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Sommaire du brevet 3004116 

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  • lorsque la demande peut être examinée par le public;
  • lorsque le brevet est émis (délivrance).
(12) Brevet: (11) CA 3004116
(54) Titre français: METHODE DE RENOVATION D'UN MONTANT GUIDE DE MONORAIL ET MONTANT GUIDE DE MONORAIL RENOVE
(54) Titre anglais: METHOD FOR RETROFITTING A MONORAIL GUIDE BEAM AND RETROFITTED MONORAIL GUIDE BEAM
Statut: Accordé et délivré
Données bibliographiques
Abrégés

Abrégé français

Une méthode de rénovation dun montant guide dune rainure de guidage existante pour admettre un deuxième modèle de monorail. La méthode comprend linstallation dune deuxième bande de roulement sur une bande de roulement existante dun montant guide existant de la rainure de guidage existante. La deuxième bande de roulement est conçue pour recevoir une roue porteuse dun deuxième modèle de monorail. La deuxième bande de roulement est installée à la hauteur H par-dessus la bande de roulement existante, de sorte quun deuxième niveau de varangue du deuxième modèle de monorail corresponde essentiellement au premier niveau de varangue dun modèle existant de monorail soutenu par la bande de roulement existante.


Abrégé anglais


A method of retrofitting an existing guide beam of an existing
guideway to accept a second model of monorail. The method comprises
installing a second top running surface above an existing top running surface
of
an existing guide beam of the existing guideway. The second top running
surface
is adapted to receive a load wheel of a second model of monorail. The second
top running surface is installed at height H above the existing top running
surface
so that a second passenger floor level of the second model of monorail
substantially corresponds to a first passenger floor level of an existing
model of
monorail supported by the existing top running surface.

Revendications

Note : Les revendications sont présentées dans la langue officielle dans laquelle elles ont été soumises.


18
CLAIMS:
1. A method of retrofitting an existing guide beam of an existing guideway
to accept a second model of monorail, the existing guide beam having an
existing top running surface adapted to receive a first load wheel of a first
model of monorail, the method comprising:
placing a second top running surface above said existing top running
surface by installing a second guide beam atop said existing guide beam,
said second top running surface being narrower than said existing top running
surface, said second top running surface being operative to receive a second
load wheel of the second model of monorail, said second top running surface
being placed at a height H above said existing top running surface so that a
second passenger floor of the second model of monorail rests substantially at
a same height above said existing top running surface as a first passenger
floor of the first model of monorail.
2. The method of claim 1 wherein:
FH1 is a first floor height of said first model of monorail, said first floor
height being a design characteristic of said first model of monorail, said
first
floor height corresponding to a height of said first passenger floor above
said
existing top running surface;
FH2 is a second floor height of said second model of monorail, said
second floor height being a design characteristic of said second model of
monorail, said second floor height corresponding to a height of said second
passenger above said second top running surface, said second floor height
being smaller than said first floor height; and
height H is a distance between said second top running surface and said
existing top running surface, said height H being equal to FH1 ¨ FH2.
3. The method of claim 2 wherein said second guide beam is of a height
H.

19
4. The method of claim 1 further comprising mechanically attaching said
second guide beam to said existing top running surface of the existing guide
beam.
5. The method of claim 4 wherein said mechanically attaching comprises
installing mechanical fasteners on said existing top running surface of said
existing guide beam.
6. The method of claim 1 wherein said second guide beam is made of
concrete.
7. The method of claim 1 wherein said installing further comprises
pouring concrete in the shape of said second guide beam.
8. The method of claim 1 wherein said installing further comprises
attaching said second guide beam to the existing guide beam using
mechanical fasteners, said second guide beam being a pre-fabricated guide
beam.
9. A method of operating a transit system having a monorail guideway for
operating a monorail, the method comprising:
a) operating a first monorail on a first guide beam having a first top running
surface adapted to receive a first load wheel of said first monorail, said
first monorail having a first passenger Floor height above said first top
running surface;
b) having the first guide beam updated with a second support structure
thereby defining an updated guide beam, said second support structure
having a second top running surface placed at a height H above said first
top running surface, said second top running surface being narrower than
said first running surface, said second top running surface being adapted
to receive a second load wheel of a second monorail, said second
monorail having a second passenger Floor height above said second top
running surface, said second passenger Floor height being smaller than
said first passenger Floor height, said height H substantially

20
corresponding to a difference between said first passenger Floor height
and said second passenger Floor height; and
c) operating said second monorail on said updated guide beam made of said
first guide beam and said second support structure.
10. The method of claim 9 wherein said support structure is a second
guide beam.
11. The method of claim 9 wherein said operating said second monorail
occurs within 1 years of said operating said first monorail.
12. A monorail guide beam for supporting and guiding a monorail
proximate a passenger platform, the monorail guide beam comprising:
an existing portion, the existing portion having an existing top running
surface adapted to receive a first load wheel of a first model of monorail,
the first model of monorail having a first passenger floor located at a first
floor height above said existing top running surface, said first passenger
floor being substantially level with the passenger platform, said existing
portion being installed on a ground surface;
a second beam portion placed on top of said existing top running surface,
said second beam portion having a second top running surface for
supporting a second model of monorail, said second top running surface
being narrower than said existing top running surface, said second model
of monorail having a second passenger floor located at a second floor
height, said second floor height being smaller than said first floor height,
said new beam portion having its second top running surface located at a
height H above said existing top running surface so that said second
passenger floor is substantially level with the passenger platform and with
said first passenger floor.

