KR20130071294A - Independence rotating wheels suspension apparatus for low-floor vehicle - Google Patents

Abstract

PURPOSE: A steering device for a high speed low-floor independence wheel type is provided to increase a sense of security in a driving of a vehicle by controlling a stiffness of a steering bar according to a velocity of the vehicle. CONSTITUTION: A steering device for a high speed low-floor independence wheel type(200) comprises a bracket(210), and a steering bar(230). The bracket is equipped to be enable to a steering in a bogie frame(100). A wheel(110) is installed in the bracket. The steering bar is connected to one side of the bracket. The steering bar is steering the bracket by controlling a rigidity by an active suspension device(220).

Description

High Speed Low Phase Independent Wheel Steering {INDEPENDENCE ROTATING WHEELS SUSPENSION APPARATUS FOR LOW-FLOOR VEHICLE}

The present invention relates to a high-speed low-phase independent wheel type steering apparatus, and more specifically, to form a steering bracket on each side of the bogie frame to install a wheel and to provide an active suspension device for controlling a steering bar extending from the bracket. By controlling the stiffness according to the present invention relates to a high-speed low-phase independent wheel steering device that can reduce the noise by controlling the speed difference according to the rotation radius difference of the motor in each wheel.

In general, non-independent rotating wheels (non-IRW) are used in general solid-state railway vehicles, which are not low-rise railway vehicles, in which both railway wheels are connected to axles. At this time, the wheel has a tapered cross section so that when the vehicle is rolled on the rail, the wheel is returned to the center by restoring force caused by different speed differences.

Such a solid railway vehicle allows smooth running even when the axle is slightly offset from the center of the rail to the outside of the curve even when driving in a curved portion, resulting in a difference in rolling radius of both wheels.

However, in the steep curve with a small running curve radius, the difference between the traveling distance between the inner rail and the outer rail is large. Therefore, the curve passing performance due to the taper cross section of the wheel mentioned above is insufficient, and the creep force that causes slippage is reduced. Works. At this time, great wear occurs on the wheels and rails, and also great noise and vibration occur.

On the other hand, in a railroad car such as a bimodal tram, a low-rise vehicle with a lower vehicle floor is operated for the convenience of passengers. Independent Rotating Wheels (IRW) removed are being used. At this time, in the case of the low-level wheel having the independent wheel, the rotation of both wheels becomes independent by the removal of the axle, and the inner and outer wheels can rotate freely with each other in the sharp curve, so that the creep force does not occur and smooth curve passing is possible. Do.

However, the independent wheel type truck has no axle to support the wheels, so it is limited when traveling at speeds of 80 km / h or more. There is a problem in that it is a characteristic of the low-rise bogies, and because of the need to operate in the city when the curve radius of 25mR skill noise is generated.

On the other hand, the wheel of a conventional independent wheel is a structure that acts alone and the wheel carrier is connected to both.

However, such independent wheeled trolleys have a significant drop in ride comfort due to the trembling phenomenon during high-speed driving, and there is a risk of derailment at high speeds at speeds of 80 km / h or more, resulting in limitations in running speed.

In addition, the same operation as the road when operating in the city as the characteristic noise occurs when passing the radius of the curve causes a complaint.

Therefore, the present invention is to solve these problems, the present invention is to install the wheel without using the axle lower floor height in the case of low-rise vehicle can be formed and the active suspension stiffness according to the speed at high speed Another object is to provide a high speed low-phase independent wheel steering device that can secure safety otherwise.

In addition, an object of the present invention is to provide a high-speed low-phase independent wheel steering device that can smoothly drive a vehicle and reduce skill noise when passing a curved radius.

In order to solve such a technical problem,

High-speed low-floor independent wheel type steering, characterized in that the steering wheel frame is provided to enable steering and the wheel is installed, and the steering bar is connected to one side of the bracket, the rigidity is adjusted by the active suspension device to steer the bracket. Provide a device.

At this time, the bracket has a first hinge shaft is hinged to the first hinge hole formed in the upper portion of the journal box, the hinge is coupled to the second hinge hole formed in the lower portion of the bogie frame at the upper portion of the bracket A second hinge axis is formed.

