CN107338690B

CN107338690B - Rail replacing operation vehicle

Info

Publication number: CN107338690B
Application number: CN201611055743.4A
Authority: CN
Inventors: 李石平; 杨国涛; 向涌; 王琰; 刘莎
Original assignee: Zhuzhou CSR Times Electric Co Ltd; China Railway Corp
Current assignee: Zhuzhou CRRC Times Electric Co Ltd; China State Railway Group Co Ltd
Priority date: 2016-10-17
Filing date: 2016-11-25
Publication date: 2020-02-07
Anticipated expiration: 2036-11-25
Also published as: CN107338690A

Abstract

The invention discloses a rail replacing operation vehicle which consists of a replacing module, a loading and unloading module and a transportation module which are sequentially connected along the construction operation direction. And the transportation module carries out loading transportation on the new steel rail. The loading and unloading module is provided with a steel rail conveying device which conveys a new steel rail to the replacing module. The loading and unloading module is provided with a rail separating device which adjusts the conveyed new steel rail to a proper distance. The replacement module moves the old rail away from the rail sinking groove of the sleeper and unloads the new rail conveyed by the rail conveying device into the rail sinking groove of the sleeper. The invention can complete all the work of rail unloading, rail changing and rail collecting in one skylight point, saves the time for unloading new rails in the traditional rail changing construction mode, and effectively avoids the potential safety hazard in the rail changing construction operation.

Description

Rail replacing operation vehicle

Technical Field

The invention relates to the field of railway engineering operation, in particular to a rail replacing operation vehicle with a continuous and quick rail replacing operation function, which is applied to the field of railway engineering operation and maintenance.

Background

In the field of railway engineering, railway rails need to be replaced in time when reaching a certain service life, and the conventional railway rail replacement operation mainly adopts a manual rail replacement mode or a mechanical rail replacement mode in a skylight point. The manual rail replacement method needs more construction people, has low operation efficiency and high labor intensity, is easy to cause safety accidents, and has been applied less and less in overhaul construction. The mechanical rail replacement is to replace the steel rail by rail replacement equipment or a rail replacement vehicle, the rail replacement methods are basically the same, but all the work of rail unloading, rail welding, rail replacement and rail collection cannot be completed in the same skylight point.

In the prior art, the operation mode of adopting an off-line welding vehicle, a rail changing vehicle and an on-line welding vehicle is disclosed in the Chinese invention application of 'a construction method for welding the multi-section track section and continuously changing the track section of the rail welding vehicle', which is published in 2015 at 04 and 08 days by southwest traffic university and China railway general office in China and has the publication number of CN 104499390A. The application transports and uninstalls the circuit both sides with the new rail of multistage in advance, welds the rail welding of placing the circuit both sides by the welding railcar under the line, forms continuous long rail, and in changing the new rail that welds well to the heavy rail groove by the rail replacing trolley after that, the heavy rail groove is changed out to old rail, welds the rail that the mouth of a dragon goes out by welding the rail car on the line at last. However, the construction method needs to transport and unload new rails to both sides of the road in advance, and the off-line rail welding vehicle welds the rails in front of the rail replacing vehicle, so that the running speed of the rail replacing vehicle is influenced, the operation efficiency is reduced, and all rail replacing work cannot be completed in the same skylight point.

The invention discloses a continuous rail changing operation train and an operation method thereof, which are applied by the limited electronic technology company of the Haizhou era on 30/09/2015 and 16/12/2015, and the Chinese invention application with the publication number of CN105155370A discloses a construction mode of adopting a new rail vehicle, a fastener removing vehicle, a rail changing vehicle, a fastener removing vehicle, an old rail vehicle and a fastener loading vehicle. Although the application can complete all rail replacement operations in one-time construction, the rail replacement line is too long due to the fact that the new rail car and the old rail car are simultaneously grouped, and construction is not easy. Meanwhile, when the rail replacing operation vehicle enters and exits from a construction site, one of the new rail transport vehicle and the old rail transport vehicle runs empty, and resources are not utilized effectively. And the new rail and the old rail are synchronously placed, the new rail and the old rail simultaneously generate acting force on the vehicle, and safety accidents such as train overturn and the like easily occur, so the construction method is inconvenient to use under the current technical conditions.