Description

Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.


1
METHOD FOR RETROFITTING A MONORAIL GUIDE BEAM AND
RETROFITTED MONORAIL GUIDE BEAM
FIELD OF THE INVENTION
[0001] The present invention generally relates to the field of monorail
guideways. More specifically, the invention relates to a method of
retrofitting a
guide beam of a monorail guideway allowing the travelling of a different
monorail
on the retrofitted guide beam.
BACKGROUND OF THE INVENTION
[0002] The beams and switches of a monorail guideway on which travel
monorail vehicles do not have to respect standard dimensions. In fact,
monorails
and the infrastructure they travel on are usually provided as a system,
meaning
that both the monorail and the guide beam on which it travels are specifically
designed for each other and are specific to each manufacturer.
[0003] However, monorails, like any other vehicle, end up showing the
wear of time, and need to be eventually replaced by new vehicles. Because the
monorail and its guide beam are specifically designed to work with each other,
and because all passenger platforms are designed to be compatible with the
original monorail, transit authorities are constrained to select a new
monorail that
is compatible with their existing guideway when replacement time comes. Such a
compatible monorail is often only available from the same manufacturer that
provided the original vehicle, thereby limiting the pool of available
manufacturers
and consequently decreasing significantly the negotiation leverage of the
transit
authority.
[0004] There is therefore a need to provide a way of making an existing
monorail guideway compatible with a monorail that is different from the
original
monorail the guideway was designed for.
SUMMARY OF THE INVENTION
[0005] It is an object of the present invention to provide a method of
adapting an existing monorail guideway to accommodate a monorail for which it
CA 3004116 2018-05-07

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was not originally designed for, thereby overcoming or mitigating one or more
disadvantages of known guideways, or at least providing a useful alternative.
[0006] The invention provides the advantages of allowing a transit
authority to choose between potential different new models of monorails from
different manufacturers when comes times to select a replacement for old
monorails that are to be retired.
[0007] In accordance with an embodiment of the present invention, there
is provided a method of retrofitting an existing guide beam of an existing
guideway to accept a second model of monorail. The existing guide beam has an
existing top running surface adapted to receive a first load wheel of a first
model
of monorail. The method comprises placing a second top running surface above
the existing top running surface by installing a second guide beam atop the
existing guide beam. The second top running surface is then operative to
receive
a second load wheel of the second model of monorail.
[0008] The placing may further comprise locating the second top running
surface at a height H above the existing top running surface so that a second
passenger floor of the second model of monorail rests substantially at a same
height above the existing top running surface as a first passenger floor of
the first
model of monorail. This height H corresponds to a distance between the second
top running surface and the existing top running surface and is equal to FH1 ¨
FH2 where:
[0009] FH1 is a first floor height of the first model of monorail. The
first
floor height is a design characteristic of the first model of monorail which
corresponds to a height of the first passenger floor above the existing top
running
surface; and
[0010] FH2 is a second floor height of the second model of monorail.
The
second floor height is a design characteristic of the second model of monorail
which corresponds to a height of the second passenger above the second top
running surface. The second floor height is smaller than the first floor
height.
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[0011] Optionally, the second guide beam may be of a height H. Also,
the
placing may further comprise placing the second top running surface
substantially 550 mm (21.7 in) above the existing top running surface or even
substantially 750 mm (29.5 in). The second top running surface may range
between 75% and 100% of a width of the existing top running surface.
[0012] The second guide beam may be made of concrete. The second
guide beam may then be poured in place in the shape of the second guide beam
and may include the pouring concrete over reinforcement rods inserted in the
existing guide beam.
[0013] Alternatively, the second guide beam may be a pre-fabricated
guide
beam such as a concrete pre-cast guide beam or a pre-fabricated beam made of
metallic materials such as steel or aluminum.
[0014] The method may further comprise mechanically attaching the
second guide beam to the existing top running surface of the existing guide
beam
or to any other convenient area of the existing guide beam, such as lateral
guiding surfaces. For this purpose, mechanical fasteners or adhesives may be
used on the existing top running surface of the existing guide beam.
[0015] Optionally, the method may further comprise providing two
opposed
lateral guiding surfaces parallel to each other and perpendicular to the
second
top running surface. Also, these two opposed lateral guiding surfaces may be
provided at a different side edge of the second top running surface.
[0016] In accordance with another embodiment of the present invention,
there is provided a method of building an improved monorail guideway based on
an existing monorail guideway. The method comprises installing a second top
running surface above an existing top running surface of an existing guide
beam
of the existing guideway. The second top running surface is adapted to receive
a
load wheel of a second model of monorail. The second top running surface is
installed at height H above the existing top running surface so that a second
passenger floor level of the second model of monorail substantially
corresponds
CA 3004116 2018-05-07

