Mini Highway
A robust, two part kerb drainage system offering efficient
drainage capability combined with compact design which results in
faster, less disruptive and more cost effective installation.
Style & appearance
| Photographs |
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| Product photographs |
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| Accessory units |
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| Base unit - 335mm,
285mm, 235mm depth |
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| Silt box |
Rodding eye kerb unit |
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| Top unit |
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Product data
Trafficking
- City roads
- Commercial developments
- Urban roads
- Industrial developments
- Access roads
Features and benefits
- Integrated kerb profile and linear drainage system
- Multiple inlet holes along length of kerb for fast water take
off
- Maintains kerb profile for greater aesthetic appeal in city
centres
- Compact design minimises installation cost with no loss of
strength
- Supplied on pallets for easy maneuverability on site
Main units dimensions
| Dimensions (mm) |
Base unit |
Top unit |
| Length (approx.) |
500 |
500 |
| Width (approx.) |
250 |
250 |
| Depth (approx.) |
235, 285, 335 |
254 |
Inlet dimensions 55 x 107 mm elipse
(approx.).
Accessory units dimensions
| Accessory |
length (mm) |
Depth (mm) |
Width (mm) |
Availability |
| Slit top box |
500 |
224 |
300 |
from stock |
| Rodding box |
500 |
254 |
250 |
from stock |
| Crossing base plate |
500 |
12.5 |
250 |
from stock |
| Sump unit |
500 |
335 |
300 |
from stock |
| Sump unit |
500 |
335 |
300 |
from stock |
| Gully unit |
620 |
300 |
310 |
from stock |
| Adjustment block |
300 |
50 |
56 |
from stock |
| Radius unit 25/11 |
500 |
254 |
250 |
from stock |
Design considerations
Description
A robust drainage system which has been developed in both Half
Batter and Splay profiles coupled with a range of U-shaped
bases.
Standards
Mini Highway conforms to EN 1433, load Class D.
Manufacture
Mini Highway is manufactured from high quality granite and
quartzite using both wet and semi-dry processes.
Specification clauses
Assistance with model specification clauses is available for
this product, please refer to Charcon Technical Services.
Colour availability
Standard
Basic components
Two-part kerb comprising:
- Base unit.
- Kerb profile top unit incorporating 2 elliptical holes.
Mini Highway system flow capacities
| |
Pic here |
Pic here |
Pic here |
| 1 in 50 (2%) |
1.7 |
32 |
1.8 |
44 |
1.8 |
56 |
| 1 in 100 (1%) |
1.2 |
22 |
1.3 |
31 |
1.3 |
40 |
| 1 in 200 (0.50%) |
0.8 |
16 |
0.9 |
22 |
0.9 |
28 |
| 1 in 300 (0.33%) |
0.7 |
13 |
0.7 |
18 |
0.7 |
23 |
| 1 in 400 (0.25%) |
0.6 |
11 |
0.6 |
15 |
0.6 |
20 |
| 1 in 500 (0.20%) |
0.5 |
10 |
0.6 |
14 |
0.6 |
18 |
| 1 in 1000 (0.10%) |
0.1 |
2 |
0.1 |
3 |
0.1 |
4 |
Key: Vel. = velocity, dis. = discharge
General principles
The aim is to ensure prompt and cost-effective removal of
surface water during and immediately after rainfall.
Multiple inlet holes and continuous U-shaped channel profile enable
system design which minimises underground pipework. This can
provide a lower-cost solution than traditional gully systems.
System capacity
- For Mini Highway drainage,
identify any flow constraints in advance, including:
- vehicular crossings requiring crossing base units
- tight radii*
- junction unit creating turbulent flow*
- outlet unit capacity
- outfall chamber/pipe capacity
- linear grates
Note
* Hydraulic properties given in above tables are conservative
and so, in most cases, any flow reductions arising from these
factors may be ignored in design.
In common with all combined kerb and drainage systems, Mini
Highway top and base units will NOT run full due to turbulence from
the inlet holes. System flow capacities given in above tables are
therefore confined to realistic flow levels rather than
theoretical/full bore maximum levels. Capacities vary according to
type of base unit installed in the system.
Note
Capacity will be reduced over time wherever there is a
likelihood of a significant build-up of silt.
Outlet capacity
In practice, capacity requirements can vary according to location
of the outlet and the depth of flow within the system. For design
purposes, an outlet capacity of 30 litres per second should be
adopted. If this capacity is sufficient, more than on outlet unit
should be installed to discharge the outfall chamber.
Outfall chamber/pipe capacity
Outfall discharge capacity should be as large as possible to ensure
benefits from Mini Highway system. In large schemes gully pots used
as outfall chambers may be insufficient because turbulence can
reduce capacity levels below that which a standard 150 mm outfall
pipe can sustain. Where possible, purpose-built chambers (brick or
precast manhole rings) are recommended instead to help minimise the
effects of turbulence on capacity. The appropriate outfall pipe can
then be selected to suit the specific case (see ‘Outfall pipe
capacity’ table below).
