Information
-
Patent Grant
-
4665835
-
Patent Number
4,665,835
-
Date Filed
Thursday, February 21, 198539 years ago
-
Date Issued
Tuesday, May 19, 198737 years ago
-
Inventors
-
Original Assignees
-
Examiners
- Reeves; Robert B.
- Werny; Scott H.
Agents
-
CPC
-
US Classifications
Field of Search
US
- 105 199 A
- 105 164
- 105 453
- 105 217
- 105 175 A
- 105 197 T
- 105 2081
- 105 2082
- 105 1992
- 267 4
-
International Classifications
-
Abstract
An arrangement for increasing the roll stability of rail vehicles equipped with air suspension. Two air spring bellows having integrated emergency springs of a first bogie are controlled by a respective leveling valve. In addition to these bellows, a roll stabilizer is provided, so that in the vicinity of the first bogie, the car body, when viewed in the horizontal direction, is nearly parallel to this bogie. So that when track twist is encountered, the second bogie can swing relative to the car body, only one of the air spring bellows of this bogie is controlled by a third leveling valve disposed in the center of the car body, while the other air spring bellows is connected via an equalizing line with one of the air spring bellows of the first bogie. A central emergency spring extends concentrically around the center pivot of the second bogie. Thus, the center of the car body is held at the same level by the second bogie, but swinging movements of the car body relative to this second bogie are possible when track twist is negotiated.
Description
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to an arrangement for increasing the roll stability of rail vehicles which are equipped with air suspension.
2. Description of the Prior Art
It is known to control air spring bellows, which serve for the secondary suspension of rail vehicles, in such a manner that track twist will not affect derailing safety despite the torsional stiffness of a car body. To this end, the lateral air spring bellows of a first bogie are controlled by separate leveling valves, so that the car body is always kept approximately parallel to the bogie underneath it. The air spring bellows of a second bogie, however, are only controlled by a leveling valve arranged mid-way between the air spring bellows, so that while on the average the level corresponds to that of the air spring bellows of the first bogie, oscillating or swinging motions of the second bogie about its longitudinal axis under the car body are possible, so that track twist can be negotiated without any torsional deflection of the car body being necessary. Although this takes care of derailing safety of the car, such features fail to maintain satisfactory roll stability in certain cases, especially in the case of vehicles operating on a narrow track gauge where the supporting base of the air spring bellows is reduced (German Offenlegungsschrift No. 28 30 359).
It is also known to equip both bogies under a car body with roll stabilizers. It is common practice to have the roll stabilizer formed as a torsion bar which is rotatably supported in a bogie frame and is connected at both ends to the car body by means of horizontally positioned levers and vertically positioned links. While such a system is suitable to limit roll motions, it automatically interferes with the ability of both bogies to swing about their longitudinal axes, so that they cannot match track twist to the desired extent and, consequently, are susceptible to derailing where the car bodies are torsionally stiff.
In the case of bogies equipped with air suspension, it is known to provide an emergency support system on three points. In this arrangement, the emergency support of a first bogie takes the form of a rubber- bonded- metal composite spring integrated in each air spring bellows. The emergency support of the second bogie relies on an emergency spring positioned at the center pivot. This emergency spring may be formed as a coil spring or as a spring with elastomeric material. The clearance of this emergency support relative to the vertical travel of the air springs of this bogie is selected such that on deviation of either air bellows, the emergency spring will be first to take the load, and that the ability of this bogie to swing about its longitudinal axis is sufficient to enable it to match the usual track twist without any constraint. The drawback of this system is the insufficient roll stability of the air spring bellows (German Utility Patent No. 81 37 758).
In contrast to this, it is the object of the present invention to control roll motions without simultaneously reducing derailing safety.
BRIEF DESCRIPTION OF THE DRAWINGS
This object, and other objects and advantages of the present invention, will appear more clearly from the following specification in conjunction with the accompanying drawings of one exemplary inventive embodiment, in which:
FIG. 1 is a plan view of a car body equipped with air suspension, and of a control arrangement of the leveling valves;
FIG. 2 is a section along the line II--II through a first bogie having a roll stabilizer and leveling valves; and
FIG. 3 is a section along the line III--III through a second bogie having an emergency support at the center of the car, and a centrally positioned leveling valve.
SUMMARY OF THE INVENTION
The arrangement pursuant to the present invention for increasing the roll stability of rail vehicles is characterized primarily by the following combination of features:
(a) a car body is supported relative to a first bogie by two lateral air spring bellows, each air spring bellow having associated therewith a separate first and second leveling valve; the second bogie is also spring-supported relative to the car body by lateral air spring bellows, with one of the air spring bellows being controllable by means of a third leveling valve arranged in the region of the car center, whereas the other air spring bellows of the second bogie is connected with the air spring bellows of the first bogie on the same side of the car by means of an equalizing pipe;
(b) the first bogie is provided with a roll stabilizer arranged between the car body and the bogie frame; and
(c) emergency supports are provided at three points, the first bogie featuring two emergency springs formed as rubber-bonded-metal composite springs and forming an integral unit with the air spring bellows, and the second bogie featuring a central emergency spring which concentrically extends around the center pivot of the bogie.
