CN210653402U - Transport vehicle for transporting railway rolling stock wheel pair - Google Patents

Transport vehicle for transporting railway rolling stock wheel pair Download PDF

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Publication number
CN210653402U
CN210653402U CN201921801264.1U CN201921801264U CN210653402U CN 210653402 U CN210653402 U CN 210653402U CN 201921801264 U CN201921801264 U CN 201921801264U CN 210653402 U CN210653402 U CN 210653402U
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China
Prior art keywords
vehicle
pushing
wheel
pair
rolling stock
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CN201921801264.1U
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Chinese (zh)
Inventor
焦万均
刘桓龙
方华
黄伟龙
邓仁陶
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Chengdu Suisheng Technology Co ltd
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Chengdu Suisheng Technology Co ltd
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Abstract

The utility model relates to the technical field of railway locomotive maintenance equipment, in particular to a transport vehicle for transporting railway locomotive vehicle wheel sets; the technical scheme is as follows: a transport vehicle for transporting wheel pairs of railway rolling stock comprises a vehicle body, wherein the vehicle body is provided with a motor driving system and further comprises a hydraulic auxiliary system, the hydraulic auxiliary system is in transmission connection with the motor driving system through a coupling mechanism, and the hydraulic auxiliary system is used for assisting in driving the vehicle body and recovering kinetic energy of the vehicle body; the vehicle body is provided with a pushing device, and the pushing device is used for pushing the wheel set. The utility model discloses can deliver to the maintenance district with railway locomotive wheel from the dismantlement to practice thrift the manual work, improve the work efficiency in workshop. The hydraulic auxiliary system is used for assisting in driving the vehicle body and assisting in accelerating, so that the service life of the power supply can be prolonged; meanwhile, the kinetic energy of the recovered vehicle body is converted into hydraulic energy to be stored, a certain braking torque is provided, and the abrasion of the brake structure of the transport vehicle can be reduced.

Description

Transport vehicle for transporting railway rolling stock wheel pair
Technical Field
The utility model relates to a railway locomotive maintenance of equipment technical field, concretely relates to transport vechicle for transporting railway rolling stock wheel pair.
Background
With the rapid development of the transportation industry, railways are used as important transportation channels to carry major transportation tasks. In the running process of the railway rolling stock, the wheel pair of the railway rolling stock is in a high-speed rotating state and bears the whole weight of the rolling stock; therefore, the wheel set is easy to break down during running, and the wheel set must be periodically overhauled to ensure the running safety of the vehicle. The existing maintenance mode is as follows: the wheelsets are removed by workers and pushed to an inspection site or temporary storage area via a specific ground track. The wheel set is manually pushed to advance, rotates under the action of inertia, and needs to be pushed again when the rotating speed is low, so that the manpower resource is greatly consumed; the track for dismounting the wheel pair from the locomotive to be conveyed to an overhaul point or a temporary storage area is long, multiple workers are required to operate simultaneously, and the working efficiency of a workshop is seriously reduced.
SUMMERY OF THE UTILITY MODEL
Aiming at the technical problems that when the wheel set of the existing railway rolling stock is overhauled, the wheel set needs to be manually pushed, human resources are consumed, a plurality of workers need to operate simultaneously, and the working efficiency of a workshop is seriously reduced; the utility model provides a transport vechicle for transporting rail rolling stock wheel pair can deliver to the maintenance district with rail rolling stock wheel pair from the dismantlement to practice thrift the manual work, improve the work efficiency in workshop.
The utility model discloses a following technical scheme realizes:
a transport vehicle for transporting wheel pairs of railway rolling stock comprises a vehicle body, wherein the vehicle body is provided with a motor driving system, and further comprises a hydraulic auxiliary system, the hydraulic auxiliary system is in transmission connection with the motor driving system through a coupling mechanism, and the hydraulic auxiliary system is used for assisting in driving the vehicle body, recovering the vehicle body and recovering the kinetic energy of the motor driving system; the vehicle body is provided with a pushing device, and the pushing device is used for pushing the wheel set.
