CN113047095A - Traffic track roadbed construction system for realizing track reconstruction - Google Patents

Abstract

The invention discloses a traffic track roadbed construction system for realizing track reconstruction, which comprises a shell, wherein a stirring cavity with a leftward opening is arranged in the shell, a stirrer is arranged in the stirring cavity, and a connecting block is fixedly connected to the lower side of the connecting part of the shell and the stirring cavity; the device has a simple structure, the discharging pipe can be freely moved up and down and back and forth by the moving device, cement can be conveniently laid on a specified foundation, the mechanical laying replaces manual laying, the laying efficiency of the cement ground is greatly improved, the crushing device can crush large fixed cement blocks on the original ballast track, the device is used for manufacturing new cement, the new foundation can be developed while local materials are used, resources are saved, the device can be freely moved to a position needing to work by the rotating device, and the total construction period for building the ballastless track is greatly reduced.

Description

Traffic track roadbed construction system for realizing track reconstruction

Technical Field

The invention relates to the technical field of traffic track subgrades, in particular to a traffic track subgrade construction system for realizing track reconstruction.

Background

Compared with a ballast track, the ballastless track avoids the splashing of the ballast, has good smoothness, good stability, long service life, good durability, less maintenance work and greatly improved train running speed, so the ballastless track gradually becomes a main train traffic track in China.

Disclosure of Invention

The invention aims to provide a traffic track roadbed construction system for realizing track reconstruction, which is used for overcoming the defects in the prior art.

The invention relates to a traffic track roadbed construction system for realizing track reconstruction, which comprises a shell, wherein a stirring cavity with a left opening is arranged in the shell, a stirrer is arranged in the stirring cavity, a connecting block is fixedly connected to the lower side of the joint of the shell and the stirring cavity, a first blocking cavity penetrating through the left wall of the shell is arranged on the upper side of the stirring cavity, a first blocking block capable of extending to the left wall of the shell is connected in a sliding manner in the first blocking cavity, a first driving cavity is communicated with the upper side of the first blocking cavity, a first electric slide rail capable of driving the first blocking block to move is fixedly connected to the inner wall of the first driving cavity, a conveying cavity is communicated with the right side of the stirring cavity, a second blocking cavity is communicated with the upper wall of the conveying cavity, a second blocking block capable of extending into the conveying cavity is connected in a pinching and sliding manner in the second blocking cavity, and a second driving cavity is communicated with the right wall of the second blocking cavity, the second driving cavity is internally and fixedly connected with a second electric slide rail which can drive the second blocking block to move, the right wall of the conveying cavity is rotatably connected with a second feeding shaft, the right wall of the second feeding shaft is fixedly connected with a second motor, the right side of the stirring cavity is fixedly provided with a water storage cavity, the water storage cavity is communicated with the stirring cavity through a water suction pipe, the water suction pipe is fixedly provided with a water suction pump, the right side of the water storage cavity is communicated with a water replenishing pipe which penetrates through the right wall of the shell, the upper side of the water storage cavity is fixedly provided with a raw material cavity, the raw material cavity is communicated with the stirring cavity through the conveying cavity, the right side of the raw material cavity is rotatably connected with a first feeding shaft which extends into the stirring cavity, the right side of the first feeding shaft is fixedly connected with a first motor, the lower side of the water storage cavity is fixedly provided with a discharging cavity which penetrates through the right wall of the shell, the bottom wall of the connecting cavity is fixedly connected with a telescopic pipe, the bottom end of the telescopic pipe is fixedly connected with a discharge pipe extending to the outer side of the shell, the right wall of the discharge pipe is rotationally connected with a third conveying shaft, the right wall of the third conveying shaft is fixedly connected with a third motor, a moving device capable of driving the discharging cavity to move is arranged in the discharging cavity, the bottom wall of the shell is fixedly connected with a rotating block, the rotating block is provided with a circle of rotating groove with an outward opening, a long rod is connected in the rotating groove in a sliding way, a third electric slide rail capable of driving the long rod to move is fixedly connected in the rotating groove, a crushing device capable of crushing large stones is arranged on the long rod, install in the rotating block and can drive shell pivoted rotating device, stirring chamber downside has set firmly the excavation chamber, install the excavator in the excavation chamber.

