CN201923167U - Climbing guard part for railway vehicles - Google Patents

Abstract

The utility model discloses a climbing guard part for railway vehicles. A climbing guard parting structure additionally provided with a guide part is used so as to guide a vehicle body to collide in front surface of horizontal direction, thus the impact is formed at the front surface so as to prevent the vehicle from being overlapped by climbing and overturned. The climbing guard comprises a climbing guard part and a guide part connected with each other. Climbing guard teeth are arranged on the front end of the climbing guard part. The guide part is fixedly installed at the end of the vehicle body. Buffer energy absorption parts are filled in the climbing guard part and the guide part. Both the climbing guard part and the guide part comprise a box type integral structure made of steel plate by welding, one end of box type integral structure is open. The size of the outer outline of the climbing guard part is less than that of the guide part, and the two are assembled in opposite direction by splicing and transversely fixed through a cutting pin at side. The climbing guard part and the guide part are oppositely spliced, the guide part supplies the motion trail when the climbing guard part is extruded and retreated by absorbing the impact energy of the vehicle collision.

Description

Anticreeper for rail vehicle

Technical Field

The utility model relates to a be applied to anticreeper that rail vehicle used when taking place the striking belongs to the machine-building field.

Background

At present, the speed per hour of domestic rail vehicles reaches 380 km/h, and in order to reduce the huge damage to the vehicle body structure caused by mutual impact of the rail vehicles, safety protection devices such as anti-creepers and the like are usually arranged at the end parts of the vehicle body and between the vehicles.

The purpose of designing, using the anticreeper is, can be when taking place mutual striking anti-creep tooth intermeshing, carry out the frontal impact between the automobile body and make automobile body tip take place to warp in order to absorb huge impact energy, and then prevent that the vehicle from producing to climb serious consequences such as folding, toppling, avoid causing losses such as casualties.

The anti-creeper that current domestic rail vehicle used adopts the structure and the connected mode of steel sheet tailor-welding universally, if the structural rigidity of this type of anti-creeper was too high, then can only transmit the chassis with the impact force when the vehicle strikes each other and reduce the lifting surface to unable all absorption impact energy, the vehicle is easily turned on one's side or topples. If the structural rigidity of the anti-creeper is too low, the anti-creeper is easy to generate vertical instability under the action of vertical load offset, and the vehicle can still climb and fold and other consequences.

Therefore, how to consider the design and function requirements of the above two aspects is a technical problem which is always urgently needed to be solved.

SUMMERY OF THE UTILITY MODEL

Anticreeper for rail vehicle, lie in solving prior art defect and adopt the anti-creep structure that increases the guide part to guide automobile body striking to take place in the front of horizontal direction, from positive formation impact in order to prevent that the vehicle from producing to climb serious consequences such as folding, toppling.

The utility model discloses a design aim at, in case the vehicle takes place to strike each other, the structure of anticreeper can the energy-absorbing and along the vertical backward extrusion of automobile body, remove, realize promptly that the guide vehicle carries out the frontal impact, prevent that the vehicle from producing the scheduling problem that topples.

Another design objective is, prevent that the anticreeper from producing vertical unstability problem in the atress process, prevent that the vehicle from producing when carrying out the frontal impact and climb and fold the scheduling problem.

In order to achieve the above design purpose, the rail vehicle anticreeper mainly comprises:

the anti-climbing device comprises an anti-climbing part and a guide part which are connected with each other, wherein anti-climbing teeth are arranged at the front end of the anti-climbing part, and the guide part is tightly installed at the end part of a vehicle body;

the anti-creeping part and the guide part are internally filled with buffering energy-absorbing parts;

the anti-creeping part and the guide part are both of box-shaped integral structures which are formed by welding steel plates and have one open end;

the external contour dimension of the anti-creeping part is smaller than that of the guide part, and the anti-creeping part and the guide part are oppositely spliced and assembled and transversely fixed through the shearing pins on the side parts.

As described above, according to the features of the basic solution, the anti-creep portion and the guide portion are inserted and assembled in opposite directions, and the guide portion itself provides a movement locus in which the anti-creep portion is pressed and retreated while absorbing impact energy at the time of vehicle collision.

The anti-creeping part and the guide part are transversely and fixedly connected by the shearing pin, and the pin can ensure the firm connection of the two parts when the vehicle normally runs. When the vehicle is impacted, the pin is sheared by the impact force, and the anti-creeping part slides backwards along the guide part, so that the front impact of the train is guided.

The buffering and energy-absorbing part (such as aluminum honeycomb) filled in the anti-creeping part and the guide part can ensure that the anti-creeping part cannot be rapidly bounced off to cause the separation of the anti-creeping devices between two vehicles after the pin is sheared, and gradually moves backwards along with the impact deformation of the vehicle body at the end part, thereby ensuring the mutual engagement between the anti-creeping devices of the colliding vehicles.

