CN211545270U - Railway is with new tiny fragments of stone, coal, etc. dump car - Google Patents

Abstract

The utility model relates to a railway is with new tiny fragments of stone, coal, etc. dump car, including flatcar (1) and changeing tiny fragments of stone, coal, etc. equipment, flatcar (1) provides work platform for changeing tiny fragments of stone, coal, etc. equipment; the ballast transfer working device is integrated on the device base (2), and the ballast transfer working device is integrally installed on the flat car (1) and can be integrally separated from the flat car (1); the front end of the flat wagon (1) is provided with a folding conveyor belt (3); a left transverse conveying belt (5), a right transverse conveying belt (4), a left oblique conveying belt (7) and a right oblique conveying belt (6) are arranged on two sides of the front half part of the flat car (1); two sides of the rear half part of the flat car (1) are provided with a left chain digging mechanism (11), a right chain digging mechanism (9), a cab (10), a power room (12) and a ballast digging and shaping mechanism (13). The utility model discloses a change tiny fragments of stone, coal, etc. equipment of new tiny fragments of stone, coal, etc. dump car is an independent whole to the flatcar is work platform, changes tiny fragments of stone, coal, etc. equipment and loads and consolidate the rule and install on the flatcar according to the railway goods.

Description

Railway is with new tiny fragments of stone, coal, etc. dump car

Technical Field

The utility model relates to a large-scale road maintaining machinery railway maintenance field particularly, relates to a railway is with new tiny fragments of stone, coal, etc. dump car.

Background

Many construction operations on railway construction sites in China need to be carried out by material transport vehicles with new stone ballasts in a linkage mode.

New stone ballasts of railways in China are mainly transported to a construction site from a stone factory by stone ballast hopper cars, the stone ballast hopper cars can only unload the stones from the bottom, ballast unloading openings are close to a track surface, and ballast inlet openings of material transport cars are high and are located at the tops of the cars. Because the space of the ballast unloading opening of the ballast hopper car is limited, corresponding equipment cannot be installed at the position, and the ballast cannot be directly conveyed to the ballast inlet at the top of the material transport vehicle from the ballast unloading opening at the bottom of the ballast hopper car. How to transfer stone ballast in a stone ballast hopper car to a material transport vehicle is always a practical problem which is difficult to solve in a railway construction site.

Disclosure of Invention

In order to solve the problem that the railway job site shifts the stone tiny fragments of stone, coal, etc. to the material transport vehicle from the stone tiny fragments of stone, coal, etc. hopper car, the utility model aims to provide a railway is with new tiny fragments of stone, coal, etc. dump vehicle, this new tiny fragments of stone, coal, etc. dump vehicle is used for shifting new stone tiny fragments of stone, coal, etc. hopper car from the stone tiny fragments of stone, coal, etc. hopper car and storing to the material transport vehicle, and wherein the commentaries on classics tiny fragments of stone, coal, etc. dump vehicle of new tiny fragments of stone, coal, etc. hopper car is used for shifting new stone tiny.

In order to realize the above design purpose, the utility model discloses a scheme as follows:

the utility model discloses a first aspect provides a railway is with new tiny fragments of stone, coal, etc. dump car, including the flatcar and change tiny fragments of stone, coal, etc. work device, the flatcar provides work platform for change tiny fragments of stone, coal, etc. work device; the ballast transfer working device is integrated on the device base, and is integrally arranged on the flat car, so that the ballast transfer working device can be integrally separated from the flat car, the flat car is convenient to overhaul and maintain, and even other flat cars with the same specification and model are replaced; the front end of the flat wagon is provided with a folding conveyor belt; a left transverse conveying belt, a right transverse conveying belt, a left oblique conveying belt and a right oblique conveying belt are arranged on two sides of the front half part of the flat car; a left chain digging mechanism and a right chain digging mechanism are arranged on two sides of the rear half part of the flat car; and a ballast raking and shaping mechanism is arranged at the tail part of the flat wagon and is used for raking the new ballast which is unloaded by the ballast hopper wagon so as to meet the relevant regulations of the railway line. The utility model discloses a change tiny fragments of stone, coal, etc. equipment of new tiny fragments of stone, coal, etc. dump car is an independent whole to the flatcar is work platform, changes tiny fragments of stone, coal, etc. equipment and loads and consolidate the rule and install on the flatcar according to the railway goods.