Optionally, the moving device includes two auxiliary moving blocks which are symmetrical in left and right positions and fixedly connected to the top wall of the discharging cavity, a moving groove which penetrates through the discharging cavity from front to back is formed in each auxiliary moving block, a moving block is connected in the moving groove in a sliding manner, a second threaded shaft which is connected with the moving block in a threaded manner is rotatably connected to the rear wall of each moving groove, a second motor is fixedly mounted on the rear wall of the second threaded shaft on the right side, belt wheels are fixedly connected to the second threaded shaft, the two belt wheels are driven by a belt, an extension cavity with a downward opening is formed in each moving block, an extension block which is fixedly connected to the upper wall of the discharging pipe is connected in the extension cavity in a sliding manner, a first motor is fixedly connected to the top wall of the extension cavity, and a first threaded shaft which.

Optionally, the breaker including set firmly in the broken shell of stock diapire, be equipped with the broken chamber that the opening is decurrent in the broken shell, broken chamber roof fixedly connected with third motor, the integral key shaft is installed to third motor diapire, splined connection has the drill bit on the integral key shaft, drill bit lateral wall threaded connection have with broken intracavity wall fixed connection's first nut.

Optionally, rotating device including set firmly in the rotation chamber in the turning block, it is connected with the worm wheel to rotate through the pivot in the rotation chamber, the worm wheel right side meshing has the back wall to install the worm of fourth motor, worm wheel diapire fixedly connected with extends to the axis of rotation in the turning block outside, the axis of rotation diapire rotates and is connected with the fixed block, two front and back position symmetry's movers are installed to the fixed block diapire.

The invention has the beneficial effects that:

firstly, the method comprises the following steps: the moving device is arranged in the concrete pile foundation paving machine, so that the discharge pipe can be freely moved up and down and back and forth, cement can be conveniently paved on a specified foundation, the mechanical paving replaces manual paving, the paving efficiency of a cement ground is greatly improved, and after the reinforcing steel frames are laid, the discharge points of the cement can be better controlled and changed, so that the cement can quickly and uniformly cover the reinforcing steel frames, the construction period is shortened, and the working efficiency is improved.

Secondly, the method comprises the following steps: can be with the large-scale fixed cement piece breakage on the ballast track originally through breaker for new cement makes, also can open up out new ground when the resources are saved to the local materials, and the development of ground and the basic consolidation of ground are built and are gone on simultaneously, improve work efficiency.

Thirdly, the method comprises the following steps: the invention can realize simultaneous operation of one track and a plurality of tracks, greatly reduces the total construction period of building the ballastless track, has strong internal function integration, can realize the functions of various large-scale instruments, has only remote operation, has no influence on the working efficiency by weather, and reduces the possible harm of workers in the work of a construction site.

Fourthly: the invention aims to directly reform the original ballast track into the ballastless track under the condition that the foundation conforms to, thereby reasonably utilizing the existing resources to protect the environment, shortening the construction period of the high-speed rail track and improving the construction efficiency.

Drawings

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention; it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

Fig. 1 is a schematic structural diagram of a traffic track subgrade construction system for implementing track reconstruction according to the invention;

FIG. 2 is a schematic view of the internal structure of FIG. 1;

FIG. 3 is a schematic view of the third feed shaft of FIG. 2;

FIG. 4 is a schematic view of the crushing unit of FIG. 2;

FIG. 5 is a schematic diagram of the structure of the mobile device of FIG. 2;

fig. 6 is a schematic diagram showing a right-side structure of the moving block 51 in fig. 5.

