EP0879751A1 - Improvements in bogie trucks for rail vehicles - Google Patents
Improvements in bogie trucks for rail vehicles Download PDFInfo
- Publication number
- EP0879751A1 EP0879751A1 EP98304032A EP98304032A EP0879751A1 EP 0879751 A1 EP0879751 A1 EP 0879751A1 EP 98304032 A EP98304032 A EP 98304032A EP 98304032 A EP98304032 A EP 98304032A EP 0879751 A1 EP0879751 A1 EP 0879751A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- bogie truck
- truck according
- bogie
- drive means
- brake pads
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61H—BRAKES OR OTHER RETARDING DEVICES SPECIALLY ADAPTED FOR RAIL VEHICLES; ARRANGEMENT OR DISPOSITION THEREOF IN RAIL VEHICLES
- B61H13/00—Actuating rail vehicle brakes
- B61H13/20—Transmitting mechanisms
- B61H13/24—Transmitting mechanisms for cars with two axles or bogies with two axles and braking cylinder(s) for each bogie, the mechanisms at each side being interconnected
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B61—RAILWAYS
- B61F—RAIL VEHICLE SUSPENSIONS, e.g. UNDERFRAMES, BOGIES OR ARRANGEMENTS OF WHEEL AXLES; RAIL VEHICLES FOR USE ON TRACKS OF DIFFERENT WIDTH; PREVENTING DERAILING OF RAIL VEHICLES; WHEEL GUARDS, OBSTRUCTION REMOVERS OR THE LIKE FOR RAIL VEHICLES
- B61F5/00—Constructional details of bogies; Connections between bogies and vehicle underframes; Arrangements or devices for adjusting or allowing self-adjustment of wheel axles or bogies when rounding curves
- B61F5/26—Mounting or securing axle-boxes in vehicle or bogie underframes
- B61F5/30—Axle-boxes mounted for movement under spring control in vehicle or bogie underframes
- B61F5/32—Guides, e.g. plates, for axle-boxes
- B61F5/325—The guiding device including swinging arms or the like to ensure the parallelism of the axles
Definitions
- the invention relates to bogie trucks for rail vehicles, and in particular to bogie trucks of the kind comprising a pair of spaced side frames, front and rear wheel and axle sets extending transversely between the side frames and rotatable in bearing assemblies which are connected by primary suspension means to the side frames, and a transverse bolster connected between the side frames and having a mounting for connection to the rail vehicle body.
- each wheel and axle set allows each wheel and axle set to perform limited vertical movement relative to the side frames and, more importantly, to be twisted relative to the side frames in a yaw sense, and to be able to translate laterally.
- each wheel In bogie trucks of this general type it is common to provide each wheel with a disc brake where movable brake pads on opposite sides of the wheel are engageable with annular braking surfaces disposed coaxially on opposite sides of the wheel. It is common practice for each disc brake to be actuated by a separate air cylinder which is located adjacent each wheel. There are thus provided four separate air cylinders on each bogie truck connected by air lines to a central braking control. Such arrangement is comparatively costly and the necessity of locating air cylinders close to the wheel may lead to difficulties in location of other components and also in maintenance.
- the present invention provides an alternative braking mechanism which may have advantage in certain types of bogie truck.
- a bogie truck for a rail vehicle comprising a pair of spaced side frames, front and rear wheel and axle sets extending transversely between the side frames and rotatable in bearing assemblies which are connected by primary suspension means to the side frames, and a transverse bolster connected between the side frames and having a mounting for connection to the rail vehicle body, each wheel having a coaxial annular braking surface which is engageable by a movable brake pad, all of said brake pads being connected, through a mechanical linkage assembly, to a single drive means, whereby all of the brake pads may be moved into or out of engagement with their associated braking surfaces by operation of said single drive means.
- Said drive means may comprise a single fluid-actuated piston and cylinder assembly, such as an air cylinder assembly, and may be mounted on the bogie.
- a single fluid-actuated piston and cylinder assembly such as an air cylinder assembly
- Said drive means may comprise a single fluid-actuated piston and cylinder assembly, such as an air cylinder assembly, and may be mounted on the bogie.
- it may be mounted on the transverse bolster of the bogie.
- it may be mounted off the bogie.
- each wheel is provided with two opposed brake pads which are movable, through the mechanical linkage, into and out of engagement with annular braking surfaces on opposite faces respectively of the wheel.
- the brake pads may be mounted on the ends of respective spaced pivoted calipers, the opposite ends of the calipers being connected to the rest of the mechanical linkage for movement towards and away from one another to effect engagement and disengagement of the brake pads with the braking surfaces.