In summary, in the prior art, a rail replacement construction method for a railway mainly includes that a new rail is transported to a construction site in advance by a rail transport vehicle and is unloaded to two sides of a track, the new rail is guided into a rail sinking groove in a skylight point by rail replacement equipment or a rail replacement vehicle, an old rail is guided out of the rail sinking groove and is placed on the outer side of a sleeper or the center of the track, and the old rail is recovered at a next skylight point. The rail replacement mode needs to place a new steel rail in advance, the change of the on-site rail temperature can cause the long steel rail to move due to rail expansion, so that the steel rail is invaded, the potential safety hazard is brought to the running of trains on the line, and the replaced old steel rail can also cause the same problem no matter placed on the outer side of the sleeper or the center of the rail.

Disclosure of Invention

In view of the above, the present invention provides a rail replacing work vehicle, which can complete all the work of rail unloading, rail replacing, and rail retracting in one skylight point, save the time of rail unloading in the conventional rail replacing construction mode, and effectively avoid the potential safety hazard in the rail replacing construction work.

In order to realize the purpose, the invention particularly provides a technical implementation scheme of a rail replacing operation vehicle, which consists of a replacing module, a loading and unloading module and a transportation module which are sequentially connected along the construction operation direction;

the transportation module carries out loading transportation on the new steel rail;

the loading and unloading module is provided with a steel rail conveying device, and the steel rail conveying device conveys a new steel rail to the replacing module;

the loading and unloading module is provided with a rail splitting device which adjusts the conveyed new steel rail to a proper distance;

the replacement module moves the old rail away from the rail sinking groove of the sleeper and unloads the new rail conveyed by the rail conveying device into the rail sinking groove of the sleeper.

Preferably, the rail replacing operation vehicle further comprises a rail welding module which is connected with the rail replacing module, can independently operate and is used for welding new front and back adjacent steel rails on the line, and the rail welding module is provided with self-walking power.

Preferably, when the rail replacing operation vehicle reaches the construction starting point within the skylight time, the rail welding module is unlocked and unhooked from the rail replacing operation vehicle. And when the replacement module unloads the conveyed new steel rail into the rail sinking groove of the sleeper, the rail welding module welds the new steel rail adjacent to the front and the back of the line.

Preferably, the replacement module is further provided with a steel rail hoisting device and a steel rail clamping device for replacing the new steel rail and the old steel rail.

Preferably, the loading and unloading module is further provided with a rail welding device capable of welding the front and rear pairs of new steel rails on the rail replacing operation vehicle.

Preferably, the transportation module is further provided with a bearing frame capable of transporting a certain number of steel rails and a locking device for locking the transported steel rails.

Preferably, the transportation module is further provided with a steel rail cutting device, and the steel rail cutting device cuts the recovered old steel rail into short steel rails for storage.

Preferably, the new rail conveyed by the rail conveyor is connected by an eccentric pressing plate.

Preferably, when the replacement module unloads the new rail from the inside of the old rail into the ballast groove of the tie, the old rail is placed on the outside of the tie. And when the replacement module unloads the new steel rail into the rail sinking groove of the sleeper from the outer side of the old steel rail, the old steel rail is placed in the center of the track.

Through the implementation of the technical scheme of the rail replacing operation vehicle provided by the invention, the rail replacing operation vehicle has the following beneficial effects:

(1) the invention realizes the integrated construction operation of unloading, welding, replacing and collecting the long steel rail, reduces the outage and construction time by virtue of the rapid operation speed and the continuous operation mode, saves the time for unloading new rails in the traditional rail replacing construction mode, and effectively avoids the potential safety hazard in the rail replacing construction operation;

(2) according to the invention, the new steel rail is directly unloaded into the rail sinking groove from the transportation module, so that a specified steel rail curve can be continuously maintained, the stress generated by steel rail deformation is reduced, and the time for rail collision and rail expansion is reduced;

(3) the new and old steel rails use the same steel rail transportation module, and the replaced old steel rails are recycled after the transportation module for transporting the new steel rails completes the rail replacement operation, so that the resources are reasonably utilized, and the use is economic and reliable;

(4) the track lines of the new and old steel rails are always in a parallel state, and no crossing occurs, so that the stress generated by the deformation of the steel rails is reduced, and the potential safety hazard caused by the crossing of the new and old steel rails is avoided;

(5) the loading and unloading module is flexible, and the loading and unloading module can reasonably adjust the distance of the new steel rail, so that the new steel rail enters the replacement module with smaller deformation under different working conditions (the old rail is placed on the outer side of the sleeper or the center of the rail).