Detailed Description

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1-6, a traffic track roadbed construction system for realizing track reconstruction according to an embodiment of the invention includes a housing 11, a stirring chamber 22 with a leftward opening is provided in the housing 11, a stirrer 21 is provided in the stirring chamber 22, an engagement block 13 is fixedly connected to a lower side of a connection portion between the housing 11 and the stirring chamber 22, a first blocking chamber 23 penetrating through a left wall of the housing 11 is provided on an upper side of the stirring chamber 22, a first blocking block 24 capable of extending to the left wall of the housing 11 is slidably connected in the first blocking chamber 23, a first driving chamber 25 is provided in communication with an upper side of the first blocking chamber 23, a first electric slide rail 26 capable of driving the first blocking block 24 to move is fixedly connected to an inner wall of the first driving chamber 25, a conveying chamber 35 is provided in communication with a right side of the stirring chamber 22, a second blocking chamber 36 is provided in communication with an upper wall of the conveying chamber 35, the second blocking cavity 36 is connected with a second blocking block 37 capable of extending into the conveying cavity 35 in a pinching and sliding manner, the right wall of the second blocking cavity 36 is communicated with a second driving cavity 38, the second driving cavity 38 is fixedly connected with a second electric slide rail 39 capable of driving the second blocking block 36 to move, the right wall of the conveying cavity 35 is connected with a second feeding shaft 40 in a rotating manner, the right wall of the second feeding shaft 40 is fixedly connected with a second motor 41, the right side of the stirring cavity 22 is fixedly provided with a water storage cavity 28, the water storage cavity 28 is communicated with the stirring cavity 22 through a water suction pipe 33, the water suction pipe 33 is fixedly provided with a water suction pump 34, the right side of the water storage cavity 28 is communicated with a water replenishing pipe 32 penetrating through the right wall of the shell 11, the upper side of the water storage cavity 28 is fixedly provided with a raw material cavity 27, the raw material cavity 27 is communicated with the stirring cavity 22 through the conveying cavity 29, the right side of the raw material cavity 27 is connected with a first feeding shaft 30 extending into the stirring cavity 22 in, the right side of the first feeding shaft 30 is fixedly connected with a first motor 31, the lower side of the water storage cavity 28 is fixedly provided with a discharging cavity 43 penetrating through the right wall of the shell 11, the discharging cavity 43 is communicated with the conveying cavity 35 through a connecting cavity 42, the bottom wall of the connecting cavity 42 is fixedly connected with a telescopic pipe 46, the bottom end of the telescopic pipe 46 is fixedly connected with a discharging pipe 47 extending to the outer side of the shell 11, the right wall of the discharging pipe 47 is rotatably connected with a third conveying shaft 48, the right wall of the third conveying shaft 48 is fixedly connected with a third motor 49, a moving device 101 capable of driving the discharging cavity 47 to move is installed in the discharging cavity 43, the bottom wall of the shell 11 is fixedly connected with a rotating block 15, a circle of rotating groove 76 with an outward opening is formed in the rotating block 15, a long rod 14 is slidably connected in the rotating groove 76, and a third electric slide rail 77 capable of driving the long rod 14 to move is fixedly connected in the, the crushing device 102 capable of crushing large stones is installed on the long rod 14, the rotating device 103 capable of driving the shell 11 to rotate is installed in the rotating block 15, the excavating cavity 44 is fixedly arranged on the lower side of the stirring cavity 22, and the excavator 45 is installed in the excavating cavity 44.

Preferably, the moving device 101 includes two auxiliary moving blocks 51 which are symmetrical in left and right positions and fixedly connected to the top wall of the discharging cavity 43, a moving groove 66 which penetrates through the auxiliary moving block 51 in front and back is arranged in the auxiliary moving block 51, a moving block 67 is connected in the moving groove 66 in a sliding manner, a second threaded shaft 68 which is connected with the moving block 67 in a threaded manner is rotatably connected to the rear wall of the moving groove 66, a second motor 75 is fixedly installed on the rear wall of the second threaded shaft 68 on the right side, a pulley 73 is fixedly connected to the second threaded shaft 68, the two pulleys 73 are driven by a belt 74, an extension cavity 69 with a downward opening is arranged in the moving block 67, an extension block 72 which is fixedly connected to the upper wall of the discharging pipe 47 is connected in the extension cavity 69 in a sliding manner, a first motor 72 is fixedly connected to the top wall of the extension cavity 69, and a first threaded shaft 71 which is connected, the second motor 75 is started to drive the right second threaded shaft 68 to rotate, the right second threaded shaft 69 drives the rear bean threaded shaft 68 to rotate through the belt wheel 75 and the belt 74, the threaded shaft 78 rotates to drive the moving block 67 to move back and forth, the moving block 67 drives the discharging pipe 47 to move back and forth, the first motor 70 is started to drive the first threaded shaft 71 to rotate, the first threaded shaft 71 drives the extension block 72 to move up and down, the extension block 72 drives the discharging pipe 47 to move up and down, the discharging pipe 47 can be freely moved up and down and back and forth by the moving device 101, so that cement can be conveniently paved on a specified foundation, the mechanical paving replaces manual paving, the paving efficiency of the cement ground is greatly improved, and after the reinforcing steel bar frames are arranged, the discharging points of the cement are better controlled and changed, so that the reinforcing steel bar frames can be quickly and uniformly covered by the cement, the construction period is shortened, and the working efficiency is improved.