The utility model discloses place the transport vechicle in the track of rail rolling stock wheel pair maintenance system during the use, through motor drive system drive transport vechicle to the thrust unit by the transport vechicle sends rail rolling stock wheel pair to the maintenance district from rail rolling stock, in order to practice thrift the manual work, improves the work efficiency in workshop. The hydraulic auxiliary system is used for assisting in driving the vehicle body and assisting in accelerating, so that current impact caused when the transport vehicle is started can be effectively avoided, and the service life of a power supply is prolonged. When the transport vehicle decelerates, the hydraulic auxiliary system converts the kinetic energy of the recovered vehicle body and the motor driving system into hydraulic energy to be stored, and simultaneously provides a certain braking torque to reduce the abrasion of the brake structure of the transport vehicle.
As a specific implementation mode of the pushing device, the pushing device comprises a pushing device body, a first pushing mechanism is arranged on one side of the upper end of the pushing device body, the first pushing mechanism is driven by a linear driver to lift, and the first pushing mechanism is used for pushing a wheel pair. The first propelling mechanism is driven by the linear driver to lift and descend, can work when propelling wheel pairs are needed, and can be folded when propelling wheel pairs are not needed, so that the first propelling mechanism can return in the track conveniently to propel the next wheel pair.
Furthermore, the pushing device is also provided with a fixing mechanism, the fixing mechanism is driven by the linear driver to lift, and the fixing mechanism is used for fixing the wheel pair and enabling the wheel pair to be static relative to the transport vehicle.
Furthermore, a steering device is arranged at one corner of the vehicle body, the steering device is driven by a linear driver to lift, and the steering device is used for driving the vehicle body to steer, so that the wheel pair can turn along with the track, the steering transportation of the wheel pair can be realized, and the vehicle is suitable for tracks with different curvatures.
Furthermore, a second propelling mechanism is further arranged at the upper end of the pushing device and driven by the linear driver to lift, and the second propelling mechanism is used for pushing the wheel pair away from the vehicle body.
As a specific embodiment of the steering device, the steering device includes a steering drive wheel that is driven by a rotary drive member.
Furthermore, the automobile body is equipped with the brake part, the brake part is located wheel pair direction of transportation front end, the brake part can be followed wheel pair axis direction by the drive of linear actuator and removed to on removing the brake part to the track of wheel pair direction of motion front end, with efficient wheel pair speed reduction.
Preferably, the height of the brake part in the vertical direction is adjustable, so that the contact area of the brake part and the ground rail is maximized, thereby improving the braking efficiency.
Furthermore, the vehicle body is also provided with a magnetic navigation assembly, and the magnetic navigation assembly is used for cooperating with a magnet on the ground to provide data for controlling the advancing route of the vehicle body, so that the transport route of the transport vehicle can be adjusted in real time, and the wheel set can always run along a ground track.
Preferably, the motor driving systems are provided with two groups, the hydraulic auxiliary system is provided with two hydraulic motors in parallel, and the two motor driving systems are respectively connected with the corresponding hydraulic motors through coupling mechanisms. The motor driving systems are respectively controlled to correct the deviation of the transport vehicle for transporting the wheel sets of the railway locomotive vehicle, so that the transport vehicle for transporting the wheel sets of the railway locomotive vehicle can move along a straight line.
Compared with the prior art, the utility model, following advantage and beneficial effect have:
1. the vehicle body is provided with a motor driving system, a hydraulic auxiliary system and a pushing device, wherein the hydraulic auxiliary system is used for assisting in driving the vehicle body and recovering kinetic energy of the vehicle body, and the pushing device is used for pushing the wheel pair. During the use, place the transport vechicle in the track of rail rolling stock wheel pair maintenance system, drive the transport vechicle through motor drive system to by the thrust unit of transport vechicle, send rail rolling stock wheel pair to the maintenance district from rail rolling stock, in order to practice thrift the manual work, improve the work efficiency in workshop.