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is obvious that the drawings in the following description are only some embodiments of the invention, and that for a person skilled in the art, other embodiments can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic structural diagram of an embodiment of a rail-changing work vehicle according to the present invention;

FIG. 2 is a schematic view of the rail-changing operation vehicle for recovering old rails according to the present invention;

FIG. 3 is a top plan view of the track line with the old track placed on the outside of the tie during the track change of the track-changing vehicle according to the present invention;

FIG. 4 is a top view of the track line when the old track is placed in the track center during track changing of the track-changing operation vehicle according to the present invention;

FIG. 5 is a schematic structural diagram of a second embodiment of the rail-changing operating vehicle according to the present invention;

FIG. 6 is a schematic structural diagram of a third embodiment of the rail-changing operating vehicle of the present invention;

in the figure: 1-rail replacing operation vehicle, 2-rail welding module, 3-replacing module, 4-loading and unloading module, 5-transportation module, 6-new rail, 7-rail conveying device, 8-rail separating device, 9-rail welding device, 10-old rail and 11-unloading module.

Detailed Description

For reference and clarity, the terms, abbreviations or abbreviations used hereinafter are as follows:

skylight point: and maintaining the railway for the time period of train passing prohibition.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 6, a specific embodiment of the rail-changing working vehicle of the present invention is shown, and the present invention will be further described with reference to the drawings and the specific embodiment.

Example 1

As shown in fig. 1 and 2, a rail-changing operation vehicle 1 includes: the system comprises a replacement module 3, a loading and unloading module 4 and a transportation module 5 which are sequentially connected along the construction operation direction. The working direction of the rail replacement vehicle 1 when replacing the new rail 6 is indicated by an arrow L1 in fig. 1, and the working direction of the rail replacement vehicle 1 when recovering the old rail 10 is indicated by an arrow L2 in fig. 2. Wherein:

the transportation module 5 carries out loading transportation on the new steel rail 6.

The handling module 4 is provided with a rail conveyor 7, and the rail conveyor 7 conveys the new rail 6 to the replacement module 3.

The loading and unloading module 4 is provided with a rail separating device 8, and the rail separating device 8 adjusts the conveyed new steel rail 6 to a proper distance.

The replacement module 3 moves the old rail 10 out of the ballast groove of the sleeper and unloads the new rail 6, which is conveyed by the rail conveyor 7, into the ballast groove of the sleeper.

The replacement module 3 may further include a rail lifting device and a rail holding device for replacing the new rail 6 and the old rail 10.

The loading and unloading module 4 can be further provided with a rail welding device 9 which can weld the front and the rear pairs of new steel rails 6 on the rail replacing operation vehicle 1.

The transport module 5 may further be provided with a carriage capable of transporting a number of rails and a locking device for locking the transported rails.

The transportation module 5 may further be provided with a rail cutting device, and the rail cutting device cuts the recovered old rail 10 into short rails for storage.

The new rails 6 conveyed by the rail conveyor 7 may be further connected by means of eccentric clamps.

A specific embodiment of the construction method of the rail replacing work vehicle 1 is that the rail replacing work vehicle 1 includes: the operation method comprises the following steps:

s11: after the steel rail fasteners are loosened, the rail replacing operation vehicle 1 reaches the construction starting point in skylight time, and the new steel rail 6 is loaded and transported through the transportation module 5;

s12: a rail transfer device 7 provided on the handling module 4 transfers the new rail 6 to the replacement module 3;

s13: the rail splitting device 8 arranged on the loading and unloading module 4 adjusts the new steel rail 6 transmitted by the steel rail transmission device 7 to a proper distance;

s14: the replacement module 3 moves the old steel rail 10 away from the rail sinking groove of the sleeper from the position of the closure gap;

s15: the rail replacing operation vehicle 1 runs according to the rail replacing operation direction L1, and the replacing module 3 unloads the new steel rail 6 transmitted by the steel rail transmission device 7 into the rail sinking groove of the sleeper, as shown in the attached figure 1;

s16: the rail replacement vehicle 1 is operated in the rail retraction direction L2, and by using the replacement module 3 to tunnel the old rail 10, the old rail 10 is collected into the transport module 5 in the reverse procedure of rail removal and rail replacement, as shown in fig. 2.