Preferably, the front end of the left digging chain excavating mechanism is connected with a left inclined conveying belt; the front end of the right digging chain excavating mechanism is connected with a right inclined conveying belt.

In any of the above schemes, preferably, one end of the left inclined conveyor belt is mounted on the left support, and the other end of the left inclined conveyor belt is flexibly connected with the left digging chain mechanism through a universal joint and can move longitudinally relative to the left digging chain mechanism.

In any of the above schemes, preferably, a first left horizontal cylinder is arranged below the left oblique conveyor belt, and the left oblique conveyor belt and the left pickoff chain digging mechanism horizontally extend and retract simultaneously under the action of the first left horizontal cylinder.

In any of the above schemes, preferably, one end of the right inclined conveyor belt is mounted on the right bracket, and the other end of the right inclined conveyor belt is flexibly connected with the right scraper chain digging mechanism through a universal joint and can move longitudinally relative to the right scraper chain digging mechanism.

In any of the above schemes, preferably, a second right horizontal cylinder is arranged below the right oblique conveyor belt, and the right oblique conveyor belt and the right digging chain excavating mechanism horizontally extend and retract simultaneously under the action of the second right horizontal cylinder.

In any of the above schemes, preferably, the left chain digging mechanism and the right chain digging mechanism are provided with digging teeth, digging chains, a ballast inlet and a ballast outlet.

In any of the above schemes, preferably, the left scraper chain digging mechanism is supported by a transverse supporting column A and a transverse supporting column B; the left chain digging mechanism is fixedly connected to the left chain digging support.

In any of the above schemes, preferably, the horizontal supporting column a and the horizontal supporting column B are provided with left lifting cylinder bases.

In any of the above schemes, preferably, the left lifting cylinder base is provided with a left lifting cylinder, and the left digging mechanism rotates along the central line of the transverse supporting column A under the action of the left lifting cylinder, so as to adjust the left digging depth.

In any of the above schemes, preferably, a second left horizontal cylinder is arranged below the left raking chain excavating mechanism, and the left raking chain excavating mechanism can horizontally extend and retract under the action of the second left horizontal cylinder.

In any of the above schemes, preferably, the right scrabbling chain excavating mechanism is supported by a C transverse supporting column and a D transverse supporting column; the right chain digging mechanism is fixedly connected to the right chain digging support.

In any of the above schemes, preferably, a first right horizontal cylinder is arranged below the right side chain digging mechanism, and the right side chain digging mechanism can horizontally extend out and retract under the action of the first right horizontal cylinder.

In any of the above schemes, preferably, the C transverse supporting column and the D transverse supporting column are provided with right lifting cylinder bases.

In any of the above schemes, preferably, the right lifting cylinder base is provided with a right lifting cylinder, and the right scrabbling chain excavating mechanism rotates along the central line of the D-shaped transverse supporting column under the action of the right lifting cylinder, so as to adjust the right excavating depth.

In any of the above schemes, preferably, a support cylinder and a folding cylinder are arranged below the folding conveyor belt.

In any of the above schemes, preferably, a left oil cylinder is arranged below the left transverse conveyor belt, and the left transverse conveyor belt rotates along the rotation center under the action of the oil cylinder; the right oil cylinder is arranged below the right transverse conveying belt, and the right transverse conveying belt rotates along the rotation center under the action of the oil cylinder so as to meet different requirements of two states of operation and vehicle collection.

The utility model discloses the second aspect provides a railway is with construction method of new tiny fragments of stone, coal, etc. dump car, it includes following step:

the first step is as follows: preparing operation, namely placing a new ballast dump truck, a material transport vehicle and a stone ballast hopper truck on the same railway line, wherein the new ballast dump truck and the material transport vehicle are connected and then positioned at one end of the line, the stone ballast hopper truck is positioned at the other end of the line, and the distance between the new ballast dump truck and the stone ballast hopper truck is the sum of the length of a channel for storing new stone ballasts and the length of a safety distance of 20 meters;