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to a first passenger floor level of an existing model of monorail supported by
the
existing top running surface. Height H is equal to FH1 ¨ FH2 as described
above.
[0017] Optionally, the installing further comprises attaching a second
guide
beam atop the existing top running surface of the existing guide beam. The
second guide beam extends at least along a portion of a length (at least along
platforms at train stations), or a whole length, of the existing guide beam of
the
existing guideway. The second guide beam has the second top running surface,
which may be installed at substantially 550 mm (21.7 in) above the existing
top
running surface or even substantially at 750 mm (29.5 in) above the existing
top
running surface.
[0018] The method may further comprise providing second parallel
lateral
guiding surfaces which depend from each side of the second top running surface
and extending downwardly to the existing top running surface.
[0019] Typically, the width of the second top running surface ranges
between 75% and 100% of the width of the existing top running surface.
[0020] In accordance with another embodiment of the present invention,
there is provided a method of operating a transit system having a monorail
guideway on which travels a monorail. The method comprises:
a) operating a first monorail on a first guide beam having a first top running
surface adapted to receive a first load wheel of the first monorail. The first
monorail has a first passenger Floor height above the first top running
surface;
b) updating the first guide beam with a second support structure, thereby
defining an updated guide beam. The second support structure has a
second top running surface placed at a height H above the first top
running surface. The second top running surface is adapted to receive a
second load wheel of a second monorail. The second monorail has a
second passenger Floor height above the second top running surface.
This second passenger Floor height is smaller than the first passenger
CA 3004116 2018-05-07

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Floor height. The height H substantially corresponds to a difference
between the first passenger Floor height and the second passenger Floor
height; and
c) operating the second monorail on the updated guide beam made of the
first guide beam and of the second support structure.
[0021] Preferably, the support structure is a second guide beam.
[0022] The operating the second monorail typically occurs within 1
years
of the operating the first monorail.
[0023] In accordance with another embodiment of the present invention,
there is provided a monorail guide beam for supporting and guiding a monorail,
where the monorail has a load wheel, guide wheels and stabilizing wheels. The
guide beam comprises:
a) a lower beam portion having a flat top surface and two lower lateral
guiding surfaces extending downwardly from side edges of the top surface
and perpendicularly to the top surface. The two lower lateral guiding
surfaces are operative to receive the monorail's lateral stabilizing wheels;
b) an upper beam portion atop the lower beam portion. The upper beam
portion has a flat top running surface for receiving the monorail's load
wheel and two upper lateral guiding surfaces for receiving the guide
wheels of the monorail. The two upper lateral guiding surfaces extend
downwardly from side edges of the top running surface and
perpendicularly to the top running surface. The top running surface
extends between 50% and 100% of a distance between the two lower
lateral guiding surfaces. The upper beam portion is mechanically and
optionally removably attached to the lower beam portion.
[0024] In accordance with another embodiment of the present invention,
there is provided a monorail vehicle adapted to travel on a guide beam. The
guide beam has a top running surface, two opposed and parallel upper lateral
guiding surfaces, and two opposed and parallel lower lateral stabilizing
surfaces.
CA 3004116 2018-05-07