Preferably, the crushing device 102 comprises a crushing shell 54 fixedly arranged on the bottom wall of the long rod 14, a crushing cavity 55 with a downward opening is arranged in the crushing shell 54, a third motor 56 is fixedly connected to the top wall of the crushing cavity 55, a spline shaft 57 is mounted on the bottom wall of the third motor 56, a drill bit 58 is connected to the spline shaft 57 through a spline, a first nut 59 fixedly connected to the inner wall of the crushing cavity 55 is in threaded connection with the outer side wall of the drill bit 58, the third motor 56 is started to drive the spline to rotate 57, the spline shaft 57 drives the drill bit 58 to rotate and move downwards through the matching of the nut 59, large fixed cement blocks on the original ballast track can be crushed through the crushing device 102, the crushing device is used for manufacturing new cement, materials are used on the spot, resources are saved, a new foundation can be developed, and the foundation development and foundation consolidation construction are carried out simultaneously, the working efficiency is improved.

Preferably, the rotating device 103 comprises a rotating cavity 60 fixedly arranged in the rotating block 15, a worm wheel 61 is rotatably connected in the rotating cavity 60 through a rotating shaft, a worm 62 with a fourth motor is engaged on the right side of the worm wheel 61, a rotating shaft 19 extending to the outer side of the rotating block 15 is fixedly connected to the bottom wall of the worm wheel 61, a fixed block 80 is rotatably connected to the bottom wall of the rotating shaft 19, two movers 20 with symmetrical front and back positions are mounted on the bottom wall of the fixed block 80, the fourth motor is started to drive the worm 62 to rotate, the worm 62 drives the worm wheel 61 to rotate, the worm wheel 61 drives the rotating shaft 19 to rotate, the rotating shaft 19 drives the housing 11 to rotate through the rotating block 15, the movers 20 are started to drive the housing 11 to move, the invention can be freely moved to a position needing to work through the rotating device 103, and the distance between the two move, the invention has strong internal function integration, can simultaneously realize the functions of various large-scale instruments, can only be operated remotely, has no influence on the working efficiency by weather, and reduces the possible damage of workers in the work of a construction site.

In the initial state, the mixer 21 is closed, the first electric slide rail 26 is closed, the first blocking block 24 is in contact with the left wall of the housing 11, the mixing chamber 22 is closed, the mixer 21 is closed, the suction pump 34 is closed, the second electric slide rail 39 is closed, the first motor 31 is closed, the second motor 41 is closed, the third motor 49 is closed, the first motor 70 is closed, the second threaded shaft 75 is closed, the third electric slide rail 77 is closed, the second motor 75 is closed, the excavator 45 is closed, the third motor 56 is closed, the fourth motor is closed, and the mover 20 is closed.

When the concrete pouring machine needs to work, the concrete pouring machine is driven to move to the position above a ballast track through the moving device 20, the crushing device 102 is started to crush cement blocks on the original ballast track after the position is determined, then the excavator 45 is started to convey the crushed cement blocks and crushed stone into the stirring cavity 22, water and raw materials are injected, the stirrer 21 is started, the second motor 41 is started to drive the second feeding shaft 40 to convey the stirred cement to the subgrade of the excavated ballast-free track through the matching of the moving device 101 and the discharge pipe 47 after the stirring is completed, the third motor 49 is started to drive the third feeding shaft 48 to rotate during the conveying, and after a worker finishes the construction of a steel bar frame for the first time, the rotating device 103 is started to drive the shell 11 to rotate to the opposite direction, and then the cement can be paved and reinforced foundation again through the moving device 101 and the discharge pipe 47.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (4)