the second step is that: the method comprises the following steps of (1) towing a new ballast dump truck by using a material transport truck or other vehicles, digging ditches at two sides of a railway line by using the new ballast dump truck (the length and the depth of the ditches are determined according to the length of a station line and the transfer and storage amount of the new ballast), conveying dug old ballasts to the material transport truck, and finally conveying the old ballasts to a specified place by using the material transport truck;

the third step: returning the material transport vehicle and the new ballast dump vehicle, moving the stone ballast hopper vehicle to the new trench dug in the second step, opening a ballast unloading port of the stone ballast hopper vehicle needing ballast unloading, and unloading the new stone ballast into the trench dug in the second step until the trenches on two sides of the line are fully unloaded;

the fourth step: the stone ballast hopper car returns, a new ballast dump car is pulled by the material transport car, and new stone ballasts which are unloaded in two side ditches of the railway line in the third step are dug by the new ballast dump working device and are conveyed to the material transport car through the conveying belt;

the fifth step: repeating the third and fourth steps until all of the material transport vehicles are filled as needed. After the material transport vehicle is completely filled, repeating the third step, and unloading new stone ballasts in the stone ballast hopper vehicle into the trench excavated in the fourth step;

and a sixth step: and d, raking the new stone ballast discharged in the ditch in the fifth step by using a ballast raking and shaping mechanism to finish dumping work of the new stone ballast.

Compared with the prior art, the railway dump truck with new tiny fragments of stone, coal, etc. has following advantage and effect:

1. the utility model discloses a flatcar market reserve that railway used with new tiny fragments of stone, coal, etc. dump car is big, and convenient to overhaul and maintenance change other flatcars with specification model even.

2. The ballast transferring working device of the new ballast dumping car is an independent whole, the flat car is taken as a working platform, and the ballast transferring working device is installed on the flat car according to the railway goods loading and reinforcing rules.

3. The folding conveyer belt can be folded, the folding oil cylinder has the function of opening or folding the folding conveyer belt, and the oil cylinder has the function of supporting, so that the included angle between the folding conveyer belt and the horizontal plane can be adjusted.

4. The left transverse conveying belt rotates along the rotation center under the action of the oil cylinder, and the right transverse conveying belt rotates along the rotation center under the action of the oil cylinder, so that different requirements of two states of operation and vehicle collection are met.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of a railway ballast dump truck according to the present invention.

Fig. 2 is a top view of the preferred embodiment shown in fig. 1 of a new ballast dump truck for a railway according to the present invention.

Fig. 3 is a schematic view of a folded state of the folded conveyor belt in the preferred embodiment shown in fig. 1 of the railway ballast dump truck according to the present invention.

Fig. 4 is a schematic view illustrating the rotation of the transverse conveyor belt in the embodiment of fig. 1 of the railway ballast dump truck according to the present invention.

Detailed Description

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, from which other embodiments can be derived by a person skilled in the art without inventive effort.

As shown in fig. 1-2, a schematic structural diagram of a preferred embodiment of a railway ballast dump truck according to the present invention is shown. The vehicle length direction is a longitudinal direction, the vehicle width direction is a lateral direction, and the left and right sides are viewed from the vehicle advancing direction 8. This new tiny fragments of stone, coal, etc. dump car is furnished with driver's cabin 10, is equipped with commentaries on classics tiny fragments of stone, coal, etc. equipment control unit in driver's cabin 10, and this equipment can be controlled in driver's cabin 10 to the operating personnel. The power room 12 provides required power for all power parts of the ballast converting working device.

The utility model discloses a railway is with new tiny fragments of stone, coal, etc. dump car, including flatcar 1 and commentaries on classics tiny fragments of stone, coal, etc. equipment, flatcar 1 provides work platform for change tiny fragments of stone, coal, etc. equipment; the ballast transfer working device is integrated on the device base 2, and is integrally arranged on the flat car 1, so that the ballast transfer working device can be integrally separated from the flat car 1, the flat car 1 is convenient to overhaul and maintain, and even other flat cars with the same specification and model are replaced; the front end of the flat wagon 1 is provided with a folding conveyor belt 3; a left transverse conveying belt 5, a right transverse conveying belt 4, a left oblique conveying belt 7 and a right oblique conveying belt 6 are arranged on two sides of the front half part of the flat car 1; a left chain digging mechanism 11 and a right chain digging mechanism 9 are arranged on two sides of the rear half part of the flat car 1; the tail part of the flat wagon 1 is provided with a ballast raking and shaping mechanism 13 which is used for raking the new ballast which is unloaded by the ballast hopper wagon so as to meet the relevant regulations of the railway line. The utility model discloses a change tiny fragments of stone, coal, etc. equipment of new tiny fragments of stone, coal, etc. dump car is an independent whole to the flatcar is work platform, changes tiny fragments of stone, coal, etc. equipment and loads and consolidate the rule and install on the flatcar according to the railway goods.