- the calipers on the two wheels adjacent the same side frame may be coupled through a common subsidiary linkage portion to said drive means.
- the common subsidiary linkage portions connected to the calipers on the wheels adjacent the two side frames may be connected to a common drive means through a single final linkage portion.
- the mechanical linkage assembly may include two operating members movably mounted for relative movement towards and away from one another under the action of said drive means, each said operating member being connected, by subsidiary mechanical linkages, to the brake pads engageable with the braking surfaces on two wheels, whereby relative movement between the operating members effects movement of the brake pads into or out of engagement with their respective braking surfaces.
- said operating members are movable in the fore-and-aft direction relative to the bogie.
- the assembly may have one part, e.g. the cylinder, mounted on one of said operating members and another part, e.g. the piston, connected to the other of said operating members, whereby movement of the piston relative to the cylinder moves the operating members towards or away from one another.
- Said other part of the piston and cylinder assembly may be connected to said other operating member by a mechanical linkage.
- a double-ended lever arm is pivotally mounted on each operating member, one end of each lever arm being connected to the end of the other lever arm by a main link, the other end of the lever arm on the operating member on which the piston and cylinder assembly is mounted being connected to one of the parts of the assembly, and the other end of the lever arm on the other operating member being connected by a second link to said one operating member.
- the second link may be connected to the cylinder of the piston and cylinder assembly.
- said main link is a slack adjuster, i.e. a device which is automatically adjustable in length so as to alter the relative distance moved by the operating members in order to take up slack in the mechanical linkages and wear in the brake pads.
- a slack adjuster i.e. a device which is automatically adjustable in length so as to alter the relative distance moved by the operating members in order to take up slack in the mechanical linkages and wear in the brake pads.
- the braking system according to this aspect of the invention may be applied to virtually any form of bogie, whether for freight or passenger use.
- the bogie truck comprises two spaced side frames 10 connected by a transverse bolster 11 to provide a generally H-shaped frame, only one halfof the symmetrical frame being shown in Figure 1.
- the bolster 11 is connected to the underside ofthe rail vehicle by an assembly 12 which allows the bogie to pivot freely, relative to the rail vehicle, when the vehicle is passing over undulating track. Further suspension means, not shown, are connected between the transverse bolster 11 and the vehicle body.
- Each side frame 10 comprises a central portion 13 which is secured to the end ofthe bolster 11 or is integral with it. Between the side frames 10, fore-and-aft of the bolster 11, there extend wheel sets 14 each comprising an axle 15 on opposite ends of which are rigidly mounted flanged wheels 16. Inboard of each wheel 16 a bearing portion 17 of the axle 15 is rotatable in a bearing in an axle box 18.
- a vertical helical compression spring assembly 19 is disposed between each axle box 18 and the end of the side frame 10.
- the spring assemblies 19 are two-rate assemblies so as to provide different vertical stiffnesses for the tare and laden conditions of the vehicle.
- the helical compression spring assemblies 19 constitute the primary suspension of the bogie truck and also provide lateral stiffness.
- a brake assembly 20 comprising two callipers 21, 22 which overlie opposite sides of the wheel 16 and are pivotally connected by a cross link 23.
- the outer calliper 21 is pivotally mounted on the centre portion 13 of the side frame 10, as indicated at 24, whereas the inner calliper 22 is integral with a lever arm 25 which extends inwardly through apertures in the side frame 10.
- a short link 26 connects the end of the cross link 23 on which the calliper 22 is pivoted to the centre portion 13 of the side frame, as indicated at 27.
- the ends of the callipers 21, 22 have brake pads 28 mounted thereon which are engageable with annular braking surfaces which are coaxial with the wheel 16 on opposite side faces thereof.
- the braking surfaces may be integrally formed on the wheel or may comprise separate annular components which are secured to the wheel.
- the subsidiary linkages 21-27 are such that pivotal movement of each lever arm 25 away from the bolster 11 will bring the associated brake pads 28 into braking contact with the braking surfaces on the wheel, and movement of the lever 25 towards the bolster 11 will disengage the brake.
- the brake assemblies 20 are operated by a main operating linkage 29 mounted between the side frames 10.
- the linkage 29 comprises two operating cross members 30, 31. Opposite ends of each of the cross members 30, 32 are formed with flanges 44 which are slidably received in horizontal slots in inwardly projecting lugs 45 on the side frames 10, so that the members 30, 31 are slidable towards and away from one another along the fore-and-aft axis of the bogie truck.
