RUBBER SUSPENSION UNIT OF A DIAPHRAGM ASSEMBLY FOR PASSAGE BETWEEN RAIL CARS

Abstract

A railcar diaphragm includes a car side assembly configured to be coupled to an end wall of a railcar, a wear side assembly configured to engage the wear side assembly of another railcar diaphragm or an other railcar when the other railcar is coupled to the railcar, a bellows assembly disposed between the car side assembly and the wear side assembly to provide a pathway and at least one elastomer suspension unit assembly including an elastomer suspension unit, a bearing assembly and an arm having a first end coupled to the elastomer suspension unit and a second end coupled to the bearing assembly. The elastomer suspension unit assembly is coupled to the car side or wear side assembly via the bearing assembly. The arm is biased towards an initial position by the elastomer suspension unit as a distance between the car side assembly and the wear side assembly changes.

Claims

1. A railcar diaphragm, comprising: a car side assembly configured to be coupled to an end wall of a railcar; a wear side assembly configured to engage the wear side assembly of another railcar diaphragm or an other railcar when the other railcar is coupled to the railcar; a bellows assembly disposed between the car side assembly and the wear side assembly to provide a pathway; and at least one elastomer suspension unit assembly including: an elastomer suspension unit; a bearing assembly; an arm having a first end coupled to the elastomer suspension unit and a second end coupled to the bearing assembly; wherein the at least one elastomer suspension unit assembly is coupled to one of the car side and wear side assembly via the bearing assembly; and wherein the diaphragm has an initial position when the bellows assembly is in an extended state and the at least one elastomer suspension unit assembly is unbiased, the diaphragm further having a nominal state and a compressed state in which the at least one arm is biased by the elastomer suspension unit towards the initial position as a distance between the car side assembly and the wear side assembly changes.

2. The railcar diaphragm of claim 1, wherein the elastomer suspension unit mounted to the other of the car side assembly and the wear side assembly.

3. The railcar diaphragm of claim 2, wherein the elastomer suspension unit and the bearing assembly are mounted such that the arm is at an angle relative to the car side assembly and the wear side assembly, when the bellows assembly is in the nominal state.

4. The railcar diaphragm of claim 3, wherein the at least one elastomer suspension unit assembly includes two elastomer suspension unit assemblies, the two elastomer suspension unit assemblies are mounted to the car side assembly and the wear side assembly such that one of the two elastomer suspension unit assemblies mirrors the other one of the two elastomer suspension unit assemblies.

5. The railcar diaphragm of claim 2, wherein the at least one suspension unit assembly further comprises a second bearing assembly, the at least one suspension unit assembly further comprising a second arm having a first end coupled to the elastomer suspension unit, a second end of the second arm coupled to the second bearing assembly, the second bearing assembly mounted to one of the car side and wear side assembly such that the first arm and the second arm mirror each other.

6. The railcar diaphragm of claim 1, wherein the at least one elastomer suspension unit assembly further comprises a second bearing assembly mounted to the other of the car side and wear side assembly, the at least one elastomer suspension unit assembly further comprising a second arm having a second end coupled to the elastomer suspension unit, a first end of the second arm coupled to the second bearing assembly.

7. The railcar diaphragm of claim 6, wherein the at least one elastomer suspension unit assembly includes two elastomer suspension unit assemblies, the two elastomer suspension unit assemblies are mounted to the car side assembly and the wear side assembly such that one of the two elastomer suspension unit assemblies mirrors the other one of the two elastomer suspension unit assemblies.

8. The railcar diaphragm of claim 6, wherein the at least one elastomer suspension unit assembly further comprises a third arm, a fourth arm and a second elastomer suspension unit, a second end of the third arm and fourth arm coupled to the second elastomer suspension unit, a first end of the third arm coupled to the bearing assembly, a first end of the fourth arm coupled to the second bearing assembly such that the at least one elastomer suspension unit assembly has a shape of parallelogram.