2. The hydraulic auxiliary system is used for assisting in driving the vehicle body and assisting in accelerating, so that current impact caused when the transport vehicle is started can be effectively avoided, and the service life of a power supply is prolonged. When the transport vehicle decelerates, the hydraulic auxiliary system converts the kinetic energy of the recovered vehicle body into hydraulic energy to be stored, and meanwhile, a certain braking torque is provided, so that the abrasion of the brake structure of the transport vehicle is reduced.
Drawings
The accompanying drawings, which are included to provide a further understanding of the embodiments of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the principles of the invention. In the drawings:
FIG. 1 is a schematic structural view of a transportation vehicle for transporting a railway rolling stock wheel set;
FIG. 2 is a schematic view of a vehicle body structure;
FIG. 3 is a schematic view of a pushing device;
FIG. 4 is a schematic diagram of a first propulsion mechanism in a raised state;
FIG. 5 is a schematic diagram of a raised state of the fixing mechanism;
FIG. 6 is a schematic diagram of a second propulsion mechanism in a raised state;
FIG. 7 is a schematic view of a steering apparatus;
FIG. 8 is a schematic view of a brake part;
FIG. 9 is a schematic diagram of a hydraulic assist system.
Reference numbers and corresponding part names in the drawings:
100-vehicle body, 1-motor driving system, 2-hydraulic auxiliary system, 3-hydraulic motor, 4-coupling mechanism, 5-electromagnetic valve, 6-high pressure accumulator, 7-low pressure accumulator, 8-proportional pressure reducing valve, 9-overflow valve, 10-pressure transmitter, 11-manual stop valve, 12-vehicle body driving wheel, 20-pushing device, 21-pushing device body, 22-first propelling mechanism, 23-fixing mechanism, 24-steering device, 25-second propelling mechanism, 26-steering driving wheel, 27-braking part, 28-propelling plate, 29-clamping block, 30-propelling frame, 102-crawler belt and 103-power supply.
Detailed Description
To make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the following examples and drawings, and the exemplary embodiments and descriptions thereof of the present invention are only used for explaining the present invention, and are not intended as limitations of the present invention.
Example 1
A transport vehicle for transporting wheel pairs of a railway rolling stock comprises a vehicle body 100, wherein the vehicle body 100 is provided with a motor driving system 1, and the motor driving system 1 is used for driving the vehicle body 100. The driving mechanism of the vehicle body 100 may be a wheel type driving mechanism or a crawler type driving mechanism, and the embodiment adopts the crawler type driving mechanism, so that the friction force is large, and the maintenance is convenient. The vehicle further comprises a hydraulic auxiliary system 2, wherein the hydraulic auxiliary system 2 is in transmission connection with the motor driving system 1 through a coupling mechanism 4, and the hydraulic auxiliary system 2 is used for assisting in driving the vehicle body 100 and recovering the kinetic energy of the vehicle body 100, namely the hydraulic motor 3 is used as a motor and a hydraulic pump in the embodiment. The vehicle body 100 is provided with a pushing device 20, and the pushing device 20 is used for pushing the wheel pair.
In particular, in connection with fig. 9, the hydraulic auxiliary system 2 includes a hydraulic motor 3, an output end of the electric motor driving system 1 is connected with an output end of the hydraulic motor 3 through a coupling mechanism 4, and the coupling mechanism 4 may be a rotational speed coupling mechanism or a torque coupling mechanism, and the embodiment is preferably a planetary gear coupling mechanism, so as to connect the electric motor driving system 1 and the hydraulic auxiliary system 2 with a wheel or a driving shaft of a transport vehicle for transporting a wheel pair of a railway locomotive vehicle in a transmission manner.