- the cylinder 32 of an air cylinder assembly 33 is fixedly mounted on the operating member 30 and is connected by a rigid link 34 to one end of a double-ended lever arm 35 which is pivotally mounted at 36 on the other operating member 31.
- the opposite end of the lever arm 35 is pivotally connected at 37 to one end of an elongate slack adjuster 38.
- the opposite end of the slack adjuster 38 is pivotally mounted at 39 to a further double-ended lever 40 which is pivotally mounted at 41 on the first operating member 30.
- the opposite end of the lever 40 is pivotally connected at 42 to the end of the piston of the air cylinder assembly 33.
- the flanges 44 at the outer extremities of the operating members 30, 31 are pivotally connected, by short links 43, to the lever arms 25 of the subsidiary linkages incorporating the brake callipers.
- the air cylinder assembly 33 is actuated so as to extend the piston.
- the extension of the piston alters the geometry of the linkage provided by the four links 34, 35, 38 and 40 in a manner to move the operating members 30 and 31 away from one another.
- the link connections 43 between the operating members and the lever arms 25 cause all four lever arms 25 to pivot away from the bolster 11, thereby urging the brake pads 28 against the braking surfaces on the wheels 16, as previously described.
- operation of the air cylinder assembly 33 to retract the piston moves the operating members 30, 31 towards one another again, swinging the levers 25 towards the bolster 11 so as to open the callipers and disengage the brakes.
- the track adjuster 38 is ofa well known kind in which the effective length of the adjuster 38 is automatically varied, during operation of the linkage, to take up any slack in the linkages or to compensate for wear in the brake pads 28.
- the bogie truck comprises two spaced side frames 110 connected by a transverse bolster 111 to provide a generally H-shaped frame.
- the bolster 111 is connected to the underside of the rail vehicle body by an assembly 112 comprising a downwardly projecting part-spherical component 113 which engages within a corresponding socket component 114 on the bolster 111.
- the assembly 112 allows the bogie to pivot freely, relative to the rail vehicle, when the vehicle is passing over undulating track.
- Further suspension means are connected between the transverse bolster 111 and the vehicle body.
- Each side frame 110 comprises a central portion 115 which is secured to the ends of the bolster 111 by Huck bolts 116.
- the ends of the bolster 111 are provided with accurately machined surfaces which mate with corresponding accurately machined surfaces on the side frames 110 so that each side frame, when such surfaces are brought into engagement, is accurately located in the required orientation with respect to the bolster. Not only does this ensure that the H-frame of the bogie will be square when assembled, with a minimum of jigging, but it greatly facilitates the replacement of a side frame, or the bolster, since the replacement component will also be formed with the appropriate accurately machined surfaces so that, again, the components will fit together with a minimum of accurate jigging.
- the bolster 111 is of generally 1-section, comprising a central vertical web 111a and upper and lower flanges 111b and 111c.
- wheel sets 117 each comprising an axle 118 on which are rigidly mounted flanged wheels 119.
- the wheel set comprises a journal which is rotatable in a bearing in a bearing assembly 120.
- each bearing assembly 120 comprises an axle box 121, containing the bearing, mounted on a lower support frame 122.
- a vertical helical compression spring assembly 123 is disposed on each side of the axle box 121 with its lower end engaging in a recess in the lower frame 122 and its upper end connected to the underside ofthe side frame 110.
- the spring assemblies 123 are two-rate assemblies so as to provide different vertical stiffnesses for the tare and laden conditions of the vehicle.
- the helical compression spring assemblies 123 constitute the primary suspension of the bogie truck.
- the spring assemblies 123 also provide the lateral stiffness for the bogie truck.
- a vertical hydraulic damper 124 is disposed outboard of the axle box 121 and is pivotally connected between brackets 125, 126 on the lower frame 122 and the side frame 110 respectively.
- a fore-and-aft extending track rod 127 is pivotally connected between each bearing assembly and a mounting 128 on the lower part of each side frame 110.
- each wheel 119 associated with each wheel 119 is a brake assembly 129 comprising two calipers 130 which overlie opposite sides of the wheel 119 and are pivotally connected to a cross link 131.
- the ends of the calipers 130 have brake pads 132 mounted thereon which are engageable with annular braking surfaces 133 which are coaxial with the wheel on opposite side faces thereof.
- the braking surfaces 133 may be integrally formed on the wheel or may comprise separate annular components which are secured to the wheel.
- the calipers 130 are operated through a mechanical linkage.
- One end of each inboard caliper 130 is pivotally mounted to a fixed bracket 134 on the bolster 111.
- the outboard caliper 130 is pivotally connected to one end of a cross link 135 which is movable longitudinally of the bolster 111.