The utility model discloses a railway is with theory of operation of new tiny fragments of stone, coal, etc. dump car does:

seen from the advancing direction 8 of the vehicle, during operation, a flat car 1 (one side of a folding conveyor belt 3) is connected with a required number of material transport cars, the folding conveyor belt 3 extends to a material transport car bin, a left chain-digging mechanism 11 and a right chain-digging mechanism 9 are put down, a left inclined conveyor belt 7 and a right inclined conveyor belt 6 are also put down along with the folding conveyor belt, a left transverse conveyor belt 5 and a right transverse conveyor belt 4 are rotated to working positions, the flat car 1 moves along the direction 8 under the traction of the material transport cars or other vehicles, two sets of chain-digging mechanisms dig up new stone ballasts put in a ditch in advance at two sides of a railway line, a rotating chain 32 drives a raking tooth 31 to move, the new stone ballasts are raked in from a ballast inlet 33, flow out from a ballast outlet 34, fall into the left inclined conveyor belt 7 and the right inclined conveyor belt 6, then are conveyed to the left transverse conveyor belt 5 and the right transverse conveyor belt 4, and then conveyed to the, and finally, conveying the new stone ballast to a material transport vehicle to finish the transfer and storage work of the new stone ballast from the stone ballast hopper car to the material transport vehicle.

In this embodiment, the front end of the left raking chain excavating mechanism 11 is connected with the left inclined conveyor belt 7; the front end of the right digging chain mechanism 9 is connected with the right inclined conveyer belt 6.

In this embodiment, one end of the left oblique conveyor belt 7 is mounted on the left bracket 15, and the other end is flexibly connected with the left digging chain mechanism 11 through a universal joint and can move longitudinally and relatively.

In this embodiment, a first left horizontal cylinder 14 is arranged below the left inclined conveyor belt 7, and the left inclined conveyor belt 7 horizontally extends and retracts simultaneously with the left scraper chain excavating mechanism 11 under the action of the first left horizontal cylinder 14.

In this embodiment, one end of the right oblique conveyor belt 6 is mounted on the right bracket 28, and the other end is flexibly connected with the right digging chain mechanism 9 through a universal joint and can move longitudinally and relatively.

In this embodiment, a second right horizontal cylinder 29 is arranged below the right inclined conveyor belt 6, and the right inclined conveyor belt 6 and the right pickoff chain digging mechanism 9 horizontally extend and retract simultaneously under the action of the second right horizontal cylinder 29.

In this embodiment, the left raking chain excavating mechanism 11 and the right raking chain excavating mechanism 9 are respectively provided with a raking tooth 31, a raking chain 32, a ballast inlet 33 and a ballast outlet 34.

In this embodiment, the left raking chain excavating mechanism 11 is supported by an a transverse supporting column 17 and a B transverse supporting column 19; the left chain digging mechanism 11 is fixedly connected to the left chain digging support 20.

As shown in fig. 2, a top view of the preferred embodiment of the railway ballast dump truck shown in fig. 1 is provided.

Viewed from the vehicle advancing direction 8, the left chain digging mechanism 11 is supported by a transverse supporting column A17 and a transverse supporting column B19 and is arranged on a left chain digging support 20, and the left chain digging mechanism 11 can horizontally extend and retract under the action of a left horizontal oil cylinder 16; one end of the left inclined conveying belt 7 is mounted on the support 15, the other end of the left inclined conveying belt is flexibly connected with the left raking chain excavating mechanism 11 through a universal joint, the left inclined conveying belt and the left raking chain excavating mechanism 11 can move longitudinally and relatively, and the left inclined conveying belt 7 and the left raking chain excavating mechanism 11 horizontally extend and retract simultaneously under the action of the left horizontal oil cylinder 14; the left lifting cylinder base 18 is installed on the transverse supporting column A17 and the transverse supporting column B19, the left lifting cylinder 21 is installed on the left lifting cylinder base 18, and the left chain digging mechanism 11 rotates along the central line of the transverse supporting column A17 under the action of the left lifting cylinder 21, so that the left digging depth is adjusted.