When the replacement module 3 unloads the new rail 6 from the inside of the old rail 10 into the sunken groove of the tie, the old rail 10 is placed on the outside of the tie, as shown in fig. 3. When the replacement module 3 unloads the new rail 6 from the outside of the old rail 10 into the ballast groove of the sleeper, the old rail 10 is placed in the core of the track, as shown in fig. 4. Therefore, the crossing of new and old steel rails in the rail replacement process can be effectively avoided, and the stress generated by the deformation of the steel rails is reduced to the minimum.

This embodiment provides a rail change operation car, can accomplish in a skylight point through the construction operation of changing the rail fast in succession and unload the rail, change the rail, receive the rail all work. The new steel rail 6 is directly unloaded into the rail sinking groove from the transportation module 5 through the replacing module 3, so that the time for unloading the new steel rail 6 in the traditional rail replacing construction method is saved, and the potential safety hazard caused by the limit invasion generated by the expanding rail when long steel rails are placed on two sides of a line is effectively avoided. And the new steel rail 6 is directly inserted into the groove from the rail replacing operation vehicle 1, so that a specified steel rail curve can be continuously maintained, the stress generated by steel rail deformation is reduced, and the rail collision time is greatly reduced.

Example 2

In this embodiment, the rail replacing work vehicle 1 further comprises a rail welding module 2 connected with the replacing module 3, capable of operating independently and used for welding new rails 6 adjacent to each other in front and back of the line, and the rail welding module 2 is provided with self-walking power. When the rail replacing operation vehicle 1 reaches the construction starting point in the skylight time, the rail welding module 2 is unlocked and unhooked from the rail replacing operation vehicle 1. When the replacement module 3 unloads the conveyed new steel rail 6 into the rail sinking groove of the sleeper, the rail welding module 2 welds the new steel rail 6 adjacent to the front and the back of the line. As shown in fig. 5, the rail replacing work vehicle 1 includes: the welding rail module 2, the replacing module 3, the loading and unloading module 4 and the transportation module 5 are sequentially connected along the construction operation direction, and the operation method comprises the following steps:

s11: after a steel rail fastener is loosened, the rail replacing operation vehicle 1 reaches a construction starting point in skylight time, the rail welding module 2 and the rail replacing operation vehicle 1 are unlocked and unhooked, and a new steel rail 6 is loaded and transported through the transportation module 5;

s15: the rail replacing operation vehicle 1 runs along the rail replacing operation direction, and the replacing module 3 unloads the new steel rail 6 transmitted by the steel rail transmission device 7 into the rail sinking groove of the sleeper;

s16: the rail welding module 2 which runs independently welds new steel rails 6 which are adjacent to each other in the front and the back of the line;

s17: the rail replacement work vehicle 1 runs in the rail collection work direction, tunnels the old rail 10 by using the replacement module 3, and collects the old rail 10 to the transport module 5 in the reverse procedure of rail removal and rail replacement.

Example 3

In this embodiment, the rail-changing working vehicle 1 further comprises a detaching module 11 connected between the rail-changing module 3 and the handling module 4, and when the rail-separating device 8 adjusts the delivered new rail 6 to a proper distance, the detaching module 11 removes the remaining fasteners on the track. As shown in fig. 6, the rail replacing work vehicle 1 includes: the operation method comprises the following steps:

s11: after the steel rail fastener is disassembled according to the mode of fastening 1 to fastening 8, the rail replacing operation vehicle 1 reaches the construction starting point in the skylight time, and the new steel rail 6 is loaded and transported through the transportation module 5;

s14: the rail replacing operation vehicle 1 runs along the rail replacing operation direction, and the disassembling module 13 is used for disassembling the residual fasteners on the line;

s15: the replacement module 3 moves the old steel rail 10 away from the rail sinking groove of the sleeper from the position of the closure gap;

s16: the rail replacing operation vehicle 1 runs along the rail replacing operation direction, and the replacing module 3 unloads the new steel rail 6 transmitted by the steel rail transmission device 7 into the rail sinking groove of the sleeper;

By implementing the technical scheme of the rail replacing operation vehicle described in the specific embodiment of the invention, the following technical effects can be produced:

(1) the rail replacing operation vehicle described in the specific embodiment of the invention realizes the integrated construction operation of unloading, welding, replacing and collecting the long steel rail, reduces the outage and construction time by virtue of the fast operation speed and the continuous operation mode, saves the time for unloading new rails in the traditional rail replacing construction mode, and effectively avoids the potential safety hazard in the rail replacing construction operation;