- the cross link 135 is connected by a short link 136 to one arm of a bell crank 137 which is pivotally mounted on the side frame, as indicated at 138.
- the opposite arm of each bell crank 137 is pivotally connected to a fore-and-aft extending link 139 and the two links 139 are connected by a further cross link 140.
- a further linkage 141 connects the cross link 140 to a driving device, such as an air cylinder, located away from the bogie, for example in the bottom part of the rail vehicle body.
- the air cylinder or other device is actuated causing retraction of the links 139 to the left in Figure 3 which in turn pivots the bell cranks 137 so as to move the cross links 135 away from their associated fixed brackets 134.
- the outboard brake pad 132 and caliper 130 of each brake mechanism is located between the wheel 119 and the inner of the two helical springs 123, and sufficient space must be left between the inner spring and the wheel to allow for this part of the brake mechanism. Accordingly, in prior art arrangements this distance also determines the distance of the bearing and axle box 121 from the wheel 119, since in such arrangements both springs 123 are the same distance from the wheel and the centre of the bearing lies in the same plane as the axes of the springs.
- the plane containing the axes of the springs 123 and the centre of the bearing is inclined to the axis of the wheel set so that the outer spring 123 is closer to the wheel 119 than the inner spring and the centre of the bearing is also closer to the wheel than the axis of the inner spring.
- the distance between the centres of the two bearings at the opposite ends of each wheel set may be reduced to 200 cm. Reduction of the distance between the bearing and the adjacent wheel reduces the bending moment applied to the axle due to the weight of the vehicle.
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Abstract
A bogie truck for a rail vehicle comprises a pair of spaced side frames (10), front
and rear wheel and axle sets (15, 16) extending transversely between the side frames and
rotatable in bearing assemblies (18) which are connected by primary suspension means
(19) to the side frames, and a transverse bolster (11) connected between the side frames
and having a mounting for connection to the rail vehicle body. Each wheel (16) has
coaxial annular braking surface on opposite sides thereof which are engageable by
movable brake pads (28). All of the brake pads (28) are connected, through a mechanical
linkage assembly (21, 22, 23,43, 29), to a single fluid-actuated piston and cylinder
assembly (33), whereby all of the brake pads (28) may be moved into or out of
engagement with their associated braking surfaces by operation of the single assembly
(23), which may be mounted on or off the bogie.
Description
The invention relates to bogie trucks for rail vehicles, and in particular to bogie
trucks of the kind comprising a pair of spaced side frames, front and rear wheel and axle
sets extending transversely between the side frames and rotatable in bearing assemblies
which are connected by primary suspension means to the side frames, and a transverse
bolster connected between the side frames and having a mounting for connection to the
rail vehicle body.
In such a bogie truck the primary suspension allows each wheel and axle set to
perform limited vertical movement relative to the side frames and, more importantly, to
be twisted relative to the side frames in a yaw sense, and to be able to translate laterally.
In bogie trucks of this general type it is common to provide each wheel with a
disc brake where movable brake pads on opposite sides of the wheel are engageable with
annular braking surfaces disposed coaxially on opposite sides of the wheel. It is
common practice for each disc brake to be actuated by a separate air cylinder which is
located adjacent each wheel. There are thus provided four separate air cylinders on each
bogie truck connected by air lines to a central braking control. Such arrangement is
comparatively costly and the necessity of locating air cylinders close to the wheel may
lead to difficulties in location of other components and also in maintenance. The present
invention provides an alternative braking mechanism which may have advantage in
certain types of bogie truck.
According to the invention, there is provided a bogie truck for a rail vehicle,
comprising a pair of spaced side frames, front and rear wheel and axle sets extending
transversely between the side frames and rotatable in bearing assemblies which are
connected by primary suspension means to the side frames, and a transverse bolster
connected between the side frames and having a mounting for connection to the rail
vehicle body, each wheel having a coaxial annular braking surface which is engageable
by a movable brake pad, all of said brake pads being connected, through a mechanical
linkage assembly, to a single drive means, whereby all of the brake pads may be moved
into or out of engagement with their associated braking surfaces by operation of said
single drive means.
Said drive means may comprise a single fluid-actuated piston and cylinder
assembly, such as an air cylinder assembly, and may be mounted on the bogie. For
example it may be mounted on the transverse bolster of the bogie. Alternatively it may
be mounted off the bogie.
Preferably each wheel is provided with two opposed brake pads which are
movable, through the mechanical linkage, into and out of engagement with annular
braking surfaces on opposite faces respectively of the wheel.