In particular, a primary suspension is further provided between the journal box and the bogie frame.

At this time, the primary suspension is characterized in that any one of a rigid spring, a hydraulic method or a rubber spring.

In addition, the bogie frame is characterized in that the secondary suspension is provided between the bogie frame and the carriage to block the vibration transmitted through the wheel to the vehicle body.

At this time, the secondary suspension is characterized in that any one of a rigid spring, a hydraulic method or a rubber spring.

According to the present invention, by installing a wheel on the bracket provided in the bogie frame and steering the steering bar connected to the bracket using an active suspension device, the rigidity of the steering bar can be adjusted according to the speed of the vehicle, thereby increasing the stability of the vehicle. There is.

In addition, according to the present invention, not only is the effect of reducing skill noise due to the steering of the wheel, but also the active suspension device at high speeds to vary the stiffness according to the speed to ensure safety and to reduce the stiffness during low-speed curve driving and smooth curve driving It is also possible to compensate for the shortcomings of independent wheels at high speeds and to improve driving safety.

1 is a view showing a steering state of the front wheel of the bogie is provided with a high speed low-phase independent wheel steering apparatus according to the present invention.
Figure 2 is a view showing a steering state of the front and rear wheels of the trolley equipped with a high speed low-floor independent wheel type steering apparatus according to the present invention.
3 is a view showing a steering state of the rear wheel of the bogie is provided with a high-speed low-phase independent wheel type steering apparatus according to the present invention.
4 is a perspective view illustrating the structure of a wheel according to the present invention.
5 is a cross-sectional view illustrating the structure of a wheel according to the present invention.
6 is a view illustrating a steering angle of a wheel according to the present invention.

With reference to the accompanying drawings, a high-speed low-phase independent wheel steering apparatus according to the present invention will be understood by the embodiments described in detail below.

1 to 3 are diagrams illustrating wheel steering states of a trolley equipped with a high speed low-rise independent wheel steering apparatus according to the present invention, and FIG. 4 is a perspective view illustrating the structure of a wheel according to the present invention. 5 is a cross-sectional view illustrating a structure of a wheel according to the present invention, and FIG. 6 is a view illustrating a steering angle of a wheel according to the present invention.

1 to 6, the vehicle is provided with a high speed low-rise independent wheel type steering apparatus according to the present invention by installing the wheel 110 in the bogie frame 100 without using the axle (car body is provided on the upper side of the bogie ( Not shown) to form a lower height of the floor.

In this case, looking at the bogie in more detail, the bogie is provided with a bogie frame 100 supporting the vehicle body, and the wheel 110 is freely rotated at both front and rear sides of the bogie frame 100.

On the other hand, the bogie frame 100 is provided with primary and secondary suspensions (120, 130) for absorbing the vibration in order to block the vibration transmitted through the wheel 110 to the vehicle body. In this case, it is preferable to install the primary and secondary suspension devices 120 and 130 in the low bed bogie to reduce vibration, and to design a concise in consideration of limited installation space, small weight, and maintenance.

At this time, the primary suspension device 120 is located between the wheel 110 and the bogie frame 100 to block the vibration of the wheel to reduce the risk of derailment or overturning on the track, such as a rigid spring or Use hydraulic or rubber springs.

In addition, the secondary suspension device 130 is positioned between the bogie frame 100 and the passenger car to absorb vibrations that the primary suspension device 120 does not reduce to provide a more comfortable riding environment. Hydraulic or tube rubber spring is used.

The bogie frame 100 is provided with a high speed low-floor independent wheel steering device 200 according to the present invention.

The steering apparatus 200 is capable of steering in the trolley frame 100 and is integrally connected to one side of the bracket 210 and the bracket 210 on which the wheel 110 is installed, and the active suspension apparatus 220. The stiffness is adjusted by the steering bar 230 for steering the bracket 210.

That is, in order to smoothly steer the wheel 110, the bogie frame 100 is provided with a bracket 210 to enable steering, and the bracket 210 is provided with a wheel 110.