(2) the new steel rail of the rail replacing operation vehicle described in the specific embodiment of the invention is directly unloaded into the rail sinking groove from the transportation module, a specified steel rail curve can be continuously maintained, the stress generated by steel rail deformation is reduced, and the time for rail collision and rail expansion is reduced;

(3) the new and old steel rails of the rail replacing operation vehicle described in the specific embodiment of the invention use the same steel rail transportation module, and after the transportation module for transporting the new steel rail finishes the rail replacing operation, the replaced old steel rail is recycled, so that the resources are reasonably utilized, and the use is economic and reliable;

(4) the track lines of the new and old steel rails of the rail replacement work vehicle described in the specific embodiment of the invention are always in a parallel state, and no crossing occurs, so that the stress generated by the deformation of the steel rails is reduced, and the potential safety hazard caused by the crossing of the new and old steel rails is avoided;

(5) the rail-changing operation vehicle loading and unloading module described in the specific embodiment of the invention is flexible, and the loading and unloading module can reasonably adjust the distance of the new steel rail, so that the new steel rail enters the replacing module with smaller deformation under different working conditions (the old rail is placed on the outer side of a sleeper or the center of a track).

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The foregoing is merely a preferred embodiment of the invention and is not intended to limit the invention in any manner. Although the present invention has been described with reference to the preferred embodiments, it is not intended to be limited thereto. Those skilled in the art can make many possible variations and modifications to the disclosed embodiments, or equivalent modifications, without departing from the spirit and scope of the invention, using the methods and techniques disclosed above. Therefore, any simple modification, equivalent replacement, equivalent change and modification made to the above embodiments according to the technical essence of the present invention are still within the protection scope of the technical solution of the present invention.

Claims

1. The utility model provides a trade rail operation car which characterized in that: the device consists of a replacement module (3), a loading and unloading module (4) and a transportation module (5) which are sequentially connected along the construction operation direction;

the transportation module (5) carries out loading transportation on the new steel rail (6);

the loading and unloading module (4) is provided with a steel rail conveying device (7), and the steel rail conveying device (7) conveys a new steel rail (6) to the replacing module (3);

the loading and unloading module (4) is provided with a rail splitting device (8), and the rail splitting device (8) adjusts the conveyed new steel rail (6) to a proper distance;

the replacement module (3) moves the old steel rail (10) away from the sinking rail groove of the sleeper, and unloads the new steel rail (6) conveyed by the steel rail conveying device (7) into the sinking rail groove of the sleeper;

when the replacement module (3) unloads the new rail (6) from the inner side of the old rail (10) into the sinking groove of the sleeper, the old rail (10) is placed on the outer side of the sleeper; when the replacement module (3) unloads the new rail (6) into the sunken rail groove of the sleeper from the outside of the old rail (10), the old rail (10) is placed in the center of the track.

2. A rail changing working vehicle according to claim 1, characterized in that: the rail replacing operation vehicle (1) further comprises a rail welding module (2) which is connected with the rail replacing module (3), can independently run and is used for welding new front and back adjacent steel rails (6) on the line, and the rail welding module (2) is provided with self-walking power.

3. A rail changing working vehicle according to claim 2, characterized in that: when the rail replacing operation vehicle (1) reaches a construction starting point within the skylight time, the rail welding module (2) and the rail replacing operation vehicle (1) are unlocked and unhooked; and when the replacement module (3) unloads the conveyed new steel rail (6) into the rail sinking groove of the sleeper, the rail welding module (2) welds the new steel rail (6) which is adjacent to the front and the back of the track.

4. A rail changing vehicle according to claim 1, 2 or 3, wherein: and the replacing module (3) is also provided with a steel rail hoisting device and a steel rail clamping device for replacing the new steel rail (6) and the old steel rail (10).

5. A rail change vehicle according to claim 4, wherein: and the loading and unloading module (4) is also provided with a rail welding device (9) which can weld the front and the rear pairs of new steel rails (6) on the rail replacing operation vehicle (1).

6. A rail change vehicle according to claim 1, 2, 3 or 5, wherein: the transportation module (5) is also provided with a bearing frame capable of transporting a certain number of steel rails and a locking device for locking the transported steel rails.

7. A rail change vehicle according to claim 6, wherein: and the transportation module (5) is also provided with steel rail cutting equipment, and the steel rail cutting equipment cuts the recovered old steel rail (10) into short steel rails for storage.

8. A rail changing working vehicle according to claim 7, characterized in that: the new steel rails (6) conveyed by the steel rail conveying device (7) are connected through an eccentric pressing plate.