In order to further prevent the vertical instability problem of the anti-creeper in the stress process, the following improvement measures can be taken:

and a pair of reinforcing steel plates are arranged in the vertical overlapping area of the anti-creeping part and the guiding part.

The anti-creep portion and the guide portion are formed by welding steel plates with certain thickness and size in a splicing mode, the reinforcing steel plates are additionally arranged in the vertical overlapping area of the anti-creep portion and the guide portion, the anti-creep device can be guaranteed not to generate vertical instability when the vehicle impacts, namely, the anti-creep portion can only be extruded and retreated along the guide portion, and therefore the problem that the vehicle is prevented from creeping and folding is solved.

In order to prevent the anti-climbing part and the guide part which are oppositely spliced and assembled from swinging and deflecting during the normal running of the vehicle, pull rods for fastening and connecting the anti-climbing part and the guide part can be arranged in the anti-climbing part and the guide part along the opposite splicing direction of the anti-climbing part and the guide part.

The pull rod can be matched with the shearing pin to be firmly connected with the longitudinal direction of the anti-creeping part and the guide part.

More preferably, the improvement scheme for improving the structural stability and rigidity of the guide part is that a rib plate is arranged on the surface of the guide part.

As described above, the utility model discloses anticreeper for rail vehicle has following advantage and beneficial effect:

1. by adopting the anti-climbing structure with the guide part, the anti-climbing device can absorb energy completely and guide the vehicle to carry out frontal impact, so that the vehicle is prevented from overturning.

2. The problem that the anti-creeper generates vertical instability in the stress process is effectively avoided, and the problems that vehicles generate climbing and folding and the like are prevented.

3. The anti-creeper has simple structure, better longitudinal and transverse positioning functions and easy installation and disassembly.

Drawings

The invention will now be further described with reference to the following drawings.

FIG. 1 is a schematic view of the railway vehicle anticreeper;

FIG. 2 is a schematic diagram of the internal structure of the anti-creeper;

FIG. 3 is a schematic diagram comparing the structure of the anti-creeper before and after a vehicle impact;

as shown in fig. 1 to 3, the anti-creeping device comprises an anti-creeping part 1, a guide part 2, a pull rod 3, a shearing pin 4, an aluminum honeycomb 5, an anti-creeping tooth 6, a reinforced steel plate 7, a rib plate 8 and a vehicle body end part 9.

Detailed Description

Embodiment 1, as shown in fig. 1 to 3, the rail vehicle anticreeper mainly has:

the anti-creep part 1 and the guide part 2 are connected with each other. Wherein,

the anti-creeping part 1 and the guiding part 2 are both of a box-shaped integral structure which is formed by welding steel plates and is provided with an opening at one end, the external outline size of the anti-creeping part 1 is smaller than that of the guiding part 2, and the anti-creeping part 1 and the guiding part are oppositely spliced and assembled and are transversely fixed through a shearing pin 4 at the side part;

the front end of the anti-climbing part 1 is provided with anti-climbing teeth 6 which are used for meshing 2 anti-climbing devices when vehicles collide with each other;

the guide part 2 is fixedly arranged at the end part 9 of the vehicle body, and a rib plate 8 is arranged on the surface of the guide part 2;

aluminum honeycombs 5 are filled inside the anti-creep part 1 and the guide part 2;

a pair of reinforcing steel plates 7 are arranged in the vertical overlapping area of the anti-creeping part 1 and the guiding part 2;

inside the anti-creep part 1 and the guide part 2, a pull rod 3 for fastening and connecting the two is arranged along the direction of opposite insertion of the two.

Claims (4)

1. An anticreeper for rail vehicle which characterized in that: comprises an anti-climbing part (1) and a guide part (2) which are connected with each other, the front end of the anti-climbing part (1) is provided with anti-climbing teeth (6), the guide part (2) is tightly arranged at the end part (9) of a vehicle body,

the anti-creeping part (1) and the guide part (2) are filled with buffering energy-absorbing parts,

the anti-creeping part (1) and the guiding part (2) are both of box-shaped integral structures which are formed by welding steel plates and have one open end;

the external contour dimension of the anti-creeping part (1) is smaller than that of the guide part (2), and the anti-creeping part and the guide part are oppositely spliced and assembled and transversely fixed through the shearing pins (4) at the side parts.

2. The rail vehicle anticreeper of claim 1, wherein: a pair of reinforcing steel plates (7) are mounted in the vertical overlapping area of the anti-creeping part (1) and the guiding part (2).

3. The rail vehicle anticreeper according to claim 1 or 2, characterized in that: and pull rods (3) for fastening and connecting the anti-creeping part (1) and the guide part (2) are arranged in the anti-creeping part and the guide part along the opposite insertion direction of the anti-creeping part and the guide part.

4. The rail vehicle anticreeper of claim 3, characterized in that: a rib plate (8) is arranged on the surface of the guide part (2).

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