9. The railcar diaphragm of claim 8, wherein the at least one elastomer suspension unit assembly includes two elastomer suspension unit assemblies adjacent to each other.

10. The railcar diaphragm of claim 1, wherein the second end of the arm slides and pivots relative to the bearing assembly when the distance between the car side assembly and the wear side assembly changes.

11. The railcar diaphragm of claim 1, wherein the elastomer suspension unit assembly is mounted at the top, bottom or sides of the car side assembly and the wear side assembly of the railcar diaphragm.

12. The railcar diaphragm of claim 1, further comprising a rubber support assembly, wherein the rubber support assembly is mounted at the bottom of the railcar diaphragm.

13. The railcar diaphragm of claim 1, further comprising a plurality of rubber stoppers mounted on the sides of the car side assembly or the wear side assembly.

14. The railcar diaphragm of claim 1, wherein the at least one elastomer suspension unit assembly includes four elastomer suspension unit assemblies, two of the four elastomer suspension unit assemblies are mounted to the top or bottom of the car side assembly and the wear side assembly such that the two of the four elastomer suspension unit assemblies mirror each other, and the other two of the four elastomer suspension unit assemblies are mounted to the bottom or top of the car side assembly and the wear side assembly such that the two of the four elastomer suspension unit assemblies mirror each other.

15. The railcar diaphragm of claim 14, wherein the elastomer suspension unit of each of the four elastomer suspension unit assemblies is mounted to a central region of the top or bottom of the car side assembly and the wear side assembly.

16. The railcar diaphragm of claim 14, wherein the elastomer suspension units of two of the four elastomer suspension unit assemblies at the top or bottom are mounted to a central region of the top or bottom of the car side assembly and the wear side assembly and the elastomer suspension units of the other two of the four elastomer suspension unit assemblies at the bottom or top are mounted to the sides of the top or bottom of the car side assembly and the wear side assembly.

17. The railcar diaphragm of claim 2, wherein the at least one suspension unit assembly further comprises a second elastomer suspension unit, the at least one suspension unit assembly further comprising a second arm having a first end coupled to the second elastomer suspension unit, a second end of the second arm coupled to the bearing assembly, the second elastomer suspension unit mounted to one of the car side and wear side assembly such that the first arm and the second arm mirror each other.

18. The railcar diaphragm of claim 1, further comprising an additional elastomer suspension unit assembly which includes: an elastomer suspension unit; a bearing assembly; and an arm having a first end coupled to the elastomer suspension unit and a second end coupled to the bearing assembly; wherein the additional elastomer suspension unit assembly is mounted at the bottom of the wear side via the elastomer suspension unit of the additional elastomer suspension unit assembly, the bearing assembly of the additional elastomer suspension unit assembly directly mounted to an other railcar body, wherein the bottom of the car side assembly is open to allow the bearing assembly of the additional elastomer suspension unit assembly to be directly mounted to the other railcar body.

19. An elastomer suspension unit assembly for a railcar diaphragm having a car side assembly and a wear side assembly, comprising: an elastomer suspension unit; a bearing assembly; and an arm having a first end coupled to the elastomer suspension unit and a second end configured to the bearing assembly, wherein the elastomer suspension unit is used to bias the at least one arm towards a neutral position as the at least one arm pivots about the elastomer suspension unit.

20. The elastomer suspension unit assembly of claim 19, wherein the elastomer suspension unit assembly is configured to be mounted to one of the car side and wear side assembly via the bearing assembly.

21. The elastomer suspension unit assembly of claim 19, further comprising a second arm and a second bearing assembly, the second arm having a first end coupled to the elastomer suspension unit, a second end of the second arm coupled to the second bearing assembly, the second bearing assembly mounted to one of the car side and wear side assembly such that the first arm and the second arm mirror each other.

22. The elastomer suspension unit assembly of claim 19, further comprising a second bearing assembly mounted to the other of the car side and wear side assembly, the at least one elastomer suspension unit assembly further comprising a second arm having a second end coupled to the elastomer suspension unit, a first end of the second arm coupled to the second bearing assembly.