In this case the brake pads may be mounted on the ends of respective spaced
pivoted calipers, the opposite ends of the calipers being connected to the rest of the
mechanical linkage for movement towards and away from one another to effect
engagement and disengagement of the brake pads with the braking surfaces.
The calipers on the two wheels adjacent the same side frame may be coupled
through a common subsidiary linkage portion to said drive means.
The common subsidiary linkage portions connected to the calipers on the wheels
adjacent the two side frames may be connected to a common drive means through a
single final linkage portion.
In one embodiment of the invention the mechanical linkage assembly may include
two operating members movably mounted for relative movement towards and away
from one another under the action of said drive means, each said operating member
being connected, by subsidiary mechanical linkages, to the brake pads engageable with
the braking surfaces on two wheels, whereby relative movement between the operating
members effects movement of the brake pads into or out of engagement with their
respective braking surfaces. Preferably said operating members are movable in the fore-and-aft
direction relative to the bogie.
In the case where the drive means comprise a single fluid-actuated piston and
cylinder assembly the assembly may have one part, e.g. the cylinder, mounted on one of
said operating members and another part, e.g. the piston, connected to the other of said
operating members, whereby movement of the piston relative to the cylinder moves the
operating members towards or away from one another.
Said other part of the piston and cylinder assembly may be connected to said
other operating member by a mechanical linkage.
In a preferred embodiment a double-ended lever arm is pivotally mounted on
each operating member, one end of each lever arm being connected to the end of the
other lever arm by a main link, the other end of the lever arm on the operating member
on which the piston and cylinder assembly is mounted being connected to one of the
parts of the assembly, and the other end of the lever arm on the other operating member
being connected by a second link to said one operating member. For example, the
second link may be connected to the cylinder of the piston and cylinder assembly.
Preferably said main link is a slack adjuster, i.e. a device which is automatically
adjustable in length so as to alter the relative distance moved by the operating members
in order to take up slack in the mechanical linkages and wear in the brake pads. Such
devices are well known and will not therefore be described in detail.
The braking system according to this aspect of the invention may be applied to
virtually any form of bogie, whether for freight or passenger use.
The following is a more detailed description of an embodiment of the invention,
by way of example, reference being made to the accompanying drawings in which:
Referring to Figures 1 and 2, the bogie truck comprises two spaced side frames
10 connected by a transverse bolster 11 to provide a generally H-shaped frame, only one
halfof the symmetrical frame being shown in Figure 1. The bolster 11 is connected to
the underside ofthe rail vehicle by an assembly 12 which allows the bogie to pivot freely,
relative to the rail vehicle, when the vehicle is passing over undulating track. Further
suspension means, not shown, are connected between the transverse bolster 11 and the
vehicle body.
Each side frame 10 comprises a central portion 13 which is secured to the end
ofthe bolster 11 or is integral with it. Between the side frames 10, fore-and-aft of the
bolster 11, there extend wheel sets 14 each comprising an axle 15 on opposite ends of
which are rigidly mounted flanged wheels 16. Inboard of each wheel 16 a bearing
portion 17 of the axle 15 is rotatable in a bearing in an axle box 18.
A vertical helical compression spring assembly 19 is disposed between each axle
box 18 and the end of the side frame 10. In known manner, the spring assemblies 19 are
two-rate assemblies so as to provide different vertical stiffnesses for the tare and laden
conditions of the vehicle. The helical compression spring assemblies 19 constitute the
primary suspension of the bogie truck and also provide lateral stiffness.
Associated with each wheel 16 is a brake assembly 20 comprising two callipers
21, 22 which overlie opposite sides of the wheel 16 and are pivotally connected by a
cross link 23. The outer calliper 21 is pivotally mounted on the centre portion 13 of the
side frame 10, as indicated at 24, whereas the inner calliper 22 is integral with a lever
arm 25 which extends inwardly through apertures in the side frame 10. A short link 26
connects the end of the cross link 23 on which the calliper 22 is pivoted to the centre
portion 13 of the side frame, as indicated at 27.
The ends of the callipers 21, 22 have brake pads 28 mounted thereon which are
engageable with annular braking surfaces which are coaxial with the wheel 16 on
opposite side faces thereof. The braking surfaces may be integrally formed on the wheel
or may comprise separate annular components which are secured to the wheel.
The subsidiary linkages 21-27 are such that pivotal movement of each lever arm
25 away from the bolster 11 will bring the associated brake pads 28 into braking contact
with the braking surfaces on the wheel, and movement of the lever 25 towards the
bolster 11 will disengage the brake.
The brake assemblies 20 are operated by a main operating linkage 29 mounted
between the side frames 10.
