In a first aspect, this invention relates to a rail-way vehicle of the type that comprises an underframe, in which a mounting pocket is included for the attachment of a towing arrangement having a mounting flange, two pairs of axially spaced-apart shoulders being arranged in the mounting pocket, between which shoulders the mounting flange is located together with a clamping arrangement with the purpose of fixing the mounting flange together with the towing arrangement in relation to the underframe.
In a second aspect, the invention also relates to a clamping arrangement for the mounting and fixation of towing arrangements in such vehicles.
Although arrangements of the type that has been mentioned above in practice have the purpose of transferring, between different vehicles or vehicle units, such as cars and/or locomotives, in a train unit, not only tractive forces, but also thrust forces, the same are commonly denominated “towing arrangements” by those skilled in the art. Characteristic of such towing arrangements is that the same include a registration arm (usually in the shape of a tube), which at a rear end in one way or the other is fixed in one of the ends of a frame work or underframe included in the vehicle in question, and which at a front end is connected to one or more additional details so as to form a coupler. For instance, the front end of the registration arm may be directly connected to a coupler head and together with the same form an automatic coupler, which can be coupled together with an analogous coupler on another vehicle. However, it is also feasible to connect the registration arm, via a muff coupling or the like, with a collision protection, which in turn is connected to a coupler head. In the towing arrangement, means is usually also included in order to absorb shocks of moderate character, i.e., such shock motions that every day arise and are transferred between connected vehicles, during travel, as well as in connection with the proper coupling operation.
In many cases, the vehicle underframes are formed with standardized mounting pockets, of the type that initially has been mentioned. Such a pocket is in the form of a downwardly open hollow space, which is delimited by two parallel and laterally spaced-apart, vertical walls, which are provided with two pairs of axially spaced-apart shoulders or lugs. Previously, the towing arrangements have been fastened into the standard mounting pockets by means of a clamping arrangement in the form of a spring pile, which initially has been compressed by being prestressed in order to be containable between said pairs of lugs, after which the spring pile has been allowed to expand during clamping between the two pairs of lugs. More precisely, said spring pile consists of, on one hand, a front set of hard rubber bodies, which are mounted between a front supporting plate and a mounting flange or fastening part located at the rear end of the towing arrangement, and on the other hand a rear set of rubber bodies, which are located between the mounting flange and a rear supporting plate in the pile. Between said supporting plates, a central rod having a jamb nut extends, by means of which the supporting plates can be approached towards each other during compression of the rubber bodies. When the spring pile has been applied in the mounting pocket, the nut is released, the rubber bodies expanding and clamping the supporting plates by great force against the front and rear pairs of lugs in the mounting pocket.
An aggravating disadvantage in practice of the above-mentioned construction solution is that the registration arm of the towing arrangement, and thereby the coupler in its entirety, becomes unelastically connected to the vehicle underframe, something which results in that substantially all the motions that a coupler is subjected to during travel compulsorily will be taken up in the coupler heads in two connected couplers. By in this way taking up all varying tractive, thrust, rotary, swivelling and tilting motions in the interface between two connected coupler heads, leads, among other things, to damage on the couplers and premature wear of the same.
The present invention aims at obviating the above-mentioned disadvantages of coupler-equipped railway vehicles of the type that includes standardized mounting pockets of the type initially mentioned, and at providing an improved vehicle, more precisely by improving the vehicle's attachment of occurring towing arrangements. Thus, a primary object of the invention is to provide a railway vehicle having a towing arrangement, which is, on one hand, steadily and reliably fixed in the underframe of the vehicle, but on the other hand constructed in such a way that the registration arm thereof is flexibly movable. Another object of the invention is to provide a vehicle, the individual towing arrangement of which can be mounted and dismounted in a simple way in the mounting pocket of the underframe. Yet an object of the invention is to provide a vehicle, the individual towing arrangement of which, without complications, can be made with an integrated collision protection.
According to the invention, at least the primary object is attained by the features that are defined in the characterizing clause of claim 1. Preferred embodiments of the vehicle according to the invention are further defined in the dependent claims 2-9.
In a second aspect, the invention also relates to a clamping arrangement for the fixation of towing arrangements in standard mounting pockets of the type initially mentioned. The features of this clamping arrangement are seen in the independent claim 10. Preferred embodiments of the clamping arrangement according to the invention are further defined in the dependent claims 11-20.