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The two upper lateral guiding surfaces are distant by a first distance and the
two
lower lateral stabilizing surfaces are distant by a second distance larger
than the
first distance. The monorail vehicle comprises a body, two bogies and a
propulsion system. The body is supported at each end by the two bogies. The
body has a passenger compartment to carry passengers. Each one of the two
bogies supports a different end of the body on the guide beam. Each bogie has:
a) a load wheel. The load wheel has a transversal spinning axis so as to roll
along the top running surface of the guide beam. The load wheel supports
its bogie on the guide beam;
b) at least two guide wheels. The at least two guide wheels are located
below the load wheel. Each guide wheel, which spins on its own vertical
axis, is attached to the bogie on a different side of the bogie so as to
contact the guiding surface at the first distance from each other when
rolling along the two opposed lateral guiding surfaces of the guide beam;
C) two stabilizing wheels. The two stabilizing wheels are located below the
two guide wheels. Each stabilizing wheel, which spins on its own vertical
axis, is attached to the bogie on a different side of the bogie so as to
contact the stabilizing surface at the second distance from each other
when rolling along the two opposed lateral stabilizing surfaces of the guide
beam. The second distance is larger than the first distance;
The propulsion system is connected to at least one of the two load wheels for
moving the monorail vehicle along the guide beam.
[0025] In
accordance with another embodiment of the invention, there is
provided a monorail guide beam for supporting and guiding a monorail proximate
a passenger platform. The monorail guide beam comprises an existing portion,
originally designed to support a first model of monorail, and a means for
supporting a second model of monorail over the existing portion. The existing
portion is installed on a ground surface. The first model of monorail has a
first
passenger floor located at a first floor height. The second model of monorail
has
a second passenger floor located at a second floor height which is smaller
than
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the first floor height. The means for supporting the second model of monorail
is
operative to locate the second model of monorail above the existing portion of
the monorail guide beam so that the second passenger floor is substantially
level
with the passenger platform.
[0026] Optionally, the means for supporting the second model of
monorail
above the existing portion of the monorail guide beam may be a secondary guide
beam placed or built, either removably or permanently, on the existing
portion.
This secondary guide beam may be made of concrete or of a metallic material.
BRIEF DESCRIPTION OF DRAWINGS
[0027] These and other features of the present invention will become
more
apparent from the following description in which reference is made to the
appended drawings wherein:
[0028] Figure 1 is a side view of a monorail running on a monorail
guide
beam in accordance with an embodiment of the present invention;
[0029] Figures 2A is cross-sectional end view of the guide beam of
Figure
1;
[0030] Figure 2B is a cross-sectional end view of a second model of
guide
beam different from the guide beam of Figure 1;
[0031] Figure 3 is a phantom side view of one car of the monorail of
Figure
1;
[0032] Figures 4a and 4b are cross-sectional end views of respectively
a
first monorail running on its first guide beam and a second monorail on its
second
guide beam in accordance with prior art, juxtaposed so that the platform
levels
and passenger floors are at the same height;
[0033] Figures 5a and 5b are cross-sectional end views of respectively
the
first monorail on its first guide beam of Figure 4a to which is juxtaposed the
second monorail of Figure 4b installed on the first guide beam, highlighting
the
challenges of using the second monorail on the existing first guide beam in
accordance with prior art;
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[0034] Figure 6a and 6b are cross-sectional end views of respectively
the
first monorail and its first guide beam of Figure 4a to which is juxtaposed
the
second monorail of Figure 4b installed on a retrofitted first guide beam so
that
their passenger floors are at a same height in accordance with an embodiment
of
the present invention;
[0035] Figure 7 is a perspective view depicting a step in the retrofit
of a
monorail guide beam in accordance with an embodiment of the present
invention;
[0036] Figure 8 is a perspective view depicting the retrofitted guide
beam
of Figure 7;
[0037] Figure 9 is a schematic of a method of retrofitting a guide beam
in
accordance with an embodiment of the present invention.
DETAILED DESCRIPTION OF THE INVENTION
[0038] The present invention relates to a method of refurbishing or
retrofitting a monorail guide beam of a monorail guideway so that it can be
compatible with a second type of monorail, such a retrofitted monorail guide
beam as well as to a monorail adapted to run on such a retrofitted guide beam.
[0039] Figure 1, now referred to, shows a monorail 10 travelling on a
guide
beam 12. The guide beam 12 typically rests on pillars 14, supporting the guide
beam 12 above the ground 16. Typically, the monorail 10 and the guide beam 12
are specifically designed to interface with each other. For example, the guide
beam 12 is designed to support the vertical and lateral static and dynamic
loads
created by the monorail 10 carrying its passengers at speed. These loads and
other criteria determine some of the guide beam's characteristics such as
width
and height. In turn, these dimensional characteristics determine other
physical
characteristics of the monorail 10 such as the location of the monorail's
guide
wheels and stabilizing wheels. Consequently, the guide beams making up a
guideway and the monorails running on this guideway are specifically designed
to work with each other. As shown in Figure 2A, the guide beam 12 typically
has
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9
a rectangular cross section providing a top running surface 26 and lateral
guiding
surfaces 28 on each side. Variations on the cross section of the guide beam
12,
such as shown in Figure 2B, may be used to save material and to decrease the
weight of the guide beam 12. Although the cross section may be different, any
guide beam 12 always possesses the top running surface 26 and at least two
opposed lateral guiding surfaces 28.
[0040] The monorail 10 depicted in Figure 1 is made of four (4)
interconnected cars 18. This is an example only since the monorail 10 could be
made of more or less cars 18. Each car 18 is provided with at least one door
20
having a door sill 22 which is vertically aligned with a floor 24. The floor
24 is best
shown in Figure 3, now concurrently referred to. A passenger plafform 45 is
aligned with the monorail floor 24.
[0041] Each car 18 comprises a body 25 and two bogies 27 located at
each end of the car 18. A propulsion system 29 may also be provided, although
some cars 18 may be devoid of propulsion system 29. The body 25 has a
passenger compartment 31 to carry passengers. Each one of the two bogies 27
support a different end of the body 25 on the guide beam 12. Each bogie 27 is
equipped with a load wheel 46, two or four guide wheels 42 (split equally on
each
side of the guide beam 12), at least two stabilizing wheels 44 (one on each
side
of the guide beam 12).
[0042] Each load wheel 46 has a transversal spinning axis so as to roll
along a top running surface 26 of the guide beam 12. Each load wheel 46 is
operative to support its bogie 27 on the guide beam 12, and thereby support
its
end of the body 25. The two guide wheels 42 are located below the load wheel
46. Each one of the two guide wheels 42 spins on its own vertical spinning
axis
76. The two guide wheels 42 are operative to contact the lateral guiding
surfaces
28 of the guide beam 12.
[0043] The stabilizing wheels 44 are located below the two guide wheels
42. Each stabilizing wheel 44 spins on its own vertical axis. The stabilizing
wheels 44 are operative to contact the lateral guiding surfaces 28.
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10
[0044] The propulsion system 29 is connected to at least one of the two
load wheels 46 for moving the monorail 10 along the guide beam 12.
[0045] Figures 4a and 4b, now concurrently referred to, respectively
depict
the first monorail 30 running on its first guide beam 34 and the second
monorail
32 running on its second guide beam 36, juxtaposed so that platforms 45 are
shown at the same level and so that, consequently, the passenger floors 24 are
also level. Figures 4a and 4b represent two different and representative
existing
monorail systems, typically marketed by two competitors.
[0046] Such representation highlights the differences in architecture
between the first monorail 30 with its first guide beam 34 and the second
monorail 32 with its second guide beam 36. As can be observed, the first and
second guide beams 34, 36 do not have the same height, the same width, nor
even the same cross section. But they both possess a top running surface 26 as
well as left and right side guiding surfaces 28. In the present example, the
second guide beam 36 is shorter in height and narrower than the first guide
beam 34. It can also be observed that the second monorail 32 sits lower on its
guide beam than the first monorail 30. This is reflected by the distance from
the
floor 24 to a top of the guide beam, also known as the Top of Beam (TOB). This
distance is known as the Floor Height. The Floor Height is therefore defined
as
the distance between the floor level of a monorail and the top surface of the
guide beam (TOB) on which that same monorail is designed to travel. In the
case
of the first monorail 30, this distance is FH1 while it is FH2 in the case of
the
second monorail 32. For example, FH1 may be 800 mm (31,5 in) while FH2 may
be 450 mm (17,7 in), which are dimensions that may be representative of
reality.
The guide wheels 42 and the stabilizing wheels 44 may contact the respective
lateral guiding surfaces 28 of the first and second guide beams 34, 36 at
different
heights, and of course at different lateral distances since the first and
second
guide beams 34, 36 have different width. Indeed, in the present example, the
first
guide beam 34 has a width of W1. For example, the first guide beam 34 may
have a width W1 of 800 mm (31.5 in) while the second guide beam 36 may have
a width W2 of 690 mm (27.2 in).
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11
[0047] The difference in Floor Height between the first and the second
monorails 30, 32 is the main reason why one monorail model cannot readily
replace the other on the existing guideway. This is highlighted in Figures 5a
and
5b, which are now concurrently referred to. Figure 5a depicts the first
monorail 30
running on its existing first guide beam 34 as already shown in Figure 4a.
Figure
5b, depicting the second monorail 32 installed on the same existing first
guide
beam 34, is juxtaposed to Figure 5a to highlight the impossibility of readily
installing the second monorail 32 on the existing first guide beam 34. Indeed,
as
can be observed in Figure 5b, the guide wheels 42 and the stabilizing wheels
44
may end up being in interference with the first guide beam 34 or may at least
not
interface properly with the lateral guiding surfaces 28. Most importantly, the
passenger floor 24 ends up not being level with the platform 45, which is
totally
unacceptable. Indeed, because passenger platforms 45 at each station are
designed to be substantially level with the passenger floor 24 of the
monorails, so
that passenger may easily board and disembark the vehicle, simply replacing an
existing monorail with a monorail having a different Floor Height may prevent
this
ease of egress and ingress. Such unevenness between the platform 45 and the
floor 24 may result in passengers tripping, falling and could potentially
prevent
disabled travelers from boarding the monorail.
[0048] It must be noted that, in Figures 5a and 5b, the top of the
existing
first guide beams 34, have been aligned, reflecting the fact that in real
life, both
first guide beams would actually be only one, since the objective would be to
tentatively install the second monorail 32 on the existing first guide beam
34.
Aligning TOBs also allows to have a common vertical reference for comparison
purposes between Figures 5a and 5b.
[0049] Figures 6a and 6b, now concurrently referred to, show a side-by-
side comparison of the first and second monorails 30, 32, this time both
running
on the first guide beam 34, and displayed so that their floors 24 are level,
meaning that the floors 24 are located at the same height above the common
reference level TOB. As can be seen, when the floors 24 of the first and of
the
second monorails 30, 32 are located at the same height, a load wheel 46 of the
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12
second monorail 32 cannot contact the top running surface 26 of the first
guide
beam 34. In order to fill the space between the load wheel 46 and the top
running
surface 26 of the first guide beam 34, an additional guide beam 48 may be
installed atop the existing first guide beam 34.
[0050] Hence, in accordance with an embodiment of the present
invention,
there is provided a method of retrofitting the existing first guide beam 34 to
accept the second model of monorail 32 so that its floor 24 ends up being at
the
same height above a reference level such as TOB, thereby advantageously
allowing retaining the existing platforms 45 at train stations. This is
achieved by
installing the additional guide beam 48 atop the existing first guide beam 34.
The
additional guide beam 48 is therefore designed to fill the gap between the top
running surface 26 of the existing first guide beam 34 and a required second
top
running surface 50 on which the load wheel 46 of the second monorail 32 may
rest. In this context, the additional guide beam 48 may take any adequate
shape
that still allows placing the secondary top running surface 50 at the right
height
so that the load wheel 46 of the second monorail 32 may support the second
monorail 32 and travel on it. The additional guide beam 48 has its own second
top running surface 50 operative to support the load wheel 46 of the second
monorail model 32. This second top running surface 50 is located at a distance
H
from the top running surface 26 of the first guide beam 34. This distance H
corresponds to the difference between the Floor Height FH 1 of the first
monorail
model 30 running on its first guide beam 34 and the Floor Height FH2 of the
second monorail model 32 running on its second guide beam 36. Expressed in
equation form: H = FH1 - FH2. In the present example, this distance H
corresponds to the difference between FH1 = 800 mm (31.5 in) and FH2 = 450
mm (17.7 in), that is H = 350 mm (13.8 in). Consequently, the additional guide
beam 48 must be of height H, or in the present example, 350mm (13.8 in) high.
[0051] In other words, the present method substantially aligns the
floor 24
of the second monorail 32 with the floor 24 of the existing first monorail 30
so that
the floor 24 of the second monorail model 32 ends up being at the same height
above the existing top running surface 26 than the floor 24 of the first
monorail
CA 3004116 2018-05-07