23. The elastomer suspension unit assembly of claim 22, further comprises a third arm, a fourth arm and a second elastomer suspension unit, a second end of the third arm and fourth arm coupled to the second elastomer suspension unit, a first end of the third arm coupled to the bearing assembly, a first end of the fourth arm coupled to the second bearing assembly such that the at least one elastomer suspension unit assembly has a shape of parallelogram.

24. The elastomer suspension unit assembly of claim 19, further comprising a second elastomer suspension unit and a second arm, the second arm having a first end coupled to the second elastomer suspension unit and a second end coupled to the bearing assembly, wherein the second elastomer suspension unit assembly is configured such that the first arm and the second arm mirror each other.

25. The elastomer suspension unit assembly of claim 19, wherein the arm includes an upper part and a lower part in parallel to each other, the upper part and the lower part each having a first end coupled to the elastomer suspension unit and a second end configured to the bearing assembly.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0025] FIG. 1 is a perspective view of a diaphragm with bellows in accordance with an embodiment of the present invention;

[0026] FIG. 2 is a perspective view of the diaphragm of FIG. 1 without the bellows;

[0027] FIG. 3 is a front view of a car side assembly of the diaphragm in FIG. 1;

[0028] FIG. 4 is a front view of a wear side assembly of the diaphragm in FIG. 1;

[0029] FIG. 5 is an end view of the diaphragm of FIG. 1 without the bellows;

[0030] FIG. 6 is a top view of the diaphragm of FIG. 1 without the bellows;

[0031] FIG. 7 is a partial perspective view of the diaphragm of FIG. 1;

[0032] FIG. 8 is a partial end view of the diaphragm of FIG. 1;

[0033] FIG. 9 is a partial perspective view of the diaphragm of FIG. 1;

[0034] FIG. 10 is top view of an elastomer suspension unit assembly in accordance with an embodiment of the present invention;

[0035] FIG. 11 is a perspective view of a rubber mount assembly in accordance with an embodiment of the present invention;

[0036] FIG. 12 is a partial perspective view of a railroad car diaphragm in accordance with another embodiment of the present invention;

[0037] FIG. 13 is a partial perspective view of an elastomer suspension unit assembly mounted to the top of the wear side of a railroad car diaphragm in accordance with another embodiment of the present invention;

[0038] FIG. 14 is a partial perspective view of an elastomer suspension unit assembly mounted to the bottom of the wear side of a railroad car diaphragm in accordance with another embodiment of the present invention;

[0039] FIG. 15 is a perspective view of a railroad car diaphragm with an elastomer suspension unit assembly of FIG. 14; and

[0040] FIG. 16 is a perspective view of a diaphragm with flat fabric in accordance with an embodiment of the present invention.

DETAILED DESCRIPTION OF THE DRAWINGS

[0041] FIG. 1 is a perspective view of a diaphragm with bellows according to an embodiment of the present invention. FIG. 2 is a similar view with the bellows removed to show details. The diaphragm is configured to be fixed to a railcar, an adapter of a railcar, a gangway, another diaphragm of the same type or different type, or other portions of the end wall of a railcar such that the diaphragm 10 and another adjacent railcar, diaphragm or gangway can provide an enclosed space between the adjacent railcars that permits passengers to conveniently move from one railcar to the other while being protected from environmental and/or noise conditions. The diaphragm can also be attached to the end of a caboose.

[0042] The diaphragm 10 includes a wear side assembly 20, and a car side assembly 30, a bellows assembly 40 and an elastomer suspension unit assembly 50. The wear side assembly 20 abuts the adjacent car or diaphragm thereof when the railcars are engaged or coupled. The wear side assembly 20 can include one or multiple lifting rings, such as the lifting rings 21a and 21b, that can be used to lift and attach the diaphragm 10 to the end wall of a railcar or to remove the diaphragm 10 from the end wall of the railcar for replacement or repair. Lifting of the diaphragm can be by u-bolts, eye bolts, hooks or the like. The wear side assembly 20 may include a walk plate 22 for passengers to walk over when moving between railcars.

