1. Field of the Invention
The present invention relates to a truck for railroad car, and particularly to a truck for railroad car including an end beam for supporting an instrument.
2. Description of the Related Art
As a truck for railroad car, there is known one having an H-shaped, when viewed in plan, truck frame in which a transom is connected to intermediate portions, in a longitudinal direction of a railroad car, of side frames extending substantially in parallel at both right and left sides of a truck (for example, see JP-A-11-29040). In such a truck, from the necessity of supporting an instrument such as an antenna device, there is a case where an end beam (a beam extending in a lateral direction of the truck) is attached so as to connect the rear end portions (or front end portions) of the side frames, and the instrument is supported at the end beam.
Both end portions of the end beam as stated above are attached to the end portions (the rear end portions or front end portions) of the side frames of the truck. This attachment is typically performed by welding, or by bolt coupling. That is, the attachment of the end beam to the side frames is generally rigid connection.
When the end beam is rigidly connected to the side frames of the truck as stated above, there are disadvantages as described below.
Although a railroad on which a railroad car (truck) travels is constituted by two right and left rails, they are not always provided horizontally and in parallel according to the state of the ground on which the rails are installed. When they are not horizontal or in parallel as stated above, the relative positions of the right and left side frames of the truck are shifted in the vertical direction, and the truck frame is deformed such that the truck frame is deformed under torsion relative to the transom. In this deformation, although the amount of deformation of the truck frame near the transom is small, the amount of deformation of the truck frame near the end beam distant from the transom becomes large. Thus, in view of the fact that the amount of deformation of the truck frame near the end beam distant from the transom becomes large, it is necessary to increase the rigidity so that the stress generated at the end beam does not become larger than required, which causes an increase in weight of the truck frame.
The present invention has been made to solve the above problem, and has an object to provide a truck for railroad car which can absorb and reduce deformation by torsional force acting on an end beam.
According to the present invention, there is provided a truck for railroad car comprising an H-shaped, when viewed in plan, truck frame including side frames extending substantially in parallel at both right and left sides of the truck for railroad car, and a transom connected to intermediate portions of the side frames, the intermediate portions being substantially at a center in a longitudinal direction of a railroad car, an end beam extending in a lateral direction of the railroad car and connected to end portions of the right and left side frames of the truck frame, an instrument being supported by the end beam, and deformation absorbing means provided at both sides of a portion of the end beam where the instrument is supported, for absorbing torsional force acting on the end beam. Here, the deformation absorbing means may be provided at any position as long as the torsional force acting on the end beam can be absorbed and reduced, and may be located at any portion on both right and left sides of the instrument between the side frames. For example, both end portions of the end beam may be directly softly connected to the end portions (front end portions or rear end portions) of the side frames with the deformation absorbing means placed in the end beam. Besides, the deformation absorbing means may be any means as long as the torsional force acting on the end beam can be absorbed, and for example, the elasticity of elastic rubber, or the elasticity of a plate spring or a coil spring can be used.
In accordance with this structure, when the truck frame is deformed under torsion, the end beam starts to be significantly deformed under torsion, however, the torsional force is absorbed and reduced by the deformation absorbing means provided at the end beam. Since the deformation absorbing means are provided at both sides of the portion of the end beam where the instrument is supported, the torsional force does not act on the attachment portion of the instrument.
Preferably, the end beam includes right and left support brackets whose outer edges are connected to the right and left side frames, and a center bar connected to inner end portions of the right and left support brackets through the deformation absorbing means and having an instrument attachment portion, each of the deformation absorbing means is constructed by a rubber bush including an outer cylindrical member, a center shaft member, and an elastic rubber member provided therebetween, the outer cylindrical members are respectively connected to end portions of the center bar, and the center shaft members are respectively connected to the right and left brackets.
In accordance with this structure, since the rubber bushes are used to softly connect the end beam to the side frames, even if the outer cylindrical member connected to the end portion of the center bar and the center shaft member connected to the support bracket (side frame) are relatively shifted, the displacement is naturally absorbed by the deformation of the elastic rubber member. Thus, by the simple structure in which the rubber bush is used as the deformation absorbing means, the torsional force acting on the end beam can be absorbed and reduced.
The end beam comprises the right and left support brackets whose outer ends are connected to the right and left side frames, and the center bar provided between the right and left support brackets, and the deformation absorbing means are provided between the left support brackets and the center bar and between the right support brackets and the center bar. Thus, the rubber bushes can be assembled before the end beam is attached to the side frames, or after the right and left support brackets are attached to the side frames, the center bar can also be attached through the rubber bushes.
Besides, the instrument is an antenna device supported by means of an antenna support member, and a wiring attachment portion for fixing a wire to the antenna device may be provided at the center bar.
In accordance with this structure, in the case where the antenna device as the instrument is provided on the center bar (end beam) by means of the antenna support member, the wire to the antenna device can be stably attached and supported by the wiring attachment portion. Thus, since the wire connected to the antenna device is once supported by the center bar, compulsory force does not act on the wire even if the end beam is deformed.
Besides, the wiring from the side frame to the antenna device through the wiring attachment portion of the center bar (end beam) is formed, and the wire is supported by the wiring attachment portion, so that the wire does not have influence on other areas and other components in the truck.
The above and further objects and features of the invention will be more fully apparent from the following detailed description with accompanying drawings.