In this embodiment, the a lateral support column 17 and the B lateral support column 19 are provided with left lifting cylinder bases 18.

In this embodiment, the left lifting cylinder base 18 is provided with a left lifting cylinder 21, and the left scraper chain excavating mechanism 11 rotates along the center line of the a transverse supporting column 17 under the action of the left lifting cylinder 21, so as to adjust the left excavating depth.

The right chain digging mechanism 9 is supported by a C transverse supporting column 24 and a D transverse supporting column 26 and is arranged on the right chain digging support 23, and the right chain digging mechanism 9 can horizontally extend and retract under the action of a right horizontal oil cylinder 27; one end of the right inclined conveying belt 6 is installed on the support 28, the other end of the right inclined conveying belt is flexibly connected with the right raking chain excavating mechanism 9 through a universal joint, the right inclined conveying belt and the right raking chain excavating mechanism 9 can move longitudinally and oppositely, and the right inclined conveying belt 6 and the right raking chain excavating mechanism 9 horizontally extend and retract simultaneously under the action of the right horizontal oil cylinder 29; the right lifting cylinder base 25 is installed on the C transverse supporting column 24 and the D transverse supporting column 26, the right lifting cylinder 22 is installed on the right lifting cylinder base 25, and the right scraper chain excavating mechanism 9 rotates along the central line of the D transverse supporting column 26 under the action of the right lifting cylinder 22, so that the right excavating depth is adjusted.

In this embodiment, a second left horizontal cylinder 16 is arranged below the left raking chain excavating mechanism 11, and the left raking chain excavating mechanism 11 can horizontally extend and retract under the action of the second left horizontal cylinder 16.

In this embodiment, the right raking chain excavating mechanism 9 is supported by a C transverse supporting column 24 and a D transverse supporting column 26; the right chain digging mechanism 9 is fixedly connected to the right chain digging support 23.

In this embodiment, a first right horizontal cylinder 27 is arranged below the right digging chain mechanism 9, and the right digging chain mechanism 9 can horizontally extend and retract under the action of the first right horizontal cylinder 27.

In this embodiment, the C lateral support column 24 and the D lateral support column 26 are provided with a right lift cylinder base 25.

In this embodiment, the right lift cylinder 22 is disposed on the right lift cylinder base 25, and the right pickoff chain digging mechanism 9 rotates along the center line of the D-side support pillar 26 under the action of the right lift cylinder 22, so as to adjust the right digging depth.

Next, referring to fig. 3, a schematic view of a folded state of a folded conveyor belt in the preferred embodiment of fig. 1 of a railway ballast dump truck according to the present invention is shown.

The folding conveyer belt 3 can be folded, the folding oil cylinder 37 is used for opening or folding the folding conveyer belt 3, and the supporting oil cylinder 36 is used for adjusting the included angle between the folding conveyer belt 3 and the horizontal plane.

In this embodiment, a support cylinder 36 and a folding cylinder 37 are provided below the folding conveyor 3.

Finally, referring to fig. 4, a schematic view of the rotation of the transverse conveyor belt in the embodiment of fig. 1 of the railway ballast dump truck according to the present invention is shown.

The left transverse conveyor belt 5 rotates along the rotation center 44 under the action of the oil cylinder 43, and the right transverse conveyor belt 4 rotates along the rotation center 41 under the action of the oil cylinder 42, so that different requirements of two states of operation and vehicle collection are met. In the illustrated state, the left transverse conveyor 5 is in an operating state, and the right transverse conveyor 4 is in a vehicle folding state.