Due to the three point control system with longitudinal equalization, the second bogie is capable of conforming to or matching track twist without any constraint. Consequently, derailing safety is fully ensured, even in the case of torsionally stiff car bodies. The roll stabilizer of the first bogie prevents excessive roll. Since the car body is required to have adequate torsional stiffness, one roll stabilizer is sufficient; a second roll stabilizer would interfere with the capability of the second bogie to swing (about its longitudinal axis). The emergency supports provided at three points, in conjunction with the roll stabilizer, assure roll stability and, simultaneously, derailing safety.
One advantageous configuration of the roll stabilizer features a torsion bar which is mounted horizontally and transverse to the traveling direction, in the bogie frame; the torsion bar is provided with parallel levers at its ends; the levers are horizontal and parallel to the traveling direction, and at their free ends are vertically positioned links by means of which the car body bears against the levers.
DESCRIPTION OF PREFERRED EMBODIMENTS
Referring now to the drawings in detail, a car body 1 which is supported via four air spring or compressed-air bellows 2a to 2d on bogies which are not shown in further detail, is illustrated in FIG. 1. The car body 1 is spring-supported via the air spring bellows 2a and 2b relative to a first bogie 3a and, via the air spring bellows 2c and 2d, relative to a second bogie 3b.
The level of the air spring bellows 2a and 2b is controlled by respective first and second leveling valves 4a and 4b, which communicate with an air pipe 5. The leveling valves 4a and 4b are connected to the car body 1, and are controlled by a linkage 6a, 6b between the leveling valves 4a, 4b and the first bogie 3a. As a result, the car body 1 is always parallel to the first bogie at the preset level. In consequence of the flat characteristic of the air spring bellows, the car body 1 tends to roll relative to the first bogie 3a, especially where narrow gauges are involved, because the supporting base of the air spring bellows is then inherently reduced. According to the invention, this drawback is overcome in that the first bogie 3a is provided with a roll stabilizer 7, which may, for example, comprise a torsion bar 8 which is rotatably supported in a bogie frame 9 and is non-rotatably connected at its free ends to horizontal levers 10 a, 10b which are arranged parallel to the direction of travel. As shown in FIG. 2, the levers 10a, 10b are connected via vertical links 11a, 11b to the car body 1.
The spring bellows 2c and 2d of the second bogie 3b (FIG. 3) are controlled by a third leveling valve 12 positioned near the center of the car, while the air spring bellows 2d is controlled via an equalizing pipe 13 which connects the air spring bellows 2d with the air spring bellows 2b of the first bogie. As a result of the fact that only the air spring bellows 2c is directly level-controlled, the second bogie 3b is capable of swinging about its longitudinal axis relative to the car body 1. However, the level of the car body 1 remains constant. Due to these features, the car is capable of negotiating track twist without individual wheels being unloaded and, consequently, derailing occurring.
In case one of the air spring bellows should leak, or air should escape from the spring system, an emergency support system is provided. This system is formed by three emergency springs 14a to 14c, of which the emrgency springs 14a and 14b are integrated into the air spring bellows 2a and 2b, whereas the third emergency spring 14c is arranged at the center of the car between the air spring bellows 2c and 2d. Due to this emergency support system which bears on three points, the capability of the second bogie 3b to swing about its longitudinal axis is maintained and, simultaneously, the tendency of the car to roll is controlled by the car body 1 coming to rest on the emergency springs 14a and 14b, with the roll stabilizer 7 assisting the control function.
A cross-section along the line 11--II in the area of the first bogie 3a is shown in FIG. 2. The car body 1 is spring-supported on the bogie frame 9 via the two lateral air spring bellows 2a, 2b. The air spring bellows 2a and the air spring bellows 2b are controlled by a first and second leveling valve 4a and 4b. The leveling valves 4a, 4b are connected at one end to the car body 1 and at the other end to the bogie frame 9 via links 6a, 6b. As a result of these features, the distance between the car body 1 and the bogie frame 9 is maintained constant, so that the bogie frame 9 is held approximately parallel to the car body 1.