1. The utility model provides a realize traffic track road bed construction system of track rebuilding, includes the shell, its characterized in that: a stirring cavity with a leftward opening is arranged in the shell, a stirrer is arranged in the stirring cavity, a connecting block is fixedly connected to the lower side of the joint of the shell and the stirring cavity, a first blocking cavity penetrating through the left wall of the shell is arranged on the upper side of the stirring cavity, a first blocking block capable of extending to the left wall of the shell is connected in a sliding mode in the first blocking cavity, a first driving cavity is communicated with the upper side of the first blocking cavity, a first electric slide rail capable of driving the first blocking block to move is fixedly connected to the inner wall of the first driving cavity, a conveying cavity is communicated with the right side of the stirring cavity, a second blocking cavity is communicated with the upper wall of the conveying cavity, a second blocking block capable of extending to the conveying cavity is connected in a pinching and sliding mode in the second blocking cavity, a second driving cavity is communicated with the right wall of the second blocking cavity, and a second electric slide rail capable of driving the second blocking block to move is fixedly connected in the second driving cavity, the right wall of the conveying cavity is rotatably connected with a second feeding shaft, the right wall of the second feeding shaft is fixedly connected with a second motor, the right side of the stirring cavity is fixedly provided with a water storage cavity, the water storage cavity is communicated with the stirring cavity through a water suction pipe, the water suction pipe is fixedly provided with a water suction pump, the right side of the water storage cavity is communicated with a water replenishing pipe penetrating through the right wall of the shell, the upper side of the water storage cavity is fixedly provided with a raw material cavity, the raw material cavity is communicated with the stirring cavity through the conveying cavity, the right side of the raw material cavity is rotatably connected with a first feeding shaft extending into the stirring cavity, the right side of the first feeding shaft is fixedly connected with a first motor, the lower side of the water storage cavity is fixedly provided with a discharging cavity penetrating through the right wall of the shell, the discharging cavity is communicated with the conveying cavity through a connecting cavity, the bottom wall of the connecting cavity is fixedly connected with a telescopic pipe, the utility model discloses a quick-witted including discharging pipe, shell diapire fixedly connected with turning block, shell pivoted rotating device, stirring chamber downside has set firmly the excavation chamber, the wall is rotated on the discharging pipe right side is connected with third conveying axle, third conveying axle right side wall fixedly connected with third motor, install in the ejection of compact intracavity and can drive the mobile device that the ejection of compact chamber removed, shell diapire fixedly connected with turning block, be equipped with the outside rotation groove of round opening on the turning block, it has the stock to rotate inslot sliding connection, it can drive to rotate inslot fixedly connected with the electronic slide rail of third that the stock removed, install on the stock and to drive the broken breaker of big stone, install in the turning block and to drive shell pivoted rotating device, stirring chamber downside has set firmly the excavation chamber.

2. A traffic track roadbed construction system for realizing track reconstruction according to claim 1, wherein: the moving device comprises two auxiliary moving blocks which are symmetrical in left and right positions and fixedly connected to the top wall of the discharging cavity, a moving groove which penetrates through the discharging cavity is formed in each auxiliary moving block, a moving block is connected in the moving groove in a sliding mode, a second threaded shaft in threaded connection with the moving block is rotatably connected to the rear wall of each moving groove, a second motor is fixedly mounted on the rear wall of the second threaded shaft on the right side, belt wheels are fixedly connected to the second threaded shaft, the two belt wheels are driven through belts, an extension cavity with a downward opening is formed in each moving block, an extension block fixedly connected to the upper wall of the discharging pipe is connected in the extension cavity in a sliding mode, a first motor is fixedly connected to the top wall of the extension cavity, and a first threaded shaft in threaded connection with the extension block is mounted on the bottom.

3. A traffic track roadbed construction system for realizing track reconstruction according to claim 1, wherein: the breaker including set firmly in the broken shell of stock diapire, be equipped with the broken chamber that the opening is decurrent in the broken shell, broken chamber roof fixedly connected with third motor, the integral key shaft is installed to third motor diapire, splined connection has the drill bit on the integral key shaft, drill bit lateral wall threaded connection have with broken intracavity wall fixed connection's first nut.

4. A traffic track roadbed construction system for realizing track reconstruction according to claim 1, wherein: rotating device including set firmly in the rotation chamber in the turning block, it is connected with the worm wheel to rotate through the pivot in the rotation chamber, the worm wheel right side meshing has the back wall to install the worm of fourth motor, worm wheel diapire fixedly connected with extends to the axis of rotation in the turning block outside, the axis of rotation diapire rotates and is connected with the fixed block, two front and back position symmetry's movers are installed to the fixed block diapire.

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