
X6
X2
1.
3.
50
X2
24
20
19
18
22
9
13
38
39
X2
X3
X1
X2
X2
X1
X6
X6
10
8
X2
X4
35
36
X2
X1
2.
4.
40
X3
SOLAR
5.
7.
6.
8.
completed
51
SOLAR
MODEL 20 - CRANE
PARTS NEEDED
2
3
X1
X2
9
5
12
13
X6
X1
X1
X1
X2
X1
20
19
18
31
38
39
40
41
X3
X2
X2
X2
X4
X8
X2
X2
1
11
37
14
44
42
43
45
28
46
30
26
27
10
51
X1
X1
X2
X31
X6
X1
X3
X1
X1
X2
X1
X2
X2
X2
X1
1.
5.
7.
8.
X4
6.
9.
35
8
3.
2.
4.
52
7
4
36
X2
X1
10.
11.
12.
13.
14.
15.
SOLAR
16.
TIPS!
Move the rod to left or
right in order to rise or
drop the string with
M. Gear.
completed
53
SOLAR
MODEL 21 - ELEVATOR
PARTS NEEDED
2
3
X1
X2
24
4
X2
X3
7
X2
1
37
14
46
30
27
X1
X2
X28
X2
X1
X2
20
19
22
9
13
5
38
39
40
41
X3
X3
X2
X1
X1
X1
X1
X7
X2
X6
8
X6
10
23
51
X3
X2
X1
1.
3.
6.
54
35
36
X1
X1
2.
5.
4.
7.
8.
11.
9.
10.
SOLAR
12.
TIPS!
Move the rod up or
down in order to rise
or drop the string.
completed
55
SOLAR
MODEL 22 - CABLE CAR
This Cable Car can drive, stop or change the direction with the clutch attached to the
gear box. Both sides with parallel rod are intended to accommodate to the different
leveled locations. They can be separately positioned at different height and distance.
PARTS NEEDED
2
3
X1
X2
6
4
X8
X5
7
X3
19
22
13
5
38
39
X3
X4
X2
X1
X6
X5
X5
23
51
53
X3
X1
X4
1
37
14
46
44
42
25
27
10
X1
X2
X27
X2
X1
X2
X1
X1
X5
1.
56
20
2.
8
X8
3.
4.
5.
6.
7.
8.
9.
41
40
X2
X2
35
36
X1
X1
11.
12.
10.
SOLAR
TIPS!
13.
Tie a knot 1
Tie a knot 2
Tie a knot 3
Twist the string (Part No. 51) into 3
thin threads. Use the thin thread to
tie up the cable car support and hang
it on the cable wire as the drawings
show. This will make the tie so small
that the cable car can pass through
the pulley's groove smoothly.
How to operate the cable car
2
3
completed
1
1.The cable car can run in
one certain direction
when the two blue M
Gears mesh together as
shown here.
2. When the red S Gear is
shifted in mesh with the
two blue M Gears as†an
idler gear. The cable car
will run in the opposite
direction.
3. When the two blue M
Gears are separated the
cable car will stop
running.
57