The hydraulic motor 3 is respectively connected with the high-pressure energy accumulator 6 and the low-pressure energy accumulator 7 through the three-position four-way electromagnetic valve 5, and it can be understood that two interfaces of the hydraulic motor 3 are respectively connected with one of two interfaces on the same side of the electromagnetic valve 5, and the interfaces of the high-pressure energy accumulator 6 and the low-pressure energy accumulator 7 are respectively connected with one of two interfaces on the other side of the electromagnetic valve 5. By reversing the solenoid valve 5, three connection states of the hydraulic motor 3 can be realized: firstly, hydraulic oil in the high-pressure energy accumulator 6 flows to the hydraulic motor 3 and then flows to the low-pressure energy accumulator 7; secondly, all interfaces are closed; thirdly, hydraulic oil of the low-pressure energy accumulator 7 flows to the hydraulic motor 3 and then flows to the high-pressure energy accumulator 6; namely, the electromagnetic valve 5 is used for controlling the flow direction of the hydraulic oil and the flow of the hydraulic oil, and the low-pressure accumulator 7 is used for supplying the hydraulic oil to the hydraulic auxiliary system 2 and stabilizing the pressure of the system.
When the wheel pair maintenance trolley is used, the transport trolley is placed in a track of a railway rolling stock wheel pair maintenance system (the trolley does not fill liquid for the high-pressure energy accumulator 6 at first when the trolley starts to work, whether a hydraulic starting condition is met is judged by detecting the pressure of the high-pressure energy accumulator 6, pure hydraulic starting is met, and a motor is started if the hydraulic starting condition is not met), meanwhile, transport trolley wheels 12 used for transporting the railway rolling stock wheel pair are connected with the coupling mechanism 4, and the wheel pair is pushed by a pushing device 20 of the transport trolley. When the transport vehicle starts, the flow direction of the hydraulic oil is controlled by the electromagnetic valve 5, so that the direction of the hydraulic oil flowing through the hydraulic motor 3 is consistent with the rotation direction of the wheels 12. The hydraulic motor 3 is used as a hydraulic motor, all power is provided by the hydraulic auxiliary system 2 to drive the transport vehicle for transporting the railway rolling stock wheel pair, current impact on a power supply when the transport vehicle for transporting the railway rolling stock wheel pair is started can be effectively avoided, and the service life of the power supply is prolonged. Similarly, when the transport vehicle accelerates, the high-pressure oil released by the high-pressure accumulator 6 drives the hydraulic motor 3 to rotate, assisting in acceleration.
When the transport vehicle brakes, the control electromagnetic valve 5 is reversed, so that the direction of hydraulic oil flowing through the hydraulic motor 3 is opposite to the rotation direction of the wheels 12, and the kinetic energy of the transport vehicle is converted into hydraulic energy through the hydraulic motor 3 and stored in the high-pressure accumulator 6. That is, the hydraulic motor 3 is used as a hydraulic pump to charge the high-pressure accumulator 6, and energy is recovered by the hydraulic motor 3. And simultaneously provides a certain braking torque to reduce the abrasion of the brake structure of the transport vehicle for transporting the wheel pairs of the railway rolling stock. And finally, the wheel set of the railway locomotive vehicle is sent to an overhaul area from the railway locomotive so as to save labor and improve the working efficiency of a workshop. For the reversing of the electromagnetic valve 5 and the starting, stopping and controlling of the motor driving system, the PLC is usually adopted for controlling, and a remote control device is matched for monitoring the transport vehicle; the battery state and other information of the transport vehicle and possible fault information are displayed in real time through the remote control device, so that operators on duty can manage the transport vehicle in a unified mode.
Referring to fig. 4, as a specific embodiment of the pushing device 20, the pushing device 20 includes a pushing device body 21, and a first pushing mechanism 22 is disposed on one side of an upper end of the pushing device body 21. The first propelling mechanism 22 is driven by a linear driver to lift, such as a screw rod driven by a motor, a linear motor, an electric push rod, a pneumatic/hydraulic cylinder and the like; in the present embodiment, the linear actuators not described are all air/hydraulic cylinders, and have a small size, simple control, and a large output torque. The first propulsion mechanism 22 is provided with a fixing portion adapted to the axle of the wheel set for propelling the wheel set, preventing the wheel set from moving relative to the first propulsion mechanism 22 during the propelling process.