The linkage 29 comprises two operating cross members 30, 31. Opposite ends
of each of the cross members 30, 32 are formed with flanges 44 which are slidably
received in horizontal slots in inwardly projecting lugs 45 on the side frames 10, so that
the members 30, 31 are slidable towards and away from one another along the fore-and-aft
axis of the bogie truck. The cylinder 32 of an air cylinder assembly 33 is fixedly
mounted on the operating member 30 and is connected by a rigid link 34 to one end of
a double-ended lever arm 35 which is pivotally mounted at 36 on the other operating
member 31.
The opposite end of the lever arm 35 is pivotally connected at 37 to one end of
an elongate slack adjuster 38. The opposite end of the slack adjuster 38 is pivotally
mounted at 39 to a further double-ended lever 40 which is pivotally mounted at 41 on
the first operating member 30. The opposite end of the lever 40 is pivotally connected
at 42 to the end of the piston of the air cylinder assembly 33.
The flanges 44 at the outer extremities of the operating members 30, 31 are
pivotally connected, by short links 43, to the lever arms 25 of the subsidiary linkages
incorporating the brake callipers.
In order to apply the brakes, the air cylinder assembly 33 is actuated so as to
extend the piston. The extension of the piston alters the geometry of the linkage
provided by the four links 34, 35, 38 and 40 in a manner to move the operating members
30 and 31 away from one another. The link connections 43 between the operating
members and the lever arms 25 cause all four lever arms 25 to pivot away from the
bolster 11, thereby urging the brake pads 28 against the braking surfaces on the wheels
16, as previously described. Conversely, operation of the air cylinder assembly 33 to
retract the piston moves the operating members 30, 31 towards one another again,
swinging the levers 25 towards the bolster 11 so as to open the callipers and disengage
the brakes.
The track adjuster 38 is ofa well known kind in which the effective length of the
adjuster 38 is automatically varied, during operation of the linkage, to take up any slack
in the linkages or to compensate for wear in the brake pads 28.
In the alternative arrangement shown in Figures 3 to 5 the bogie truck comprises
two spaced side frames 110 connected by a transverse bolster 111 to provide a generally
H-shaped frame. The bolster 111 is connected to the underside of the rail vehicle body
by an assembly 112 comprising a downwardly projecting part-spherical component 113
which engages within a corresponding socket component 114 on the bolster 111. The
assembly 112 allows the bogie to pivot freely, relative to the rail vehicle, when the
vehicle is passing over undulating track. Further suspension means, not shown, are
connected between the transverse bolster 111 and the vehicle body.
Each side frame 110 comprises a central portion 115 which is secured to the ends
of the bolster 111 by Huck bolts 116. The ends of the bolster 111 are provided with
accurately machined surfaces which mate with corresponding accurately machined
surfaces on the side frames 110 so that each side frame, when such surfaces are brought
into engagement, is accurately located in the required orientation with respect to the
bolster. Not only does this ensure that the H-frame of the bogie will be square when
assembled, with a minimum of jigging, but it greatly facilitates the replacement of a side
frame, or the bolster, since the replacement component will also be formed with the
appropriate accurately machined surfaces so that, again, the components will fit together
with a minimum of accurate jigging.
The bolster 111 is of generally 1-section, comprising a central vertical web 111a
and upper and lower flanges 111b and 111c.
Between the side frames 110, fore-and-aft of the bolster 111, there extend wheel
sets 117 each comprising an axle 118 on which are rigidly mounted flanged wheels 119.
Outboard of each wheel 119 the wheel set comprises a journal which is rotatable in a
bearing in a bearing assembly 120.
As best seen in Figure 4, each bearing assembly 120 comprises an axle box 121,
containing the bearing, mounted on a lower support frame 122. A vertical helical
compression spring assembly 123 is disposed on each side of the axle box 121 with its
lower end engaging in a recess in the lower frame 122 and its upper end connected to
the underside ofthe side frame 110. In known manner the spring assemblies 123 are
two-rate assemblies so as to provide different vertical stiffnesses for the tare and laden
conditions of the vehicle. The helical compression spring assemblies 123 constitute the
primary suspension of the bogie truck. The spring assemblies 123 also provide the
lateral stiffness for the bogie truck.
A vertical hydraulic damper 124 is disposed outboard of the axle box 121 and
is pivotally connected between brackets 125, 126 on the lower frame 122 and the side
frame 110 respectively. A fore-and-aft extending track rod 127 is pivotally connected
between each bearing assembly and a mounting 128 on the lower part of each side frame
110.