13
model 30. To do so, the method provides a second top running surface 50 above
the existing top running surface 26 since the Floor Height FH2 of the second
monorail 32 is smaller than the Floor Height FH1 of the first monorail 30.
[0052] As a non-limiting example, the floor 24 of the first monorail 30
may
be located 1200 mm (47.2 in) above its TOB (FH1 = 1200 mm (47.2 in)). This
means that the second monorail 32 will also need to have its floor located
1200
mm (47.2 in) above the existing top running surface 26. If the second monorail
32
has been designed with a Floor Height FH2 of 800 mm (31.5 in), it means that
the second top running surface 50 needs to be placed at H = FH2 ¨ FH1 = 1200
mm ¨ 800 mm = 400 mm (47.2 in ¨ 31.5 in = 15.7 in) above the existing first
running surface 26. This also means that the additional guide beam 48 must be
H = 400 mm (15.7 in) high.
[0053] It may be appreciated that the present method only allows
refurbishing the existing first guide beams 34 of guideways to accept a second
monorail 32 that has a smaller Floor Height than that of the existing first
monorail
30 running on the existing first guide beams 34.
[0054] The additional guide beam 48 may be narrower, the same width, or
wider than the first guide beam 30. For example, the additional guide beam 48,
and especially its secondary top running surface 50, may be of the same width
as the second guide beam 36 (690 mm (27,2 in) in the present example) so that
a minimum of modification is required on a bogie 52 of the second monorail 32
to
accommodate fit its guide wheels 42 to the updated guide beam. Alternatively,
the additional guide beam 48 may be the same width as the first guide beam 34,
or any other convenient width such as, for example, between 75% and 100% of
the width of the existing top running surface 26 or of the width of the first
guide
beam 34.
[0055] The additional guide beam 48 may be made of concrete, just like
most existing guide beams, of metallic materials such as steel, or of any
other
adequate material. The additional guide beam 48 may be a pre-fabricated beam
CA 3004116 2018-05-07