[0043] Referring to FIGS. 2, 5 and 6, the wear side assembly includes a wear plate side 28 and an inner mounting side 29. The wear plate side 28 of the wear side assembly 20 abuts the adjacent car or diaphragm when the railcars are engaged or coupled. The elastomer suspension unit assembly 50 is mounted to the inner mounting side 29 of the wear side assembly 20. The wear side assembly 20 is coupled to the car side assembly 30 by the elastomer suspension unit assembly 50.

[0044] In an embodiment shown in FIG. 4, the wear plate side 28 includes a top horizontal segment 24 with round corners, a bottom horizontal straight segment 26, two upper vertical side straight segment 23a, 23b and two lower vertical side straight segments 25a, 25b. The two lower vertical side straight segments 25a, 25b are connected to the lower horizontal segment 26. Wear plates are detachably connected to the extrusions and the castings and are configured to be easily removed or replaced. When the wear plates are damaged or wear out as a result of wear and tear of the diaphragm, the worn out segment can be removed and replaced with a new segment. In other embodiments, the wear plate side 28 can include fewer or more segments than shown in FIG. 4. The wear plates can be made from polystone, thermoplastic, durostone, phenolic, nylon or nylon composites.

[0045] The car side assembly 30 is used to couple or interface the diaphragm 10 to the end wall of a rail car. In some embodiments, the diaphragm 10 can be coupled to the end wall of a railcar by attaching the car side assembly 30 to any structurally-rigid portions of the end wall.

[0046] Still referring to FIGS. 2, 5 and 6, the car side assembly 30 includes a car mounting side 34, an elastomer suspension unit mounting side 36. The car mounting side 34 of the car side assembly 30 is mounted to the end wall of a railcar or attached frame. The elastomer suspension unit assembly 50 may be mounted to the inner elastomer suspension unit mounting side 36 of the car side assembly.

[0047] FIG. 3 shows an embodiment of the car mounting side 34 of the car side assembly 30, which includes two upper corner pieces 31a, 31b and a number of straight pieces, including a top horizontal piece 33, a bottom horizontal piece 31 and two side vertical pieces 32a, 32b. The straight pieces may be made of extrusions. The corner curved pieces may be made by casting or machined metal. In other embodiments, the car mounting side 34 can include fewer or more segments than shown in FIG. 3.

[0048] The car side assembly 30 can include one or multiple lifting rings, such as the lifting rings 39a and 39b, that can be used to lift and attach the diaphragm 10 to the end wall of a railcar or to remove the diaphragm 10 from the end wall of the railcar for replacement or repair. The lifting rings 39a, 39b can also be used for lifting the car side assembly.

[0049] The car side assembly may further include rubber limiting stoppers 38 in multiple locations, such as on the inside of the two side vertical pieces 32a, 32b of the car side assembly 30. The rubber stoppers can also be located on the inside of the vertical side straight segments 23a, 23b, 25a, 25b of the wear side assembly or other suitable locations.

[0050] The car side and wear side assemblies can be made of aluminum extrusions, castings, aluminum sheets, steel, fiberglass, or composite materials. The car side and wear side assemblies can be welded, adhered, bonded, or fastened together.

[0051] Referring to FIG. 1, the bellows assembly 40 provides passengers a means to transition from one rail car to the next while mitigating potential opening. Diaphragms also provide limited protection from the environment, and noise when the passengers move between railcars. The bellows assembly 40 is made of a flexible water resistant material. For example, the bellows assembly 40 can be made of silicone, pvc, hypalon/csm, rubber compound, or polyester mesh in any thickness variance. Bellows material can be single or multi layered.