The air spring bellows 2a, 2b, which are susceptible to roll motions, are assisted in the first bogie 3a by the roll stabilizer 7. This comprises the torsion bar 8 which is rotatably supported in the bogie frame 9; the ends of the torsion bar 8 are non-rotatably connected to the levers 1Oa and 1Ob. The horizontally positioned levers 10a, 10b are connected by means of links 11a, 11b to the car body 1. Tilting of the car body 1, for example, towards the left-hand side, causes the torsion bar 8 to be twisted via the link 11b and the lever 10b, which causes the lever 1Oa and the link 11a on the right-hand side to exert a resetting force downwards and, consequently, to counteract the roll motion towards the left-hand side.
Emergency spring support action in the first bogie 3a is provided by the emergency springs 14a and 14b, which are arranged at a distance "x" below the bellows plates 15a and 15b of the air spring bellows 2a and 2b. If the air spring bellows 2a, 2b should fail, or the air supply should fail, the bellows plates 15a, 15b would rest on the emergency springs 14a and 14b.
A second bogie 3b sectioned along the line III--III is shown in FIG. 3. The car body 1 is spring-supported via the lateral air spring bellows 2c and 2d. The emergency support action on the second bogie 3b is provided by a central emergency spring 14c, which is arranged at the centerline of the car around a kingpin or center pivot 16. This emergency spring 14c is arranged at a distance "y" from a stop 17 connected to the car body 1. The distance "y" corresponds to the clearance "x" of the emergency springs 14a and 14b in the first bogie 3a. The air spring bellows 2c and 2d are also formed with emergency supports 18a and 18b which, however, have a clearance "z" which is greater than the distance "y" of the emergency spring 14c, so that, if the air spring bellows should fail, only the emergency spring 14c would carry the load and, consequently, the bogie 3b would, without any constraint, be capable of performing swinging motions about its longitudinal axis to negotiate track twist.
In order to regulate the level of the car body 1, the air spring bellows 2c or 2d (in this case 2c) is connected to a third leveling valve 12, which is arranged at the center of the car in order to be actuated if a change in level occurs; this valve would not respond to swinging motions of the bogie 3b relative to the car body 1 when negotiating twisted track. The air spring bellows 2b and 2d are connected as shown in FIG. 1 by the equalizing line 13, and they are controlled jointly by the second leveling valve 4b.
The device according to the invention permits twisted track to be negotiated without any constraint and, consequently, simultaneously provides safety against derailing, regardless of the torsional softness or torsional stiffness of the car body 1.
The present invention is, of course, in no way restricted to the specific disclosure of the specification and drawings, but also encompasses any modifications within the scope of the appended claims.
Claims
- 1. A combination arrangement for increasing the roll stability of a rail vehicle which is provided with air suspension, and in particular the roll stability of a car body having a first bogie and a second bogie; said combination arrangement comprising:
- a first and second air spring bellows for spring-supporting said car body relative to said first bogie, which includes a bogie frame;
- a first and second leveling valve, operatively connected with said first and second air spring bellows respectively for valve control thereof;
- a third and forth air spring bellows for spring-supporting said car body relative to said second bogie, which includes a center pivot;
- a third leveling valve, which, when viewed transverse to the direction of travel, is disposed near the center of said car body for controlling one of said third and fourth air spring bellows of said second bogie;
- an equalizing line for connecting the other of said third and fourth air spring bellows of said second bogie with that one of said first and second air spring bellows of said first bogie which is disposed on the same side of said car body when viewed in the direction of travel;
- a roll stabilizer disposed between said car body and said bogie frame of only said first bogie;
- two first emergency springs, one integrated with each of said first and second air spring bellows of said first bogie; said first emergency springs each being in the form of a rubber-bonded-metal composite spring; and
- furthermore a central second emergency spring which extends concentrically around said center pivot of only said second bogie, for roll support stability, to permit said second bogie to have a degree of freedom about a longitudinal axis thereof so that the same can follow track twist distortion and that results in a three-point suspension simultaneously to provide assurance against de-railing regardless of track twist and distortion and to suppress vehicle rolling-wobbling movements especially even during air-spring-bellows failure without any sacrifice of capability of turning of said bogies during encountering of track twist and distortion;
- said roll stabilizer comprising a torsion bar which is mounted in said bogie frame of only said first bogie, transverse to the direction of travel, and parallel to a horizontal plane; said torsion bar having two ends, each of which is provided with a lever which is parallel to the direction of travel, and also parallel to a horizontal plane; each of said levers having two ends, with that end remote from said torsion bar being connected by a respective link to said car body; each of said links extending at substantially right angles to its lever.
Priority Claims (1)
Number |
Date |
Country |
Kind |
3407574 |
Mar 1984 |
DEX |
|
US Referenced Citations (3)
Foreign Referenced Citations (3)
Number |
Date |
Country |
2830359 |
Jan 1980 |
DEX |
8137758 |
Jun 1982 |
DEX |
2521089 |
Aug 1983 |
FRX |