14
which is remotely made in a plant and transported on site where it is
installed to
the existing guideway.
[0056] The retrofitting method may comprise mechanically attaching the
additional guide beam 48 to the first guide beam 34, and particularly on or
above
the existing top running surface 26. This attaching may be performed by
installing
mechanical fasteners such as screws and bolts on (through) the existing top
running surface 26 of the first guide beam 34. Alternatively, the additional
guide
beam 48 may also be attached to (through) the lateral guiding surfaces 28. If
the
existing first guide beam 34 is made of steel, the additional guide beam 48
would
typically also be made of steel and both could be welded together.
[0057] The additional guide beam 48 may also be constructed directly on
site by pouring concrete over steel rods, or other adequate type of attachment
known in the art, embedded or inserted in the first guide beam 30. This
comprises removably installing vertical lateral portions of a mold, either to
the
lateral guiding surfaces 28 of the existing first guide beam 34 or to its top
running
surface 26, to create lateral walls of the additional guide beam 48 that
extend
vertically upwardly from the existing first guide beam 34 or from its top
running
surface 26. Then, using the top running surface 26 of the existing first guide
beam 34 as a bottom of the mold, the additional guide beam 48 may be made by
pouring concrete in the created mold. Finishing of the second top running
surface
50 may be made using known techniques in the art before the concrete
completely dries out.
[0058] Figures 7 and 8 are now concurrently referred to. Schematically,
an
updated monorail guide beam 52 is created from the addition of an upper beam
portion 54 to an existing lower beam portion 56 by mechanical means, such as
fasteners, or chemical means, such as bonding. This connection between the
upper beam portion 54 and the lower beam portion 56 may be permanent or
removeable. If the connection is removeable, then it is possible to take the
monorail guide beam 52 back to the first guide beam configuration to use the
first
monorail model 30 again.
CA 3004116 2018-05-07