[0052] The bellows assembly 40 includes an outer surface that is in contact with the outside environment and an inner surface that defines at least a portion of the passageway or path through which passengers walk when passing from one railcar to another.

[0053] In some embodiments, the bellows assembly 40 may include an inner bellows assembly 44 and an outer bellows assembly 42. Both the inner and outer bellows assemblies may be made of the bellows materials which are sewn together into U-shaped corrugations.

[0054] As shown in FIG. 1, the outer bellow assembly shows a corrugated configuration having two U-shapes sewn together. The inner bellow assembly shows a corrugated configuration having four U-shapes sewn or sealed together. The U-shaped inner bellows may be inverted relative to the U-shaped outer bellows. There may be other numbers of corrugations in the outer and inner bellows. The inner bellows and the outer bellows may have the same or different numbers of the corrugations.

[0055] The bellows assembly 40 may also include a bottom cover or flap (not shown) that protects passengers from dirt, water, and/or debris that can originate from below the diaphragm 10 when the train is moving.

[0056] The diaphragm further includes an elastomer suspension unit assembly 50. As embodied in FIGS. 5, 6 and 7-10, the elastomer suspension unit assembly 50 may include an elastomer suspension unit 70 coupled to an arm 54, 54. The arm 54, 54 may rotate at the elastomer suspension unit and allow for compression, pivoting and angle compensation of the elastomer suspension unit assembly relative to the wear side assembly. Under a torque, the elastomer suspension unit 70 is configured to urge or bias the arm towards a neutral position against the torque.

[0057] The rubber suspension units can be of a square or rectangular shape, with or without additional fastener flanges. The suspension units may be extruded or cast, with an outer frame, a center metal housing and one or more pieces of rubber inserts. The frame may have round inner and outer corners. The inner metal element may be square, rectangular, round or other shapes. The elastomer inserts may fill the partial or entire empty space. There will be empty space remaining between the elastomer inserts if the elastomer insert does not fill the entire empty space. The elastomer suspension units may be made of aluminum or steel. The elastomer inserts of the elastomer suspension units may be of natural rubber, synthetic rubber, other elastomer materials, or a mix thereof.

[0058] A mounting bracket which complements the outer shape of the elastomer suspension unit frame may be used to mount an elastomer suspension unit to the car side assembly. The elastomer suspension frame can also include mounting provisions such as flanges so that the elastomer suspension unit can be mounted to the car side assembly directly without using a mounting bracket. The elastomer suspension unit can alternatively be mounted to the wear side assembly. However, it is preferred that the elastomer suspension unit be mounted to the car side assembly.

[0059] In this embodiment, the elastomer suspension unit assembly includes two symmetric halves 50 mirroring each other, each half including an elastomer suspension unit and an arm coupled thereto. An elastomer suspension unit having two central metal housings connected to each other may also be used such that each metal housing can be coupled to an arm and thus, only one elastomer suspension unit is necessary in this case.

[0060] The arm 50 may include only an upper part and a bottom part aligned in parallel, both parts of the arm coupled to the same elastomer suspension unit on one end and to the same bearing assembly on the other end, as shown in FIG. 7. In the version shown in FIGS. 9 and 10, the arm only includes one part.

[0061] The elastomer suspension unit assembly 50 may further include a bracket 55 and a bearing assembly 56.

[0062] The elastomer suspension unit 70 is secured to the inner elastomer suspension mounting side 36 of the car side assembly 30 by the bracket 55. The bracket can be screwed onto the inner elastomer suspension mounting side 36 of the car side assembly 30. The elastomer suspension unit 70 may also include mounting flanges such that the bracket is not necessary for mounting the elastomer suspension unit 70 to the car side assembly or the wear side assembly. The arm 54 is pivotally coupled to the elastomer suspension unit 70 at one end 57 and pivotally connected to the bearing assembly 56 at the other end 58. The arm 54 is coupled to the wear side assembly 20 by mounting the bearing assembly 56 to the inner mounting side 29 of the wear side assembly 20.