During operation, the folding conveyor belt 3 is firstly opened, an included angle between the folding conveyor belt and a horizontal plane is adjusted to a working position, then the left and right digging mechanisms and the left and right inclined conveyor belts extend outwards, after the left and right digging mechanisms and the left and right inclined conveyor belts extend in place, the left and right digging mechanisms are swung downwards to a required digging depth to drive the left and right inclined conveyor belts to swing downwards, and finally the left and right transverse conveyor belts are rotated to the working position to realize dumping operation of new ballasts; when the train is collected, the left transverse conveying belt and the right transverse conveying belt are rotated to the train collecting position, the folding conveying belt 3 is folded and adjusted to the train collecting position, the left chain digging mechanism and the right chain digging mechanism are lifted to drive the left inclined conveying belt and the right inclined conveying belt to lift, and finally the left chain digging mechanism and the right chain digging mechanism and the left inclined conveying belt and the right inclined conveying belt are horizontally retracted to meet the limit requirement of the railway line.

In this embodiment, a left oil cylinder 43 is arranged below the left transverse conveyor belt 5, and the left transverse conveyor belt 5 rotates along a rotation center 44 under the action of the oil cylinder 43; a right oil cylinder 42 is arranged below the right transverse conveyor belt 4, and the right transverse conveyor belt 4 rotates along the rotation center 41 under the action of the oil cylinder 42 so as to meet different requirements of two states of operation and vehicle collection.

The utility model discloses a construction method of railway with new tiny fragments of stone, coal, etc. dump car, it includes following step:

the first step is as follows: preparing operation, namely placing a new ballast dump truck, a material transport vehicle and a stone ballast hopper truck on the same railway line, wherein the new ballast dump truck and the material transport vehicle are connected and then positioned at one end of the line, the stone ballast hopper truck is positioned at the other end of the line, and the distance between the new ballast dump truck and the stone ballast hopper truck is the sum of the length of a channel for storing new stone ballasts and the length of a safety distance of 20 meters;

the second step is that: the method comprises the following steps of (1) towing a new ballast dump truck by using a material transport truck or other vehicles, digging ditches at two sides of a railway line by using the new ballast dump truck (the length and the depth of the ditches are determined according to the length of a station line and the transfer and storage amount of the new ballast), conveying dug old ballasts to the material transport truck, and finally conveying the old ballasts to a specified place by using the material transport truck;

the third step: returning the material transport vehicle and the new ballast dump vehicle, moving the stone ballast hopper vehicle to the new trench dug in the second step, opening a ballast unloading port of the stone ballast hopper vehicle needing ballast unloading, and unloading the new stone ballast into the trench dug in the second step until the trenches on two sides of the line are fully unloaded;

the fourth step: the stone ballast hopper car returns, a new ballast dump car is pulled by the material transport car, and new stone ballasts which are unloaded in two side ditches of the railway line in the third step are dug by the new ballast dump working device and are conveyed to the material transport car through the conveying belt;

the fifth step: repeating the third and fourth steps until all of the material transport vehicles are filled as needed. After the material transport vehicle is completely filled, repeating the third step, and unloading new stone ballasts in the stone ballast hopper vehicle into the trench excavated in the fourth step;

and a sixth step: and d, raking the new stone ballast discharged in the ditch in the fifth step by using a ballast raking and shaping mechanism to finish dumping work of the new stone ballast.

As can be readily understood by those skilled in the art, the new ballast dump truck for railway of the present invention includes any combination of the parts in the present specification. These combinations are not described in detail herein for the sake of brevity and clarity, but the scope of the invention, which is defined by any combination of parts or features disclosed herein, will become apparent after a review of this specification.

Claims (17)

1. A railway is with new tiny fragments of stone, coal, etc. dump car, including flatcar (1) and change tiny fragments of stone, etc. work device, flatcar (1) provides the work platform for changing tiny fragments of stone, coal, etc. work device while being said; the ballast transfer working device is integrated on the device base (2), and is characterized in that: the ballast transfer working device is integrally arranged on the flat car (1) and can be integrally separated from the flat car (1); the front end of the flat wagon (1) is provided with a folding conveyor belt (3); a left transverse conveying belt (5), a right transverse conveying belt (4), a left oblique conveying belt (7) and a right oblique conveying belt (6) are arranged on two sides of the front half part of the flat car (1); a left chain digging mechanism (11), a right chain digging mechanism (9), a cab (10) and a power room (12) are arranged on two sides of the rear half part of the flat car (1); the tail part of the flat wagon (1) is provided with a ballast raking and shaping mechanism (13).