In the drawings:
In
In the underframe 1, a standardized mounting pocket 6 is included, which is delimited by two vertical walls 7, and which opens in a front opening 8. This opening, which is surrounded by a mounting 9, is located at one of the two ends of a vehicle, e.g. of a railroad car, such as this is defined by a front wall 10 of the underframe 1. On the insides of the walls 7, four lugs or shoulders are formed, namely a front pair of lugs 11 and a rear pair of lugs 12. At the top, the pocket or hollow space 6 is delimited by a sheet-metal plate 13 included in the underframe, and opens in the downward direction. On both sides of the pocket, there are base frame pieces 13′. Generally, the pocket is of an elongate shape and extends in the length extension of the vehicle.
The towing arrangement 2, which will be described more in detail below, reference being made to
Reference is now made to
The insert 4 (see
The clamping device 5 shown in
Reference is now made to
The rear end portion 40 of the pipe-sleeve coupling 15 is thickened and connected to a cone 41 in the form of a ring having an external conical surface. This cone 41 is inserted into a deformation tube designated 42, which is stiffly united to the mounting flange 14 via a weld 43. The pipe-sleeve coupling 15 and the cone 41 thereof are kept in place in the deformation tube by means of an externally threaded clamp ring 44, which is pressed against a ring-shaped shoulder surface 45 on the thickened portion 40 of the pipe-sleeve coupling. The external thread of the clamp ring is in engagement with a female thread on the inside of the mounting flange 14. By virtue of the clamp ring 44, movement of the pipe-sleeve coupling in the forward direction out of the deformation tube is made impossible. In normal circumstances, neither it is possible for the pipe-sleeve coupling 15 to move rearward inside the deformation tube 42 because the clamp ring 44 holds the cone 41 pressed or prestressed against a conical waist 46, which separates a front, wide section of the. tube 42 from a rear, thinner section. Only in connection with a possible collision accident, when the coupler is subjected to considerable axial thrust forces, the pipe-sleeve coupling 15 is set in movement in the backward direction under deformation of the tube 42.
Reference is now made to
When the wedge members 29 initially have been brought up in the space between the wedge surfaces 51, 51′, the clamping device 5 is fastened provisionally by means of the screws 48. Next, the mounting process is concluded by the same screws being tightened by a certain minimum torque, the wedge members by great force, via wedge action, pressing, on one hand, the mounting flange 14 in the forward direction against the shoulder surfaces 52 of the lugs 11, at the same time as the spacing elements 18 are pressed with the end surfaces 55 thereof against the shoulder surfaces 52 of the rear lugs 12. During this operation, not only the clamping device 5, but also the insert 4 can move axially in either direction thanks to the elongate shape of the holes 23, 24 for the screws 47, 48. When the mounting flange 14 has been fixed distinctly in the end position thereof, also the screws 47 are finally tightened.
In the mounted state, the deformation tube 42, as well as the pipe-sleeve coupling 15 connected with the same, is hold distinctly and reliably in the given position thereof in relation to the vehicle underframe because the mounting flange 14 is kept clamped in the described way. However, thanks to the spring members 37 and the spring bodies 39, respectively, the forwardly projecting registration arm 16 is flexibly movable in relation to the pipe-sleeve coupling 15. Thus, the rod 34 united to the registration arm 16 can move axially rearward as well as forward against the action of the spring members 37. Simultaneously, the rod cannot only be angularly displaced in relation to the geometrical centre axis C of the towing arrangement, but also turn upward as well as downward in relation to the same.
Hence, a substantial advantage of the invention is that the registration arm (and other components that together with the same form a coupler) of the towing arrangement is flexibly movable at the same time as the towing arrangement in its entirety is fixed in the vehicle underframe in a stable and reliable way. Furthermore, the deformation tube 42 serves as collision protection, which to a large extent alleviates the effects of any serious collision accident.
In conclusion, it should be pointed out that the bottom piece 25 of the clamping device 5 includes holes 56 (see
The invention is not limited only to the embodiment described above and shown in the drawings. Thus, the design of the distance-keeping insert, as well as the clamping device co-operating with the same, may be varied in a plurality of ways within the scope of the subsequent claims. For instance, the clamping device may include other clamping or pressing means than just wedges. Thus, instead of wedges, for instance, eccentric or screw mechanisms may serve the purpose of separating the mounting flange and the spacing elements, so as to clamp the mounting flange. It is also possible to construct the lower frames in the insert as well as the clamping device in another way than the one shown in detail in the drawings.
Number | Date | Country | Kind |
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0401017-9 | Apr 2004 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/SE05/00564 | 4/19/2005 | WO | 5/26/2006 |