[0063] The bearing assembly may be comprised of a pin, bushings, a mounting plate and fasteners. The arm may be a sliding arm configured to slide relative to the bearing assembly. In some embodiments, the arm includes a slot 53 along which the arm slides as the arm pivots about the elastomer suspension unit. The bearing assemblies are located such that the arms are at an angle relative to the car side assembly and wear side assembly when the diaphragm is in the nominal state. The nominal state of the diaphragm will be described later. In some embodiments, the slot in located on the bearing assembly. In other embodiments, there are no slots and the arm pivots about but does not slides relative to the bearing assembly.

[0064] In the embodiment shown in FIGS. 2, 7 and 8, the elastomer suspension unit 70 is mounted in the central region of the top horizontal segment of the elastomer suspension mounting side 36 of the car side assembly 30. The elastomer suspension unit 70 may also be mounted at the outer regions of the top horizontal segment of the diaphragm. The elastomer suspension unit 70 may also be mounted at the bottom or sides of the diaphragm, as shown in FIGS. 9 and 10. The elastomer suspension unit 70 may be located in multiple locations at one time on the diaphragm. The elastomer suspension unit may be single, parallel, or in series for the top or bottom setup.

[0065] Still referring to FIGS. 2 and 7, in this embodiment, two elastomer suspension units 70 are mounted to the upper horizontal segment of the inner elastomer suspension mounting side 36 in the middle region of the upper horizontal segment. Each of the elastomer suspension units 70 is pivotally connected to an arm 54, the other end of which is connected to a bearing assembly 56. The two bearing assemblies are located and attached to the outer portions of the upper horizontal segment of the inner mounting side 29 of the wear side assembly 20, one on each side of the elastomer suspension units 70. When the railcars are moving relative to each other, the arms 54 will pivot about the elastomer suspension unit 70 and the bearing assembly 56. Depending on the driving conditions and the track conditions, for example, when there is curve on the track or when the railcars are slowing down or speeding up, the diaphragm can be in a nominal/coupled state, a fully compressed state or an angled state according to the track geometry.

[0066] When the railcar is not coupled to another railcar, the diaphragm and the elastomer suspension unit assembly is in an original or a neutral state or an initial state. There may be no load or torque acting on the elastomer suspension unit at the original state, i.e., the elastomer suspension unit is at a non-biased state. The bellows is in an extended state when the diaphragm is not coupled to train cars. When the diaphragm is coupled to train cars, the diaphragm can be in a nominal state or a compressed state. In the case where the length of the bellows is such that an initial load is preloaded on the elastomer suspension unit assembly, the nominal state is not the same as the initial state. When the adjacent railcars move relative to each other, the bellows assembly may be further compressed. At the same time, the arm of the elastomer suspension unit assembly pivots about the elastomer suspension unit, putting a torque on the metal element resulting a bias caused by the elastomer inserts. At this time, the elastomer suspension unit assembly is said to be biased towards the initial state. When the railcars make turns on a curved track, the wear side assembly of two engaging railcars may be separated at the outer portion of the curve.

[0067] FIGS. 9 and 10 show an embodiment of using elastomer suspension units at the bottom of the diaphragm. Each elastomer suspension unit 70 is mounted to the inner side of the lower portion of the vertical side segments 32a, 32b of the car side assembly. An arm 54 is pivotally coupled to each elastomer suspension unit 70 on one end and attached to a bearing assembly 56 on the other end. The bearing assemblies 56 are mounted to the inner mounting side 29 of the bottom horizontal straight segment 26 of the wear side assembly 20. In some embodiment, the arm can also slide relative to the bearing assembly, along a slot on the bearing assembly, as shown in FIG. 5. The bearing assemblies are located such that the arms are at an angle relative to the car side assembly and wear side assembly when the bellows is in the nominal state. The arm 54 rotates at the elastomer suspension unit and allows for compression, pivoting and angle compensation at the bearing assembly.