As best seen in Figure 3, associated with each wheel 119 is a brake assembly 129
comprising two calipers 130 which overlie opposite sides of the wheel 119 and are
pivotally connected to a cross link 131. The ends of the calipers 130 have brake pads
132 mounted thereon which are engageable with annular braking surfaces 133 which are
coaxial with the wheel on opposite side faces thereof. The braking surfaces 133 may be
integrally formed on the wheel or may comprise separate annular components which are
secured to the wheel.
The calipers 130 are operated through a mechanical linkage. One end of each
inboard caliper 130 is pivotally mounted to a fixed bracket 134 on the bolster 111. The
outboard caliper 130 is pivotally connected to one end of a cross link 135 which is
movable longitudinally of the bolster 111. The cross link 135 is connected by a short
link 136 to one arm of a bell crank 137 which is pivotally mounted on the side frame, as
indicated at 138. The opposite arm of each bell crank 137 is pivotally connected to a
fore-and-aft extending link 139 and the two links 139 are connected by a further cross
link 140. A further linkage 141 connects the cross link 140 to a driving device, such as
an air cylinder, located away from the bogie, for example in the bottom part of the rail
vehicle body.
In order to operate the brakes, the air cylinder or other device is actuated causing
retraction of the links 139 to the left in Figure 3 which in turn pivots the bell cranks 137
so as to move the cross links 135 away from their associated fixed brackets 134. This
operates the calipers 130 so as to close the brake pads 132 on to the annular braking
surfaces on the wheels 119.
As may be seen from Figure 3, the outboard brake pad 132 and caliper 130 of
each brake mechanism is located between the wheel 119 and the inner of the two helical
springs 123, and sufficient space must be left between the inner spring and the wheel to
allow for this part of the brake mechanism. Accordingly, in prior art arrangements this
distance also determines the distance of the bearing and axle box 121 from the wheel
119, since in such arrangements both springs 123 are the same distance from the wheel
and the centre of the bearing lies in the same plane as the axes of the springs.
In the present arrangement, however, the plane containing the axes of the springs
123 and the centre of the bearing is inclined to the axis of the wheel set so that the outer
spring 123 is closer to the wheel 119 than the inner spring and the centre of the bearing
is also closer to the wheel than the axis of the inner spring.
In a preferred arrangement the distance between the centres of the two bearings
at the opposite ends of each wheel set may be reduced to 200 cm. Reduction of the
distance between the bearing and the adjacent wheel reduces the bending moment
applied to the axle due to the weight of the vehicle.
Claims (17)
- A bogie truck for a rail vehicle, comprising a pair of spaced side frames, front and rear wheel and axle sets extending transversely between the side frames and rotatable in bearing assemblies which are connected by primary suspension means to the side frames, and a transverse bolster connected between the side frames and having a mounting for connection to the rail vehicle body, each wheel having a coaxial annular braking surface which is engageable by a movable brake pad, characterised in that all of said brake pads are connected, through a mechanical linkage assembly, to a single drive means, whereby all of the brake pads may be moved into or out of engagement with their associated braking surfaces by operation of said single drive means.
- A bogie truck according to Claim 1, wherein said drive means comprise a single fluid-actuated piston and cylinder assembly.
- A bogie truck according to Claim 2, wherein said drive means comprise a single air-actuated piston and cylinder assembly.
- A bogie truck according to any of Claims 1 to 3, wherein said drive means are mounted on the bogie.
- A bogie truck according to Claim 4, wherein said drive means are mounted on the transverse bolster of the bogie.
- A bogie truck according to any of Claims 1 to 3, wherein said drive means are mounted off the bogie.
- A bogie truck according to any of the preceding claims, wherein each wheel is provided with two opposed brake pads which are movable, through the mechanical linkage, into and out of engagement with annular braking surfaces on opposite faces respectively of the wheel.
- A bogie truck according to Claim 7, wherein the brake pads are mounted on the ends of respective spaced pivoted calipers, the opposite ends of the calipers being connected to the rest of the mechanical linkage for movement towards and away from one another to effect engagement and disengagement of the brake pads with the braking surfaces.
- A bogie truck according to Claim 8, wherein the calipers on the two wheels adjacent the same side frame are coupled through a common subsidiary linkage portion to said drive means.
- A bogie truck according to Claim 9, wherein the common subsidiary linkage portions connected to the calipers on the wheels adjacent the two side frames are connected to a common drive means through a single final linkage portion.