In more detail, a first hinge shaft 212 hinged to a first hinge hole 242 formed at an upper portion of the journal box 240 is formed below the bracket 210, and the bracket 210 is formed. The upper portion of the second hinge shaft 214 is hinged to the second hinge hole 102 formed in the lower portion of the bogie frame 100 is formed.

According to such a structure, the bracket 210 may be positioned between the journal box 240 and the bogie frame 100 and may be steered around the first and second hinge holes 242 and 102.

Meanwhile, a primary suspension device 120 is provided between the journal box 240 and the bogie frame 100 to attenuate the vibration transmitted from the wheel 110.

In addition, a steering bar 230 is connected to the bracket 210 so that the railroad vehicle curves to the bogie frame 100, and the steering bar 230 is stiffened by the active suspension device 220. .

On the other hand, the steering device 200 is provided on both sides of the front and rear of the bogie frame 100, that is, the four places that the steering bar 230 to steer the bracket 210 constituting each steering device 200 Each bracket 210 is individually provided to steer the bracket 210, and accordingly, the wheel 110 is steered.

In particular, the front wheel pairs of the bogie are steered together in the same direction, the rear wheel pairs are also steered in the same direction, and the minimum rotation angle at a radius of 15 mR is 7.13 ° so that interference with the bogie frame 100 during steering is reduced. It is desirable to avoid.

Such a high speed low-floor independent wheel type steering apparatus according to the present invention can be applied to both a driving bogie and a trailing bogie.

Active suspension device 220 is provided on both sides of the bogie frame 100 as described above to install the wheel 110 and to control the steering bar 230 extending from the bracket 210. By adjusting the stiffness according to the speed of the inverter, the motor can control the speed difference according to the rotation radius difference for each wheel 110 to reduce the noise.

In particular, the present invention by installing the wheel 110 without using the axle in the bogie, it is possible to form a lower height of the floor in the case of low-rise vehicles, the steering bar 230 is connected to each wheel 110 Steering using the active suspension device 220 to adjust the rigidity of the steering bar 230 according to the speed of the vehicle, thereby increasing the stability of the vehicle running, it is possible to increase the effect of reducing the skill noise generated by the steering. have.

In addition, the active suspension device 220 during high-speed driving, the rigidity is changed depending on the speed to ensure safety, and the stiffness is lowered during low-speed curve driving and smooth driving.

In particular, the present invention is excellent by improving the curve followability of the bogie running in the city and reducing the skill noise, and the smooth speed is possible to control the rotation speed when passing the radius of the curve with the inverter, the independent wheel has a high speed driving Driving safety is improved by supplementing this.

While the present invention has been described in connection with what is presently considered to be preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: bogie frame 102: the second hinge ball
110: wheel 120: primary suspension
130: secondary suspension 200: steering
210: bracket 212: first hinge axis
214: second hinge shaft 220: active suspension device
230: steering bar 240: journal box
242: first hinge ball

Claims (6)

High-speed low-floor independent wheel type steering, characterized in that the steering wheel frame is provided to enable steering and the wheel is installed, and the steering bar is connected to one side of the bracket and the rigidity is adjusted by the active suspension device to steer the bracket. Device.
The method of claim 1,
The bracket has a first hinge shaft hinged to the first hinge hole formed in the upper portion of the journal box in the lower portion, the second hinge hinged to the second hinge hole formed in the lower portion of the bogie frame on the bracket A high speed low phase independent wheel steering device characterized in that a hinge shaft is formed.
The method of claim 2,
A high speed low-rise independent wheel steering device, characterized in that the primary suspension is further provided between the journal box and the bogie frame.
The method of claim 3,
The primary suspension is a high speed low-speed independent wheel steering device, characterized in that any one of a rigid spring, a hydraulic method or a rubber spring.
The method of claim 1,
The bogie frame is a high-speed low-floor independent wheel steering device, characterized in that the secondary suspension device is provided between the bogie frame and the carriage to block the transmission of vibration transmitted through the wheel to the vehicle body.
6. The method of claim 5,
The secondary suspension is a high-speed low-rise independent wheel steering device, characterized in that any one of a rigid spring, a hydraulic method or a rubber spring.

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