[0068] In other embodiments, the elastomer suspension unit assembly 50, as shown in FIG. 7, can be used at the bottom of the diaphragm too. Likewise, the elastomer suspension unit assembly, as shown in FIGS. 9 and 10, can be used at the top of the diaphragm too.

[0069] In some embodiments, an elastomer suspension unit assembly 50, as shown in FIG. 7, or an elastomer suspension unit assembly, as shown in FIGS. 9 and 10, can be used at the top of a diaphragm, while a rubber mount can be used at the bottom of the diaphragm.

[0070] FIG. 11 shows an embodiment of a rubber support assembly 80. The rubber support assembly 80 includes a rubber mount 82 and two rubber support 84a, 84b. The rubber support 84a, 84b are coupled to support structures of the railcar when two adjacent railcars are coupled.

[0071] FIG. 12 shows another embodiment of a diaphragm, with the bellows removed, having another embodiment of an elastomer suspension unit assembly 100. In this embodiment, the elastomer suspension unit assembly 100 may include two arms 104 connected by an elastomer suspension unit 102. The other end of each arm is coupled to the car side assembly 30 and the wear side assembly 20 via a bearing assembly 106.

[0072] In another embodiment, the elastomer suspension unit assembly 100 may be coupled to the car side assembly via a bearing assembly 106 and to the wear side assembly via a second elastomer suspension unit (not shown). In another embodiment, the elastomer suspension unit assembly 100 may be coupled to the car side assembly via a second elastomer suspension unit (not shown) and to the wear side assembly via a bearing assembly 106.

[0073] In another embodiment, the elastomer suspension unit assembly 100 may comprise four arms 104a, 104b, 104c, 104d to form a scissor jack configuration. Each arm 104a, 104b, 104c, 104d may include an upper part and a lower part, aligned in parallel to each other. A first arm 104a and a second arm 104b are jointed by a first elastomer suspension unit 102. A third arm 104c and a fourth arm 104d are jointed by a second elastomer suspension unit 102. The other end first arm and the third arm are jointed by a first bearing assembly 108. The other end of the second arm and the fourth arm are jointed by a second bearing assembly 108. The elastomer suspension unit assembly is coupled to the car side assembly and wear side assembly via the first and the second bearing assemblies. The elastomer suspension unit may be a dual-housing elastomer suspension unit 102, 102 for connecting to one arm 104a, 104b, 104c, 104d at each housing. In another version, one of the first and second bearing assemblies 108, 108 may be an elastomer suspension unit while the other is a bearing assembly.

[0074] There can be single or multiple elastomer suspension unit assemblies 100 at the top, bottom or sides of the diaphragm. Multiple elastomer suspension unit assemblies 100 together can also be considered as one elastomer suspension unit assembly. The elastomer suspension unit assembly 100 can be mixed with any other embodiment of the elastomer suspension unit assembly disclosed herein, the rubber support mount and/or rubber stoppers. At the bottom of the diaphragm, it can be the rubber support mount 80, the elastomer suspension unit assembly 100, or the elastomer suspension unit assembly 50, or other.

[0075] FIG. 13 shows another embodiment of an elastomer suspension unit assembly 130 having two arms 138a, 138b each coupled to one bearing assembly 139 at one end. The elastomer suspension unit 130 may further comprise one elastomer suspension unit 134a, 134b each coupled to the other end of the arms 138a, 138b. The bearing assembly 139 may be mounted to the wear side 132 or car side (not shown) of a diaphragm. The elastomer suspension unit 134a, 134b may be mounted to the other of the wear side or car side of a diaphragm. The elastomer suspension unit 134a, 134b may be a single housing or dual housing elastomer suspension unit. As shown in FIG. 13, dual-housing elastomer suspension units are used and mounted to the wear side via mounting brackets 136a, 136b. In another version, mounting brackets may be omitted if the elastomer suspension units with mounting flanges are used. The two elastomer suspension units mounted to the car side or wear side assembly such that the first arm and the second arm mirror each other.