Wherein, the first propelling mechanism 22 can be vertically lifted or turned over to lift; in the present embodiment, in order to reduce the volume of the pushing device 20, the first pushing mechanism 22 is selectively lifted and lowered in an overturning manner. Specifically, the first pushing mechanism 22 includes a pushing plate 28, one side of the pushing plate 28 is hinged to one side of the pushing device body 21, and the middle portion of the pushing plate 28 is connected to the pushing device body 21 through a linear actuator. The linear driver of the first propulsion mechanism 22 is hinged at one end to the propulsion plate 28 and at the other end to the propulsion device body 21. Two V-shaped clamping blocks 29 are arranged on the inner side of the pushing plate 28, and the notches of the clamping blocks 29 are clamped outside the wheel shaft when in use. The first propulsion mechanism 22 is driven by the linear driver to lift and lower, and can work when the propulsion wheel pair is needed, and can be folded when the propulsion wheel does not need to move, so that the first propulsion mechanism can return in the track to propel the next wheel pair.
Example 2
Based on embodiment 1, a proportional pressure reducing valve 8 is connected between the high-pressure accumulator 6 and the electromagnetic valve 5, and the proportional pressure reducing valve 8 is used for stabilizing the hydraulic pressure output by the high-pressure accumulator 6. It can be known that the proportional pressure reducing valve 8 not only can reduce the hydraulic pressure output by the high-pressure accumulator 6, but also can adjust the magnitude of the output pressure in real time so as to ensure that the transport vehicle for transporting the wheel pairs of the railway rolling stock runs stably.
Preferably, an overflow valve 9 is connected between the high-pressure accumulator 6 and the low-pressure accumulator 7, and the overflow valve 9 is used for protecting the hydraulic auxiliary system. That is, the relief valve 9 is used as a safety valve, and can relieve the pressure in the pipe between the high-pressure accumulator 6 and the solenoid valve 5 and the pipe between the low-pressure accumulator 7 and the solenoid valve 5, thereby preventing the pressure in the hydraulic assist system 2 from being excessive.
Preferably, a pressure transmitter 10 is arranged between the proportional pressure reducing valve 8 and the electromagnetic valve 5. The pressure input into the high-pressure energy accumulator 6 or the pressure output by the high-pressure energy accumulator 6 after being decompressed by the proportional pressure reducing valve 8 is monitored in real time, and data support is provided for the control of the electromagnetic valve 5; the reading of the pressure transmitter 10 also makes it possible to detect a malfunction of the hydraulic assistance system 2 in time and to perform maintenance on the hydraulic assistance system 2 in time.
Preferably, the connecting ends of the high-pressure energy accumulator 6 and the low-pressure energy accumulator 7 are respectively provided with a manual stop valve 11. That is, the high pressure accumulator 6 and the low pressure accumulator 7 may be manually shut off to allow maintenance of the hydraulic assist system in the event of a system failure.
Preferably, the motor driving systems 1 are provided with two groups, the hydraulic auxiliary system 2 is provided with two hydraulic motors 3 in parallel, and the two motor driving systems 1 are respectively connected with the corresponding hydraulic motors 3 through coupling mechanisms 4. It can be understood that the coupling means 4 are likewise provided in two groups; when in use, the coupling mechanisms 4 are respectively in transmission connection with wheels at two ends of a driving shaft of the transport vehicle. The motor driving systems 1 at two ends of the driving shaft of the transport vehicle are respectively controlled to correct the transport vehicle, so that the transport vehicle is ensured to move along a straight line. The hydraulic motor 3 is arranged in a parallel connection mode, so that the hydraulic auxiliary system 2 can be simplified; on the other hand, the pressure obtained by the two hydraulic motors 3 can be ensured to be consistent, and the transport vehicle can further move along a straight line.
Example 3
Based on embodiment 1 or 2, the pushing device 20 is further provided with a fixing mechanism 23, and the fixing mechanism 23 is driven by a linear driver to lift. Specifically, the top of the fixing mechanism 23 is also provided with a V-shaped fixture block 29, and the wheel pair is jacked up and fixed by extending the fixing mechanism 23 under the driving of the linear driver. Namely, the fixing mechanism 23 is used for fixing the wheel pair, so that the wheel pair can be static relative to the transport vehicle, and the steering of the wheel pair can be realized.