15
[0059] The existing lower beam portion 56 corresponds to the existing
first
monorail guide beam 34, originally designed to support and guide the first
monorail 30. The first monorail 30 has its own design of load wheel 46, guide
wheels 42 and stabilizing wheels 44 to match the existing first guide beam 34.
One important design characteristic of the first monorail 30 is its own first
Floor
Height FH1. The upper beam portion 54 is specifically designed so that the
resulting updated guide beam 52, guideway 13 and platforms 45 are compatible
with the second monorail 32, even though it has its own different design of
load
wheel 46, guide wheels 42, stabilizing wheels 44 and second Floor Height FH2.
[0060] Figure 9 is now concurrently referred to. In accordance with an
embodiment of the present invention, the first Floor Height FH1 and the second
Floor Height FH2 must first be determined or gathered from the monorails
manufacturers at steps 60 and 62. At 64, it must be verified that second Floor
Height FH2 is smaller than first Floor Height FH1. In other words, the second
monorail model 32 must be selected so that its design Floor Height FH2 is
smaller than the first Floor Height FH1 of the existing first monorail 30. If
none
can be found, then the existing first guide beam 34 cannot be updated with the
present method. If such a second monorail model 32 may be found, then the
position H of the second top running surface 50 of the upper beam portion 54
must be determined at 66 by subtracting FH2 from FH1. It must be understood
that the objective is to have the level of the passenger floor 24 of the
second
monorail 32 end up being level with platforms 45 levels. However, the person
skilled in the art will understand that this means substantially level since a
small
difference may not have a real consequence on the ease of egress or ingress of
passengers. Such difference should however be smaller than 25 mm (1 in),
preferably less than 13 mm (0.5 in), more preferably less than 6,4 mm (0.25
in),
even more preferably less than 3 mm (0.125 in) and yet even more preferably
less than 1,6 mm (1/16 in). Then at 68, the upper beam portion 54 must be
attached to the existing lower beam portion 56.
[0061] The upper beam portion 54 may include its own two upper lateral
guiding surfaces 70 to receive the guide wheels 42 of the second monorail 32.
CA 3004116 2018-05-07

16
Such two upper lateral guiding surfaces 70 extend downwardly from side edges
of the second top running surface 50 and perpendicularly to it.
[0062] It is possible for the upper beam portion 54, also known as the
additional guide beam 48, not to have lateral surfaces adequate to receive the
guide wheels 42 of the second monorail 32. Then, these guide wheels 42 may
use the two lower lateral guiding surfaces 72 of the lower beam portion 52,
also
known as the existing first guide beam 34.
[0063] In another embodiment of the present invention, a method of
operating a monorail comprises:
a) operating the existing first monorail 30 on the existing first guide beam
34. The first monorail has the first Floor Height Fl-I1 above the first top
running surface 26 of the first guide beam 34;
b) having the first guide beam 34 updated with an additional guide beam
48, where this additional guide beam 48 has a second top running surface
50 placed at the height H above the existing first top running surface 26;
and
c) operating the second monorail 34 on the updated guide beam 52, the
second monorail 32 having the second Floor Height FH2 above the
second top running surface 50 of the additional guide beam 48, the height
H being substantially equal to the difference between the first Floor Height
FH1 and the second Floor Height FH2.
[0064] When a transit authority decides to update its guideway, the
whole
operation must be conducted in as little time as possible since the transit
service
must be interrupted at least on a portion of the guideway. The operating of
the
second monorail 32 occurs within 1 year of operating the first monorail 30.
[0065] In order to be fully compatible with the updated guide beam 52,
the
second monorail 32 may have to be slightly adapted, especially with regards to
its stabilizing wheels 44 and/or its guide wheels 42, which are all connected
to
the second monorail's bogie frame 74. For example, if the existing first guide
CA 3004116 2018-05-07

17
beam 34 is wider than the second guide beam 36, a spinning axis 76 of the
stabilizing wheels 44 may need to be moved outwardly in the bogie frame 74 of
the second monorail 32 to compensate for the fact that the two opposed lower
lateral guiding (stabilizing) surfaces 72 are farther apart than those of the
second
guide beam model 36, for which the second monorail 32 was designed.
Alternatively, smaller diameter stabilizing wheels 44 could also be used to
compensate for the wider first guide beam 34. Conversely, if the first guide
beam
34 is thinner than the second guide beam 36 for which the second monorail 32
was designed, the spinning axis 76 of the stabilizing wheels 44 of the second
monorail model 32 may need to be moved inwardly in the bogie frame 74 of the
second monorail 32 to compensate for the fact that the two opposed lower
lateral
guiding surfaces 72 are closer to each other. Alternatively, larger diameter
stabilizing wheels 44 may also be used to compensate for the thinner first
guide
beam 34. In the same case, another alternative may be to install spacers 78 on
the first guide beam 34 to match the width of the second guide beam 36 for
which the second monorail 32 was designed.
[0066] As for the guide wheels 42, they may retain their position in
the
second monorail's bogie frame 74 if the upper beam portion 54 is provided with
the same width as that of the second guide beam 36. Alternatively, if the
upper
beam portion 54 is given the same width as that of the first guide beam 34
(i.e.
that of the lower beam portion 56), the guide wheels 42 may need to be adapted
(i.e. their spin axis 74 may be moved inwardly or outwardly or the diameter of
the
guide wheels may be made larger or smaller) with the same logic as that
explained above for the stabilizing wheels 44.
[0067] The present invention has been described with regard to
preferred
embodiments. The description as much as the drawings were intended to help
the understanding of the invention, rather than to limit its scope. It will be
apparent to one skilled in the art that various modifications may be made to
the
invention without departing from the scope of the invention as described
herein,
and such modifications are intended to be covered by the present description.
The invention is defined by the claims that follow.
CA 3004116 2018-05-07

Dessin représentatif
Une figure unique qui représente un dessin illustrant l'invention.
États administratifs

2024-08-01 : Dans le cadre de la transition vers les Brevets de nouvelle génération (BNG), la base de données sur les brevets canadiens (BDBC) contient désormais un Historique d'événement plus détaillé, qui reproduit le Journal des événements de notre nouvelle solution interne.

