ES2334596B1 - TRAIN BRAKE PADS FOR THE TOP OF THE ROADS AND FOR ITS SIDE. - Google Patents

Abstract

Train brake pads to the top of the tracks and for its sides.

The train brake pads for the top of the tracks and for their sides , are a way to increase the effectiveness of the brakes of a train in the solution proposed in my Patent entitled: Train brake directed to the tracks, improved . If there was a question of creating a brake that was distributed by all the cars and that could contact the tracks at any given time, now it is about making the brake pads not only cover the top or top of the track, but which may also cover the largest possible contact area along the sides of the tracks. For this, a mechanism is built that takes advantage of the lowering of the brake to lower the side brake pads at the same time.

Description

Train brake pads to the top of the tracks and for its sides.

Object of the invention

With the present invention it is about achieving greater grip strength of the brake pads aimed at the tracks. It is enough to increase the contact surface of the brake pads on the tracks and a mechanism that allows said tablets stick and release from them.

Background of the invention

I don't know them.

Description of the invention

The train brake pads for the top of the tracks and for their sides , are a mechanism with which it is to achieve greater effectiveness in braking by increasing the surface of contact with the tracks by the rubber pads. It is about making other lateral pads (2), - also the pads (3) that are placed at the top of the track (1) -, can also come into contact with the sides and the hollow of these tracks (1 ). For this purpose, a system is created that has a tube (12) that extends into a hollow segment (10). Inside there is a toothed shaft (5), with a stop at the top, and a spring (9) above the stop. Fixed inside the hollow of the tube (10), there are sprockets (6, 7, 8), which will move when the tube (10) begins to descend since the wheel (6) is in connection with the teeth of the shaft (5). Therefore, when the entire brake mechanism descends, the pad (3) of the top of the track is contacted with this track before the tube (10) has just descended. While descending this tube (10), the internal gearwheels, when turning, will cause the metal supports (4) that carry the lateral brake pads (2) to descend, until they come into contact with the tracks (1), as shown in figure 1. This larger contact surface, of the brake pads, with the tracks, will give more power to the braking and will contribute to the train being stopped in the smallest possible space. When the pilot releases the brake pedal, the side pads (2) and the one of the top (3), will be released from their braking position, the tube (12) will ascend, and with it, the hollow lower segment (10) of the mechanism. The spring (9) will also take action, which will cause the toothed shaft (5) to descend because it will fall by its own weight, since it is not fixed in the hollow of the tube (10). Thus, when descending, or, when ascending the tube (10), this will cause, in the opposite direction to the previous one, the sprockets (6) that are in contact with the sprockets (7, 8), of the metal supports (4) of the side pads, whereby the supports will be separated from the tracks until the next requirement of the train brakes. A variant of the previous brake is drawn in figure 2. There is, as before, a tube (12), which is hollow in the lower segment (10). The shaft (5), with its stop (14), and the brake pad (3) hangs from the lower hole. When the pilot operates the brake pedal, the tube (12) descends and the brake pad (3) will touch the top of the track (1) before the tube (10) reaches its lowest position, or either, until you touch the top of the brake pad (3). While the tube (10) descends, the metal supports (4) of the side brake pads (2), - since they have that peculiar shape in the segment inside the tube (10) -, will trip over the butt (14) of the shaft (5), - while pivoting on the point (15) -, and will make the metal brackets (4) make the side brake pads (2) that are inside, are introduced into the hollow of the tracks, thereby increasing the contact surface of the braking and the train will stop before the current methods. Then, when the pilot releases the brake pedal, the tube (12) rises, and, with 61, the hollow tube (10) also rises. The top brake pad (3) will still remain in contact with the track, until the bottom of the tube (10) rises sufficiently and runs into the shaft stop (14) (5). This will cause, only at that time, the brake pad (3) and its axle (5) begin to rise. At the same time, the metal supports (4) will be relieved of the pressure to which they were subjected and the lateral springs (9) will come into action that will cause the lateral brake pads (2) to ascend to their resting position. Here, the springs (9) that return the lateral brake pads to their position are external to the tube (10) and are held in a metal bar (13) perpendicular to the lower segment of the tube (10). Date of the invention: (15.II.05).

Description of the drawings

Figure 1: Front view of the mechanism in lowered braking position.

Figure 2: Front view in a variant of the same mechanism, also in braking position.

