 |
| |
| AL-EX Heatlane™ plate is the heat transfer
device which is made of aluminum extruded multi-port flat tube
with Heatlane™ technology. This enables the mass production
of this plate maintaining the features of Heatlane™ technology. |
|
| Expand the flexibility of thermal design |
| While being a heat transfer device, AL-EX Heatlane™
plate can provide thermal solutions which were supposed not
to be possible with conventional heat pipes. |
|
|
Heat transfer capability exceeding heat pipes (at the
same cross section area of the flow route) |
|
|
Low thermal resistance which is from one-tenth to one
hundredth of copper (may vary depending on the conditions). |
|
|
Installation to flat surface is possible. |
|
|
Works both in top heat and horizontal heat mode. * |
|
|
Bending processing down to inner R4mm is possible. |
|
|
Using butane or HFC134a as the working fluid, works
at low temperature below zero centigrade. |
|
| *There may be some restrictions depending
on the environment used. |
|
| Performance: Heat transfer rate per unit
area of the cross section flow route (W/cm2). |
| |
Model name: HLB50-200 Working fluid: Butane |
| |
| Bottom heat |
Top heat |
Horizontal |
Vertical horizontal* |
| 343 |
271 |
296 |
295 |
|
|
| |
*Vertical horizontal means
the position where the thickness (T) comes to the bottom,
facing the length direction (L). |
|
|
| Visualization of temperature distribution |
| |
 |
| |
| Thermo-graph where the same power is inputted to the solid
aluminum plate (left) and AL-EX Heatlane™ plate (right)
of the same size. While AL-EX Heatlane™ plate shows little
change of temperature distribution because of its low thermal
resistance the solid aluminum plate shows red because of its
high thermal resistance (Our STL6R76S was used for each heat
sink). |
| |
| Processing examples |
|
| |
| Application examples |
|
|
| |
| Type and dimensions |
Type
(Material A1050) |
Thickness |
Width |
Length |
Nozzle length* |
|
| T mm |
W mm |
L mm |
N mm |
| Size |
Tolerance |
Size |
Tolerance |
Tolerance |
Standard |
kg/m |
| HLB50-XXX |
1.90 |
+0.1/-0 |
49.8 |
+/-0.3 |
+2%/-0 |
Min.5 |
0.145 |
| HLB60-XXX |
1.90 |
+0.1/-0 |
60.0 |
+/-0.4 |
+2%/-0 |
Min.5 |
0.179 |
| HLC50-XXX |
2.10 |
+0.1/-0 |
50.0 |
+/-0.3 |
+2%/-0 |
Min.5 |
0.122 |
| HLC60-XXX |
2.10 |
+0.1/-0 |
62.0 |
+/-0.4 |
+2%/-0 |
Min.5 |
0.149 |
|
|
| xxx = length (mm) |
| * The nozzle can be equipped with a nozzle cap (option). |
| Consult us for other size. |
| |
 |
| |
| |
| Working fluid |
| Selectable either HFC134a (substitute flon) or butane (Bu). |
| |
| Note: |
 |
This product requires optimization of fluid charge ratio
according to the use conditions of customers. Therefore,
when you inquire the product, you may be asked to clarify
the use conditions and other details. |
|