- A bogie truck according to any of the preceding claims, wherein the mechanical linkage assembly includes two operating members movably mounted for relative movement towards and away from one another under the action of said drive means, each said operating member being connected, by subsidiary mechanical linkages, to the brake pads engageable with the braking surfaces on two wheels, whereby relative movement between the operating members effects movement of the brake pads into or out of engagement with their respective braking surfaces.
- A bogie truck according to Claim 11, wherein said operating members are movable in the fore-and-aft direction relative to the bogie.
- A bogie truck according to Claim 11 or Claim 12, wherein the drive means comprise a single fluid-actuated piston and cylinder assembly, the assembly having one part, mounted on one of said operating members and another part connected to the other of said operating members, whereby movement of the piston relative to the cylinder moves the operating members towards or away from one another.
- A bogie truck according to Claim 13, wherein said other part of the piston and cylinder assembly is connected to said other operating member by a mechanical linkage.
- A bogie truck according to Claim 13 or Claim 14, wherein a double-ended lever arm is pivotally mounted on each operating member, one end of each lever arm being connected to the end of the other lever arm by a main link, the other end of the lever arm on the operating member on which the piston and cylinder assembly is mounted being connected to one of the parts of the assembly, and the other end of the lever arm on the other operating member being connected by a second link to said one operating member.
- A bogie truck according to Claim 15, wherein the second link is connected to the cylinder of the piston and cylinder assembly.
- A bogie truck according to Claim 15 or Claim 16, wherein said main link is a slack adjuster, which is automatically adjustable in length so as to alter the relative distance moved by the operating members in order to take up slack in the mechanical linkages and wear in the brake pads.
Applications Claiming Priority (6)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
GBGB9710654.6A GB9710654D0 (en) | 1997-05-24 | 1997-05-24 | Improvements in bogie trucks for rail vehicles |
GB9710654 | 1997-05-24 | ||
GBGB9714085.9A GB9714085D0 (en) | 1997-07-04 | 1997-07-04 | Improvements in bogie trucks for rail vehicles |
GB9714085 | 1997-07-04 | ||
GB9802188 | 1998-02-03 | ||
GBGB9802188.4A GB9802188D0 (en) | 1998-02-03 | 1998-02-03 | Improvements in bogie trucks for rail vehicles |
Publications (1)
Publication Number | Publication Date |
---|---|
EP0879751A1 true EP0879751A1 (en) | 1998-11-25 |
Family
ID=27268853
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP98304032A Withdrawn EP0879751A1 (en) | 1997-05-24 | 1998-05-21 | Improvements in bogie trucks for rail vehicles |
Country Status (2)
Country | Link |
---|---|
EP (1) | EP0879751A1 (en) |
CZ (1) | CZ159398A3 (en) |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2006062734A1 (en) * | 2004-12-09 | 2006-06-15 | Wabtec Holding Corporation | Disk brake arranged tmx |
CN104176085A (en) * | 2014-09-22 | 2014-12-03 | 南车株洲电力机车有限公司 | Railway vehicle and brake pull rod device thereof |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0296351A1 (en) * | 1987-05-22 | 1988-12-28 | Knorr-Bremse Ag | Disc-brake for railway vehicles |
EP0325117A2 (en) * | 1988-01-22 | 1989-07-26 | Duewag Aktiengesellschaft | Bogie-like undercarriage for railway vehicles |
EP0329971A2 (en) * | 1988-02-22 | 1989-08-30 | Bergische Stahl-Industrie | Disc brake gear with adjustment |
-
1998
- 1998-05-21 EP EP98304032A patent/EP0879751A1/en not_active Withdrawn
- 1998-05-22 CZ CZ981593A patent/CZ159398A3/en unknown
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
EP0296351A1 (en) * | 1987-05-22 | 1988-12-28 | Knorr-Bremse Ag | Disc-brake for railway vehicles |
EP0325117A2 (en) * | 1988-01-22 | 1989-07-26 | Duewag Aktiengesellschaft | Bogie-like undercarriage for railway vehicles |
EP0329971A2 (en) * | 1988-02-22 | 1989-08-30 | Bergische Stahl-Industrie | Disc brake gear with adjustment |
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2006062734A1 (en) * | 2004-12-09 | 2006-06-15 | Wabtec Holding Corporation | Disk brake arranged tmx |
US7341128B2 (en) | 2004-12-09 | 2008-03-11 | Wabtec Holding Corp. | Disk brake arranged TMX |
CN104176085A (en) * | 2014-09-22 | 2014-12-03 | 南车株洲电力机车有限公司 | Railway vehicle and brake pull rod device thereof |
Also Published As
Publication number | Publication date |
---|---|
CZ159398A3 (en) | 1998-12-16 |
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