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Figures 1-2

one)

Train track

2)

Side brake pad

3)

Top of track brake pad

4)

Metal support of the side pad Brake

5)

Toothed shaft

6)

Cogwheel

7)

Cogwheel

8)

Cogwheel

9)

Dock

10)

Lower segment of the tube (10)

eleven)

Bearing

12)

Medium tube segment (10)

13)

Metallic support

14)

Metallic shaft stop

fifteen)

Pivot

Description of a preferred embodiment

The train brake pads for the top of the tracks and for their sides , are a complement of the brake pads (3) that are limited to coming into contact with the top of the tracks (1). They are located in the lower segment of the hollow tube (10) that extends from the tube (12) that descends when the pilot operates the brake pedal. Inside the hollow tube (10) there is a toothed shaft (5) that has a stop at the top. The brake pad (3) directed to the top of the track is located at the bottom of this axis. In contact with the teeth of the axle (5) are sprockets (6) on both sides of the axle (5), which are in connection with other smaller sprockets (7), which change the direction of rotation and are they are in contact with other sprockets (8) that are in the metal supports (4) of the side brake pads (2). These pads (2) have a shape adapted to the area to which they are intended, that is, on the sides and in the hollow of the tracks (1). Thus, they form each of them, a kind of letter " L " and another " L " inverted to the left, which is embedded in the gap when the action of the entire brake puts them in contact with the tracks. A spring (9), -in the upper part of the shaft stop (5) -, is responsible for lowering the toothed shaft (5) when the brake is released from its contact with the tracks. This causes the tube (10) to rise and, at the same time, the shaft (5) will descend by the action of the spring (9), which will turn, now in the opposite direction to the sprockets (6, 7, 8) and it will separate the brake pads from the sides of the tracks while the tube (10) ascends and the axle and the brake pad from the top (3) descends slightly until the upper stop of the axle prevents it from coming out completely the base of the tube.

The variant of figure 2 consists of a different mechanism, intended for the same lower segment of the tube (10), who, when descending, will press the brake pad (3) of the top of the track (1) over it and will make it ascend a little towards the inside of the tube (10) from which it seemed to be hanging. That will do that the end stop (14) of the shaft (5), which has its ends slightly inclined-, raise and push the ends of the supports metal (4) of the side brake pads (2), which will pivot on an axle (15) and press the brake pads on the sides and the hollow of the tracks. After when release the braking pressure, the tube (10) will rise and the brake pad from the top of the track will descend to its position original, hanging a little from the tube and that will free up the space suitable for the ends of the metal supports of the side brakes (4) can return to their original position thanks to the action of the springs (9) of the metal bars (13) that protrude perpendicular to the tube (10). This will separate the side track pads and keep them that way until your new pressure towards them by the braking action.

Claims (2)

1. Train brake pads for the top of the tracks and for their sides, characterized by being a complement to the brake pads (3) that are limited to coming into contact with the top of the tracks (1). They are located in the lower segment of the hollow tube (10) that extends from the tube (12) that is mobile. Inside the hollow tube (10) there is a toothed shaft (5) that has a stop at the top. The brake pad (3) directed to the top of the track is located at the bottom of this axis. In contact with the teeth of the axle (5) there are gear wheels (6) on both sides of the axle (5), which are in connection with other smaller gear wheels (7) that are in contact with other gear wheels (8) found in the metal supports (4) of the side brake pads (2). These pads (2) have a shape adapted to the area to which they are intended, that is, on the sides and in the hollow of the tracks (1). Thus, they form each of them, a kind of letter "L" and another "L" inverted to the left, which is embedded in the lateral gaps of the tracks. The upper part of the shaft stop (5) has a spring (9). 2. Train brake pads for the top of the tracks and for their sides, according to claim one, characterized in that it is a variant of the previous one, which consists of a different mechanism, intended for the same lower segment of the tube (10). Inside there is a shaft (5) with a stop (14) at the top that has slightly inclined ends. At the bottom of the axle (5) is the brake pad (3) from the top of the tracks. Inside the hollow tube (10) there is a segment of metal supports (4) that are the ones that carry the brake pads (2) on the sides. At one point of the upper third of these metal supports (4) there are some pivots (15) that fix them to the tube, inside. On the outside of the tube (10), the metal supports (4) are held by springs (9) that are fixed, at the other end, to horizontal projections (13) protruding from the tube (10). An inner flange to the tube (10) is the one that prevents the shaft (5) from coming out, since the stop (14), stumbles, by its lower face, with said flange.