Further, a steering device 24 is arranged at one corner of the vehicle body 100, and the steering device 24 is driven by a linear driver to ascend and descend. It will be appreciated that the steering device 24 is off the ground when not in operation, and that in operation the vehicle stops advancing and the drive components of the steering device 24 are driven by the linear actuator to contact the ground and jack the end of the vehicle body 100. The vehicle body 100 is driven to rotate on the ground by a driving component of the steering device 24, such as the steering driving wheel 26, that is, the steering device 24 is used for driving the vehicle body 100 to steer, so that the wheel pair turns along the track, the steering transportation of the wheel pair is realized, and the vehicle is suitable for tracks with different curvatures. In the maintenance of the wheel pair, a turning point of the wheel pair transportation track is generally provided with a turntable, the transportation vehicle and the wheel pair are positioned above the turntable, and the steering driving wheel 26 descends to the ground during turning, namely the steering driving wheel 26 is supported outside the turntable, and the turntable is driven to rotate by the rotation of the steering driving wheel 26, so that the steering of the wheel pair is completed.
Further, a second pushing mechanism 25 is further disposed at the upper end of the pushing device 20, the second pushing mechanism 25 is driven by the linear driver to lift, and the second pushing mechanism 25 is used for pushing the wheel pair away from the vehicle body 100. It will be appreciated that the lifting of the second propulsion mechanism 25 is used to push the wheel pair originally fixed to the fixing mechanism 23 away from the vehicle body 100, and it should be ensured that the movement of the second propulsion mechanism 25 and the movement of the first propulsion mechanism 22 and the fixing mechanism 23 do not interfere with each other.
As a specific embodiment of the second pushing mechanism 25, the second pushing mechanism 25 includes a pushing frame 30, and one side of the pushing frame 30 is hinged to one side of the pushing device body 21 opposite to the pushing plate 28, that is, the pushing frame 30 and the pushing plate 28 are respectively hinged to two opposite sides of the pushing device body 21. The middle part of the pushing frame 30 is connected with the pushing device body 21 through a linear driver. The linear driver of the second propulsion mechanism 25 is hinged at one end to the propulsion frame 30 and at the other end to the propulsion device body 21. Of course, a linear lifting mode may be adopted, and the upper end of the corresponding second propulsion mechanism 25 is a tilted plate or a tilted rod which is tilted downward.
As a specific embodiment of the steering device 24, the steering device 24 includes a steering driving wheel 26, and the steering driving wheel 26 is driven by a rotary driving member, such as an electric motor, a hydraulic motor, and the like.
Example 4
Based on implementation 3, the vehicle body is provided with brake 27, brake 27 is located wheel set direction of transportation front end, is located the front end of transport vechicle automobile body 100 promptly. The brake part 27 is driven by a linear driver to move along the axial direction of the wheel pair so as to move the brake part 27 to the track at the front end of the motion direction of the wheel pair, thereby efficiently reducing the speed of the wheel pair. The brake part 27 is usually made of rubber, and one side of the brake part is made into a cambered surface matched with the wheel of the wheel set so that the brake part 27 is attached to the wheel of the wheel set.
Preferably, the height of the brake part 27 is adjustable in a vertical direction, that is, the brake part 27 is driven by two separate linear drivers and can move in a vertical plane, so that the contact area of the brake part 27 and the ground rail is maximized, thereby improving the braking efficiency.
Example 5
According to any of the above embodiments, the vehicle body 100 is further provided with a magnetic navigation component, such as a magnetic induction coil, a hall element, an electromagnet, and other peripheral circuits. The magnetic navigation assembly is used for matching with a magnet on the ground to provide data for controlling the advancing route of the vehicle body, so that the transport line of the transport vehicle can be adjusted in real time, and the wheel pair can always run along a ground track.