Veuillez noter que les événements débutant par « Inactive : » se réfèrent à des événements qui ne sont plus utilisés dans notre nouvelle solution interne.

Pour une meilleure compréhension de l'état de la demande ou brevet qui figure sur cette page, la rubrique Mise en garde , et les descriptions de Brevet , Historique d'événement , Taxes périodiques et Historique des paiements devraient être consultées.

Historique d'événement

Description Date
Requête pour le changement d'adresse ou de mode de correspondance reçue 2020-11-18
Représentant commun nommé 2020-11-07
Requête pour le changement d'adresse ou de mode de correspondance reçue 2020-05-25
Accordé par délivrance 2020-01-21
Inactive : Page couverture publiée 2020-01-20
Inactive : Taxe finale reçue 2019-12-10
Préoctroi 2019-12-10
Représentant commun nommé 2019-10-30
Représentant commun nommé 2019-10-30
Lettre envoyée 2019-06-14
Un avis d'acceptation est envoyé 2019-06-14
Un avis d'acceptation est envoyé 2019-06-14
Inactive : Approuvée aux fins d'acceptation (AFA) 2019-06-12
Inactive : Q2 réussi 2019-06-12
Modification reçue - modification volontaire 2019-01-25
Inactive : Rapport - Aucun CQ 2018-11-21
Inactive : Dem. de l'examinateur par.30(2) Règles 2018-11-21
Modification reçue - modification volontaire 2018-11-07
Inactive : Dem. de l'examinateur par.30(2) Règles 2018-08-07
Inactive : Rapport - Aucun CQ 2018-08-07
Lettre envoyée 2018-07-10
Avancement de l'examen jugé conforme - alinéa 84(1)a) des Règles sur les brevets 2018-07-10
Demande publiée (accessible au public) 2018-07-10
Inactive : Page couverture publiée 2018-07-09
Inactive : CIB attribuée 2018-06-15
Inactive : CIB en 1re position 2018-06-15
Inactive : CIB attribuée 2018-06-15
Lettre envoyée 2018-06-01
Modification reçue - modification volontaire 2018-05-25
Inactive : Transfert individuel 2018-05-25
Exigences de dépôt - jugé conforme 2018-05-18
Inactive : Certificat de dépôt - RE (bilingue) 2018-05-18
Lettre envoyée 2018-05-15
Demande reçue - nationale ordinaire 2018-05-11
Inactive : Avancement d'examen (OS) 2018-05-07
Exigences pour une requête d'examen - jugée conforme 2018-05-07
Inactive : Taxe de devanc. d'examen (OS) traitée 2018-05-07
Toutes les exigences pour l'examen - jugée conforme 2018-05-07

Historique d'abandonnement

Il n'y a pas d'historique d'abandonnement

Historique des taxes

Type de taxes Anniversaire Échéance Date payée
Requête d'examen - générale 2018-05-07
Taxe pour le dépôt - générale 2018-05-07
Avancement de l'examen 2018-05-07
Enregistrement d'un document 2018-05-25
Taxe finale - générale 2019-12-16 2019-12-10
TM (brevet, 2e anniv.) - générale 2020-05-07 2020-04-27
TM (brevet, 3e anniv.) - générale 2021-05-07 2021-04-26
TM (brevet, 4e anniv.) - générale 2022-05-09 2022-04-25
TM (brevet, 5e anniv.) - générale 2023-05-08 2023-04-25
TM (brevet, 6e anniv.) - générale 2024-05-07 2024-04-29
Titulaires au dossier

Les titulaires actuels et antérieures au dossier sont affichés en ordre alphabétique.

Titulaires actuels au dossier
BOMBARDIER TRANSPORTATION GMBH
Titulaires antérieures au dossier
PETER TIMAN
Les propriétaires antérieurs qui ne figurent pas dans la liste des « Propriétaires au dossier » apparaîtront dans d'autres documents au dossier.
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Description du
Document 
Date
(aaaa-mm-jj) 
Nombre de pages   Taille de l'image (Ko) 
Description 2018-05-07 17 791
Abrégé 2018-05-07 1 16
Revendications 2018-05-07 6 214
Dessins 2018-05-07 9 155
Dessins 2018-05-25 9 169
Page couverture 2018-06-19 1 44
Dessin représentatif 2018-06-19 1 15
Revendications 2018-11-07 3 112
Revendications 2019-01-25 3 118
Dessin représentatif 2020-01-13 1 15
Page couverture 2020-01-13 1 42
Paiement de taxe périodique 2024-04-29 43 1 781
Accusé de réception de la requête d'examen 2018-05-15 1 174
Certificat de dépôt 2018-05-18 1 204
Courtoisie - Certificat d'enregistrement (document(s) connexe(s)) 2018-06-01 1 102
Avis du commissaire - Demande jugée acceptable 2019-06-14 1 163
Demande de l'examinateur 2018-08-07 3 209
Modification / réponse à un rapport 2018-11-07 14 512
Demande de l'examinateur 2018-11-21 5 274
Modification / réponse à un rapport 2018-05-25 12 228
Courtoisie - Requête pour avancer l’examen - Conforme (OS) 2018-07-10 1 48
Modification / réponse à un rapport 2019-01-25 13 465
Taxe finale 2019-12-10 2 151