[0076] In another embodiment shown in FIGS. 14 and 15, an elastomer suspension unit assembly 140 is used as train mounts to connect onto a train railcar body, as opposed to using rubber shear mounts to connect to the train body, as shown in FIG. 11. The elastomer suspension unit assembly 140 may be mounted at the bottom of the wear side 146 of a diaphragm 150. The bottom part of the car side 147 of the diaphragm 150 is open to allow for the train mounts 140 to pass through. The elastomer suspension unit assembly 140 may include two bearing assemblies 148a, 148b. The bearing assemblies 148a, 148b may each be coupled to an elastomer suspension unit 142a, 142b. The elastomer suspension units 142a, 142b, shown in FIG. 14 are dual-housing elastomer suspension units which are mounted to the wear side 146 via a mounting bracket 144. In another version, two single-housing elastomer suspension units may be used if the single-housing elastomer suspension unit includes a mounting flange. In yet another version, one dual-housing elastomer suspension unit may be used, with each housing coupled with one of the bearing assemblies 148a, 148b.

[0077] FIG. 16 shows another embodiment of the diaphragm 160. Instead of having U-shaped bellows, the diaphragm 160 can include flat fabric 162, 164 on the outer and inner side of the bellows assembly.

[0078] As will be clear to those of skill in the art, the embodiments of the present invention illustrated and discussed herein may be altered in various ways without departing from the scope or teaching of the present invention. Also, elements and aspects of one embodiment may be combined with elements and aspects of another embodiment. It is the following claims, including all equivalents, which define the scope of the invention.

LIST OF REFERENCE NUMBERS

[0079] 10 Diaphragm [0080] 20 Wear side assembly [0081] 21a, 21b Lifting rings [0082] 22 Walk plate [0083] 23a, 23b Upper vertical side straight segments of the wear side assembly [0084] 24 Top horizontal segment of the wear side assembly [0085] 25a, 25b Vertical side straight segments of the wear side assembly [0086] 26 Lower horizontal segment wear side assembly [0087] 28 Wear plate side [0088] 29 Inner mounting side [0089] 30 Car side assembly [0090] 31 Bottom horizontal piece of the car side assembly [0091] 31a, 31b Upper corner pieces of the car side assembly [0092] 32a, 32b Side vertical pieces of the car side assembly [0093] 33 Top horizontal piece of the car side assembly [0094] 34 Car mounting side [0095] 36 Suspension unit mounting side [0096] 38 Rubber stopper [0097] 39a, 39b Lifting rings [0098] 40 Bellows assembly [0099] 42 Outer bellows assembly [0100] 44 Inner bellows assembly [0101] 50 Elastomer suspension unit assembly [0102] 53 Slot [0103] 54 Arm [0104] 54 Arm [0105] 55 Bracket [0106] 56 Bearing assembly [0107] 56 Bearing assembly [0108] 57 One end of the arm [0109] 58 Other end of the arm [0110] 70 Elastomer suspension unit [0111] 80 Rubber support assembly [0112] 82 Rubber mount [0113] 84a, 84b Rubber supports [0114] 100 Elastomer suspension unit assembly [0115] 102 Dual-housing elastomer suspension unit [0116] 104 Arm [0117] 106 Bracket assembly [0118] 130 Elastomer suspension unit assembly [0119] 132 Wear side assembly [0120] 134a, 134b Elastomer suspension units [0121] 136a, 136b Mounting brackets [0122] 138a, 138b Arms [0123] 139 Bearing assembly [0124] 140 Elastomer suspension unit assembly [0125] 142a, 142b Elastomer suspension units [0126] 144 Mounting bracket [0127] 146 Wear side assembly [0128] 147 Car side assembly [0129] 148a, 148b Bearing assemblies [0130] 150 Diaphragm [0131] 160 Diaphragm [0132] 162 Fabric on the outer side of the bellows [0133] 164 Fabric on the inner side of the bellows