The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above description is only the embodiments of the present invention, and is not intended to limit the scope of the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. A carriage for transporting wheel pairs of a railway rolling stock, comprising a body (100), said body (100) being provided with a motor drive system (1), characterized in that: the hydraulic auxiliary system (2) is in transmission connection with the motor driving system (1) through a coupling mechanism (4), and the hydraulic auxiliary system (2) is used for assisting in driving the vehicle body (100) and recovering kinetic energy of the vehicle body (100); the vehicle body (100) is provided with a pushing device (20), and the pushing device (20) is used for pushing the wheel pair.
2. A carriage for transporting a pair of railway rolling stock wheels, as claimed in claim 1, wherein: the pushing device (20) comprises a pushing device body (21), a first pushing mechanism (22) is arranged on one side of the upper end of the pushing device body (21), the first pushing mechanism (22) is driven by a linear driver to lift, and the first pushing mechanism (22) is used for pushing a wheel pair.
3. A carriage for transporting a pair of railway rolling stock wheels, as claimed in claim 2, wherein: the pushing device (20) is further provided with a fixing mechanism (23), the fixing mechanism (23) is driven by a linear driver to lift, and the fixing mechanism (23) is used for fixing the wheel pair.
4. A carriage for transporting a pair of railway rolling stock wheels according to claim 3, characterized in that: a steering device (24) is arranged at one corner of the vehicle body (100), the steering device (24) is driven by a linear driver to lift, and the steering device (24) is used for driving the vehicle body (100) to steer.
5. A vehicle for transporting a pair of railway rolling stock wheels, according to claim 4, wherein: the upper end of the pushing device (20) is further provided with a second pushing mechanism (25), the second pushing mechanism (25) is driven by a linear driver to lift, and the second pushing mechanism (25) is used for pushing the wheel pair away from the vehicle body (100).
6. A vehicle for transporting a pair of railway rolling stock wheels, according to claim 4, wherein: the steering device (24) comprises a steering drive wheel (26), the steering drive wheel (26) being driven by a rotary drive member.
7. A carrier vehicle for transporting a pair of railway rolling stock wheels according to any one of claims 1 to 6, wherein: the automobile body (100) is equipped with brake part (27), brake part (27) are located wheel pair direction of transportation front end, brake part (27) can be followed wheel pair axis direction by the drive of linear actuator and removed.
8. A carriage for transporting a pair of railway rolling stock wheels according to claim 7, characterized in that: the height of the brake part (27) in the vertical direction is adjustable.
9. A carriage for transporting a pair of railway rolling stock wheels according to claim 7, characterized in that: the vehicle body (100) is further provided with a magnetic navigation assembly for cooperating with a magnet on the ground to provide data for controlling the advancing path of the vehicle body (100).
10. A carriage for transporting a pair of railway rolling stock wheels, as claimed in claim 1, wherein: the hydraulic motor driving system is characterized in that the motor driving systems (1) are provided with two groups, the hydraulic auxiliary system (2) is provided with two hydraulic motors (3) in parallel, and the two motor driving systems (1) are connected with the corresponding hydraulic motors (3) through coupling mechanisms (4) respectively.
CN201921801264.1U 2019-10-24 2019-10-24 Transport vehicle for transporting railway rolling stock wheel pair Active CN210653402U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201921801264.1U CN210653402U (en) 2019-10-24 2019-10-24 Transport vehicle for transporting railway rolling stock wheel pair

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201921801264.1U CN210653402U (en) 2019-10-24 2019-10-24 Transport vehicle for transporting railway rolling stock wheel pair

Publications (1)

Publication Number Publication Date
CN210653402U true CN210653402U (en) 2020-06-02

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CN201921801264.1U Active CN210653402U (en) 2019-10-24 2019-10-24 Transport vehicle for transporting railway rolling stock wheel pair

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111731341A (en) * 2020-06-17 2020-10-02 成都岁生科技有限责任公司 Train wheel pair pushing and steering moving system

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN111731341A (en) * 2020-06-17 2020-10-02 成都岁生科技有限责任公司 Train wheel pair pushing and steering moving system
CN111731341B (en) * 2020-06-17 2021-06-29 成都岁生科技有限责任公司 Train wheel pair pushing and steering moving system

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