Highway outfall pipe capacity
| Gradient |
Pipe diameter (mm) |
| 1:20 (5%) |
42 |
122 |
260 |
468 |
736 |
| 1:40 (2.50%) |
29 |
86 |
183 |
330 |
534 |
| 1:60 (1.67%) |
24 |
70 |
149 |
268 |
436 |
| 1:80 (1.25%) |
20 |
60 |
129 |
233 |
376 |
| 1:100 (1.00%) |
19 |
54 |
116 |
208 |
337 |
Installation design – units
General principles
All units are unreinforced: protect from stresses caused by
thermal expansion of cementitious paving materials. Leave 1mm gap
between each unit to prevent damage from thermal expansion of the
units themselves.
Expansion joints MUST be installed on each side of drainage runs
in concrete pavements or those incorporating a cement bound/lean
mix concrete roadbase.
DO NOT place these joints directly adjacent to any trafficked
unit as this would allow units to rock under trafficking and may
allow water ingress into the base or sub-grade.
- Recommended position of joints
(minimum distances):
- 600 mm from Clearway/Safeticurb units (see Figs 12-14).
- 125 mm from Highway units (see Figs 5-6).
Note:
As Highway units are not regularly trafficked, expansion joints
could be placed directly against them. However, 125 mm distance is
recommended to avoid ingress of water between the unit and
carriageway construction.
Base foundations
Recommended typical foundations are:
- for Clearway/Safeticurb: minimum 150 mm depth of ST4 concrete
with a 25 mm bed of Class 1 mortar (1:3 cement: sand) to allow easy
adjustment of units to line and level.
- for Highway: minimum 75 mm of concrete.
Note:
Strength, overall depth and width of the base may need to be
increased when laid on low - strength sub-grades.
Haunching
Recommended typical haunches (to within 100 mm of top unit)
are:
- For Clearway/Safeticurb: ST4 concrete.
- For Highway: ST1 concrete minimum 125 mm width.
General principles
Details of outlet units an inspection access differ according to
which linear drainage system is used.
In any system, silt or detritus should normally be prevented from
entering the main drainage sewer. An outfall chamber is required to
enable silt collection before onward connection to a sewer.
Types of outfall chamber
- trapped precast concrete, clay or plastic gully pots. Gully pot
capacity may be insufficient for some largerlinear drainage
installations.
- Purpose-built brick or concrete inspection chamber.
- Precast concrete manhole rings.
- Dedicated sump unit.
Select outfall pipe diameter/gradient
Care should be taken to ensure sufficient capacity.
Highway
Standard outlet formed using two base outlet units (in place of
standard base units) to give full width rectangular outlet 400x275
mm. (shallow and deep base outlet units available). Positioning is
not critical, but should allow access for suction pipe from gully
emptier.
Discharge capacity may be increased by installing more than one
pair of Base Outlet units discharging into the same outfall
chamber.
For larger schemes, chambers to be detailed in accordance with The
Specification for Highway works, clauses 507 and 508. For larger
outfall pipes it may be necessary to incorporate a manhole access
at rear of run.
Clearway/Safeticurb
Select outfall chamber, pipe dimension and pipe gradient to suit
system capacity. Position a silt box top on two courses of
engineering brickwork over the selected outfall chamber/silt trap
to give access (via the silt box lid) for silt removal.
HydroKerb sump unit
With hinged, removable lid for inspection access, is placed over
sump unit in place of standard top units. (See page 143 for
alternative option).
Mini Highway sump unit
With hinged, removable lid for inspection access, is placed over
inflow unit in place of standard top units.
Radii
Highway/Mini Highway:
- To form external radii of 25 metres or less (minimum 6 m),
special radius units should be used (see table below). As these do
not cover all individual radius dimensions, some slight gaps are
required between units as indicated in Highway radii gap widths
table, below.
- For external radii greater than 25 metres, lay straight units
with open joints.
- To form internal radii (minimum 6 metres), use 7/6 internal
radius units.
Clearway/Safeticurb:
- Where necessary, standard (straight) units may be laid to form
radii or bends.
- Safeticurb units: alignment ring within bore acts as a former
for infill mortars to seal joint.
Crossings
Highway/Mini Highway:
- Use crossing base units to carry drainage runs under side
roads/vehicular crossing points. Grid units available.
Safeticurb (DBK unit only):
- To continue linear drainage at road junctions, kerb crossing
points (pedestrian/vehicular), use transition units to reduce kerb
height to road level. These connect with standard grid or slot
units as necessary.
Junctions/sharp bends
Clearway/Safeticurb:
- Use silt box top at outlets or with suitable uPVC pipe fittings
(cut to fit) to form junctions or sharp bends.
Highway radii gaps widths
| Radius (m) |
Radius unit reference |
Top and base gap |
| 6 |
7/6 |
2 |
| 7.5 |
10/8 |
3 |
| 9 |
10/8 |
2 |
| 10.5 |
25/11 |
4 |
| 12 |
25/11 |
1 |
| 15 |
25/11 |
2 |
| 20 |
25/11 |
5 |
| 25 |
25/11 |
7 |
| 26 |
Straight |
7 |