2. The railway ballast dump truck as claimed in claim 1, wherein: the front end of the left digging chain excavating mechanism (11) is connected with a left inclined conveying belt (7); the front end of the right digging chain digging mechanism (9) is connected with a right inclined conveyer belt (6).

3. The railway ballast dump truck as claimed in claim 2, wherein: one end of the left inclined conveying belt (7) is arranged on the left support (15), and the other end of the left inclined conveying belt is flexibly connected with the left digging chain mechanism (11) through a universal joint and can move longitudinally relative to the left digging chain mechanism.

4. The railway ballast dump truck of claim 2 or 3, wherein: a first left horizontal oil cylinder (14) is arranged below the left inclined conveying belt (7), and the left inclined conveying belt (7) and the left digging chain mechanism (11) horizontally extend and retract simultaneously under the action of the first left horizontal oil cylinder (14).

5. The railway ballast dump truck as claimed in claim 2, wherein: one end of the right inclined conveying belt (6) is arranged on the right bracket (28), and the other end of the right inclined conveying belt is flexibly connected with the right digging chain mechanism (9) through a universal joint and can move longitudinally and relatively.

6. The railway ballast dump truck of claim 2 or 5, wherein: a second right horizontal oil cylinder (29) is arranged below the right inclined conveying belt (6), and the right inclined conveying belt (6) and the right digging chain excavating mechanism (9) horizontally extend and retract simultaneously under the action of the second right horizontal oil cylinder (29).

7. The railway ballast dump truck of claim 1 or 2, wherein: the left chain digging mechanism (11) and the right chain digging mechanism (9) are respectively provided with a digging tooth (31), a digging chain (32), a ballast inlet (33) and a ballast outlet (34).

8. The railway ballast dump truck of claim 1 or 2, wherein: the left digging chain mechanism (11) is supported by a transverse supporting column A (17) and a transverse supporting column B (19); the left chain digging mechanism (11) is fixedly connected to the left chain digging support (20).

9. The railway ballast dump truck of claim 8, wherein: and a left lifting oil cylinder seat (18) is arranged on the transverse supporting column A (17) and the transverse supporting column B (19).

10. The railway ballast dump truck as claimed in claim 9, wherein: the left lifting cylinder base (18) is provided with a left lifting cylinder (21), and the left chain digging mechanism (11) rotates along the central line of the A transverse supporting column (17) under the action of the left lifting cylinder (21).

11. The railway ballast dump truck of claim 1 or 2, wherein: a second left horizontal oil cylinder (16) is arranged below the left chain digging mechanism (11), and the left chain digging mechanism (11) can horizontally extend out and retract under the action of the second left horizontal oil cylinder (16).

12. The railway ballast dump truck of claim 1 or 2, wherein: the right digging chain mechanism (9) is supported by a C transverse supporting column (24) and a D transverse supporting column (26); the right chain digging mechanism (9) is fixedly connected to the right chain digging support (23).

13. The railway ballast dump truck of claim 1 or 2, wherein: a first right horizontal oil cylinder (27) is arranged below the right chain digging mechanism (9), and the right chain digging mechanism (9) can horizontally extend out and retract under the action of the first right horizontal oil cylinder (27).

14. The railway ballast dump truck of claim 12, wherein: and a right lifting oil cylinder seat (25) is arranged on the C transverse supporting column (24) and the D transverse supporting column (26).

15. The railway ballast dump truck of claim 14, wherein: the right lifting cylinder (22) is arranged on the right lifting cylinder seat (25), and the right chain digging mechanism (9) rotates along the central line of the D transverse supporting column (26) under the action of the right lifting cylinder (22).

16. The railway ballast dump truck as claimed in claim 1, wherein: a supporting oil cylinder (36) and a folding oil cylinder (37) are arranged below the folding conveyor belt (3).

17. The railway ballast dump truck as claimed in claim 1, wherein: a left oil cylinder (43) is arranged below the left transverse conveying belt (5); a right oil cylinder (42) is arranged below the right transverse conveying belt (4).

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