Hereinafter, an embodiment of the invention will be described with reference to the drawings.
A truck 1 for railroad car of the invention includes an H-shaped, when viewed in plan, truck frame 2. This truck frame 2 includes side frames 2a and 2b extending substantially in parallel at both right and left sides thereof, and a transom 2c connected to intermediate portions of the side frames 2a and 2b. The intermediate portions are located substantially at a center in the longitudinal direction of the railroad car. The rear ends of the right and left side frames 2a and 2b of the truck frame 2 are connected through an end beam 3 extending in the lateral direction of the railroad car, and an antenna device A (see
The end beam 3 includes antenna brackets 3a and 3b as right and left support brackets and a center bar 3c. The outer end portions of the antenna brackets 3a and 3b are connected and fixed to the rear end portions of the right and left side frames 2a and 2b by fastening tools 5 (bolts or the like). The inner end portions of the right and left antenna brackets 3a and 3b are elastically connected to the right and left end portions of the center bar 3c through rubber bushes 6 and 7 (deformation absorbing means). The antenna support member 4 is provided substantially at the center position of this center bar 3c.
Although the rubber bushes 6 and 7 are provided at the end beam 3, they are positioned at both sides of the antenna support member 4. The rubber bushes 6 and 7 include elastic rubber members 6a and 7a (elastic bodies), and in the case where the truck frame 2 causes deformation under torsion, the elastic deformation of the elastic rubber members 6a and 7a absorb the torsional force acting on the end beam 3.
Since both end portions of the end beam 3 are rigidly connected to the side frames 2a and 2b, the support condition (rigidity) for supporting the heavy antenna device A (antenna support member 4) is secured, and the end beam can stably support it.
Since the end beam 3 as stated above is provided to support the antenna device A (antenna support member 4) located under the end beam 3, the end beam 3 is not required to be provided on plural trucks in the train composition, and is provided on merely a specified truck. That is, for example, as shown in
The rubber bushes 6 and 7 have the shaft center in the longitudinal direction of the truck as shown in
The antenna brackets 3a and 3b include, as shown in
In this structure, for example, when the railroad car (truck 1) is deformed under torsion under the inappropriate condition of the railroad on which it travels, the right and left side frames 2a and 2b are relatively shifted relative to the transom 2c. More specifically, the center shaft members 6c and 7c of the right and left rubber bushes 6 and 7 connected to the antenna brackets 3a and 3b (the side frames 2a and 2b) are at different position in the vertical direction. On the other hand, since the outer cylindrical members 6b and 7b connected to the end portions of the center bar 3c keep substantially the same position in the vertical direction. As a result, the center shaft members 6c and 7c connected to the antenna brackets 3a and 3b (the side frames 2a and 2b) are relatively displaced with respect to the outer cylindrical members 6b and 7b. However the displacement of the center shaft members 6c and 7c is naturally absorbed by the deformation of the elastic rubber members 6a and 7a. Thus, by using the rubber bushes 6 and 7 of the simple structure as described before, the torsional force acting on the end beam 3 can be naturally absorbed and reduced by the deformation of the elastic rubber members 6a and 7a.
Wiring attachment portions 11A and 11B are provided at the upper side of the end beam 3 (the antenna brackets 3a and 3b, the center bar 3c). A wire 5 extending to the antenna support member 4 (antenna device A) is fixed to the wiring attachments 11A and 11B. With this structure, wiring to the antenna device A is carried out without difficulty by using the end beam 3 having high support condition (high rigidity).
In the above embodiment, although a brake has not been described, a disk brake is adopted as the brake, and in the case where the disk brake is provided at the side frame or the end beam, when the rubber bushes 6 and 7 are provided at the end beam, the amount of deformation of the end beam 3 becomes large, and it becomes too soft. When it becomes too soft as stated above, in the case of the disk brake, there is a possibility that the brake performance is influenced, and therefore, it is desirable that the truck be provided with a tread brake unit, as brake means, having a brake shoe coming in contact with the tread of a wheel. This is because, since the tread brake unit is normally provided at the transom having less deformation, high support condition is not required for the end beam contrary to the case where the disk brake is adopted.
This invention is carried out as described above, and has effects as described below.
In the invention, since the deformation absorbing means for absorbing the torsional force acting on the end beam are provided at both sides of the portion of the end beam where the instrument is supported, even if the truck frame is deformed and the end beam starts to be significantly deformed, the torsional force is naturally absorbed by the deformation absorbing means and can be reduced.
When the deformation absorbing means is constructed by the rubber bush including the outer cylindrical member, the center shaft member, and the elastic rubber member provided therebetween, the structure is not complicated.
As this invention may be embodied in several forms without deportioning from the spirit of essential characteristics thereof, the present embodiment is therefore illustrative and not restrictive, since the scope of the invention is defined by the appended claims rather than by the description preceding them, and all changes that fall within metes and bounds of the claims, or equivalent of such metes and bounds thereof are therefore intended to be embraced by the claims.
Number | Date | Country | Kind |
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2002-315428 | Oct 2002 | JP | national |
Number | Name | Date | Kind |
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5924654 | Anderson | Jul 1999 | A |
6401627 | Fehrenbach et al. | Jun 2002 | B1 |
Number | Date | Country |
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11-029040 | Feb 1999 | JP |
Number | Date | Country | |
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20040123767 A1 | Jul 2004 | US |