DE547996C - Resilient pulling and pushing device for railway vehicles - Google Patents

Description

Resilient pulling and buffing device for railway vehicles The invention refers to resilient pulling and pushing devices for railway vehicles with two mutually movable, interconnected by a spring tension and Bumpers connected to the vehicle chassis by additional springs stand. The aim of the invention is to achieve that in such pulling and pushing devices a specially designed arrangement of the springs contributes to their working capacity unilateral burdens are used to the fullest possible extent.

In the drawing, Fig. I show an embodiment of the object of the invention in longitudinal section, Fig. 2 shows a representation corresponding to Fig. i in the case of one-sided pressure loading of the device, Fig. 3, one also of Fig. i corresponding illustration with one-sided tensile load on the device and Fig. 4. Part of a representation corresponding to FIG. I of a second exemplary embodiment.

The device according to Fig. I to 3 has two tie rods and push rods A and B, which are mounted displaceably in bearings cl firmly connected to the longitudinal beams C of the vehicle underframe. Central buffer couplings are attached to the ends of rods A and B protruding from the vehicle. The rod A has two collars a1 and a2 rigidly connected to it, against each of which a spring plate D or D 'is supported. Between the spring plates D and D 'there is a spring E which presses the spring plates D and D' against the collars a1 and a2 and the stop brackets c2 and c 'which are firmly connected to the carriers C. In addition to a collar b; 4, the rod B has two collars b1 and b2 corresponding to the collars a1 and a2 of the rod A, between which spring plates F and F 'and a spring G are mounted. The spring plates .F and F 'lie against stops c4 and c' attached to the supports C. A sleeve I-1 is screwed onto the free end of the rod A and has two bores hl and lag of different diameters. The rod B engages in the sleeve H and is screwed to a head b3 guided in its bore 1a2. The sleeve H has a side window (not shown) which allows the head b3 to be inserted into the bore k2. In the bore 1a 'of the sleeve H, a sleeve K, which is mounted displaceably on the rod B, is finally guided. Between the sleeve H and the stop b '= the rod B , two spring plates M and M' are slidably mounted on this, between which a very strong spring N is located. Spacer bolts O with play are passed through holes in the bottom flange of the sleeve H and the spring plates M and Mt. The spring plates M and Ml finally lie against fixed stops ce and c 'seated on the carriers C. In the rest position, the parts assume the position shown in Fig. I. The arrangement is such that the distances between the left end face of the collars a = and b1 and the right end face of the collar b4 in Fig. I from the associated bearings cl are greater than the distance between the free end face of the head b3 and the inner bottom surface - the sleeve H.

If z. B. the vehicle on its own when maneuvering with the coupling sitting on the rod A on a bumper, the rod A is moved in the direction of the arrow x in Fig. Z. The collar cal of the rod A then takes the spring plate D with it and compresses the spring E, since the spring plate D 'is prevented from moving in the direction of the arrow x by the stops c2. At the same time, the sleeve H pushes the spring plate Ml in front of itself and compresses the spring N, the spring plate M of which is held in its position by the stops c °. The two springs E and N connected in parallel then bring the vehicle to rest.

If a group of wagons runs into a buffer stop or a stationary train, both bars A and bars B of the wagons running in the direction of travel are subjected to pressure. The spring plates D and F press the springs E and G together; at the same time, the collar b = and the sleeve H push the spring plate M or 2h in front of them, so that the spring N is also compressed. Here, the spring plates M and 11l1 move against each other, so that they come out of contact with the stops c ° and c '. As a result, the resistance of the spring N is not transmitted to the vehicle chassis.

If only rod A is subjected to tension in the direction of arrow y in Fig. 3, so its collar a2 takes the spring plate Dl with it and compresses the spring E; simultaneously The sleeve H also moves the spring plate, il 'in the direction of the arrow by means of the bolts 0 y and compresses the spring N. If only the rod B is stressed on train, so acts their covenant b = with the mediation of the spring plate F 'on the spring G, while the head b3 with the mediation of the sleeve K on the spring plate All and thus on the spring N presses.

When the rods A and B are simultaneously pulled, the springs E and G are initially compressed, but at the same time the sleeve H moves the plate All against the plate All 'and the sleeve K moves the plate M' against the plate M by means of the bolts 0 so that the resistance of the spring N does not stress the vehicle chassis in this case either.

The invention allows, in contrast to known arrangements, in the case of strong one-sided loads on the device, the entire work capacity of springs E and N or G and N.

The embodiment according to Fig. 4 differs from that just described only in that the spring plate R and R1 of the spring S is also in the Rest position (Fig. 4) not on the stops c ° and c7 of the first embodiment corresponding stop angles P and O are applied. In this case, however, the the springs E and G of the first embodiment corresponding springs have greater spring stroke than the spring S, and the distance between each of the stops P and D from the associated plate R and R1 is expediently equal to the difference chosen between the maximum travel of the rods and the play between the two rods.

Otherwise, the mode of operation corresponds to that of the first exemplary embodiment; However, the arrangement has the advantage over this that the stroke of the spring S upstream springs can be selected larger than the stroke of the spring S, the per se in order to avoid an unnecessarily large lengthening or shortening of the Train is limited by tensile and impact effects.

Claims (1)

PATENT CLAIMS. i. Spring-loaded pulling and pushing device for railroad cars with two mutually movable pull and push rods which are connected to one another by a spring and which act on the vehicle chassis through further springs, characterized in that the spring plate (M, Ml or R, R1) for the spring (N or S ) inserted between the tie rods and bumpers (A, B) are stops (c °, c ' or P, 0_) , which transfer the resistance of the spring to the vehicle chassis (C) when the device is unilaterally stressed . z. Device according to claim i, characterized in that the two spring plates (iYl, M ') of the spring (N) rest against the stops (c °, c7) provided in their balm in the rest position. 3. Apparatus according to claim i, characterized in that one (M) of the spring plate (M, M ') by spacer bolts (, 0) with one (A) of the tie rods (A, B) and the other spring plate (lhli) by a Sleeve (K) is connected to the other pull rod (B). 4. Apparatus according to claim r. characterized in that each of the stops (P, Q ) provided in the path of the spring plates (R, R1) in the rest position of the device has a distance from the associated abutment which is equal to the difference between the maximum travel of a rod and the play between the two rods.