KR100238732B1 - A horizontal displacement measuring device of the bogie and the wheel for the train - Google Patents

Abstract

The present invention relates to a lateral displacement measurement device between the bogie / wheel of a railway vehicle, the measuring pin (5) is connected to the spring 12 fixed to the bottom plate 12 so that the measuring pin (5) is always in contact with the wheel In addition, the front end of the measuring pin (5) is provided with a roller (6) to make a rolling contact with the wheel, the rear end (5a) of the measuring pin (5) of the dial gauge 13 The structure is connected to the rod 14, the movement of the measuring pin 5 according to the lateral displacement of the wheel is measured by the dial gauge 13, while the roller 6 is in contact with the rolling, so that less frictional force is generated Since the measuring pin 5 is not bent at the time of measurement and the measuring pin 5 is always in contact with the wheel, it is possible to measure not only the inward displacement of the wheel but also the outward displacement, and the wheel for the speed change during driving and braking. The lateral displacement of can be measured in real time.

Description

Lateral displacement measurement device between bogie / wheel of railway vehicle

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a lateral displacement measurement device between a vehicle and a wheel of a railway vehicle. In particular, it is possible to measure lateral displacement in real time, and to measure not only the displacement of the wheel inward but also the displacement of the outside. It can be, and relates to a transverse displacement measurement device between the bogie / wheel of the railway vehicle to prevent damage to the measuring pin.

In general, a running vehicle generates a relative positional displacement between the bogie, which is the base of the superstructure, and the wheel that serves as the support and the movement of the superstructure. For this reason, it is a very important design variable for balance design.

Therefore, rolling stock manufacturers are trying to make the lateral displacement measurement between bogies and wheels more accurate and efficient.

On the other hand, in the conventional bogie / wheel lateral displacement measuring device as shown in Figure 4 and a plan view of Figure 5, the fixing plate 22 inside the frame 21 of the bogie is fixed via the bolt 23 through The end of the fixing plate 22 is divided into a Y-shape to form a branching plate 22a, and the O-rings 24 are fitted to the branching plates 22a, respectively, to the O-rings 24. A measuring pin 23 is fitted, and a disk-shaped contact end 23a is formed at the wheel 25 side end of the measuring pin 23, and the contact end 23a is inside the wheel 25. It had a structure in contact with the rim 25a.

That is, when the wheel 25 is shifted in the lateral direction by the driving, the contact end 23a is pushed so that the measuring pin 23 is pushed into the O-ring 24, and then stays in place after being pushed in. Therefore, it is possible to measure the lateral displacement between the bogie / wheel by comparing the position of the contact end 23a and the position of the contact end 23a after the measurement at the time of initial installation.

However, the bogie / wheel-to-wheel lateral displacement measuring device having the above-described structure is always measured because the measuring pin 23 is pushed back to the O-ring 24 by the wheel 25 and is not restored to its original position. Among the various displacement values generated during the operation, only the maximum value could be measured. Thus, only the maximum displacement could be measured. Thus, the changing displacement of the wheel 25 continuously flowing from side to side according to the change of the driving speed during driving or braking is The wheel 25 moves horizontally, i.e., left and right, but since the measuring pin 23 is installed in the inner direction of the wheel 25, the displacement amount is measured when the wheel 25 moves outward. There was a problem that can not be done.

In addition, since the contact end 23a of the measuring pin 23 is in direct contact with the rim 25a of the wheel 25, sliding friction occurs on the surface thereof, so that the friction force is excessively generated. There was another problem that the bending phenomenon frequently occurs.

Accordingly, the present invention has been made to solve the above problems, the measuring pin is always moved in contact with the wheel while moving the same in accordance with the movement of the wheel, and the contact end is also in contact with the wheel rim of the wheel As a result, it is possible to measure the displacement according to the speed change of the vehicle during driving and braking, and to measure the displacement value even when the vehicle is moved out of the wheel of the wheel. It is an object of the present invention to provide a transverse displacement measurement device between the bogie / wheel of the railway vehicle to be prevented.

1 is a perspective view of a state in which the lateral displacement measurement device between the bogie / wheel of the railway vehicle according to the present invention is applied to the actual vehicle,

2 is a front view of FIG. 1,

3 is a perspective view of a bogie / wheel lateral displacement measurement apparatus according to the present invention,

Figure 4 is a corresponding view of Figure 1, a perspective view of a state in which the rail vehicle trolley / wheel transverse displacement measurement apparatus according to the prior art is applied to the actual vehicle,

5 is a front view of FIG. 4.

1-frame, 2-fixed plate,

3-bolt, 4-lateral displacement measuring device,

5-measuring pin, 5a-end,

6-roller, 7-wheel,

7a-rim, 8-sole plate,

8a-bolt ball, 9-guide,

9a-upper block, 9b-lower block,

9c-bolt, 9d-hole,

10-guide, 11-anti-rotation device,

11a-guide hole, 12-spring,

13-dial gauge, 14-rod,

15-roller fixing member, 15a-arm,

16-pin, 17-cover,

17a-bolt, 18-bolt.

The present invention for achieving the above object, the two guides and the anti-rotation fixture is fixed to the bottom plate, the measuring pins are bent to the guides and the anti-rotation be installed is installed, the measurement pin of the The roller is fixed to the part which protrudes outward from the bottom plate via a roller fixing member, and an end portion located inside the bottom plate of the measuring pin is joined with a rod of a dial gauge fixed to the bottom plate, and an intermediate portion of the measuring pin. It is connected to a spring fixed to the bottom plate, the cover is covered with the bottom plate to cover the parts installed on the bottom plate, the fixing plate is integrally formed on the cover to be fixed to the frame.

Therefore, the measuring pin may be always in contact with the rim of the wheel by the spring, the contact portion becomes a roller to reduce the friction force, the movement of the measuring pin is to be measured by the dial gauge.

Hereinafter, with reference to the accompanying drawings, the present invention will be described in detail.

1 and 2 are respectively a perspective view and a front view of a state in which the transverse displacement measuring apparatus of the wheel according to the present invention is installed, and the fixing plate 2 is integrated in the transverse displacement measuring apparatus 4 of the present invention, and the fixed plate ( 2) is fixed to the inside of the frame of the bogie through the bolt (3), wherein the roller (6) located at the tip of the measuring pin (5) of the transverse displacement measuring device (4) is the rim (7a) of the wheel (7) ) Is always in contact.

As shown in FIG. 3, the lateral displacement measuring device 4 has a bent shape having a B-shape, receives a restoring force by a spring 12, and has a roller 6 at the tip thereof. And two guides 9 and 10 fixed to the bottom plate 8 and the rotation preventing device 11 and the bottom plate 8 to set the movement path of the measuring pin 5 and prevent rotation. The rod 14 is composed of a dial gauge 13 fixed to the end 5a of the measuring pin 5 and a cover 17 mounted to the top of the bottom plate 8.

Here, the measuring pin (5) is a round bar bent in an L-shape, the roller fixing member (15) having two arms (15a) is fixed to the front end protruding outward of the bottom plate (8), A disk-shaped roller 6 is fixed between the two arms 15a of the roller fixing member 15 via the pin 16.

The guide 9 consists of a rectangular parallelepiped upper block 9a and a lower block 9b, which are vertically nested and then attached to the bottom plate 8 by a bolt 9c which enters from the top to the bottom. A hole 9d is formed between the upper block 9a and the lower block 9b to be moved left and right in the state where the measuring pin 5 is inserted.

The 10th guide is positioned at a predetermined interval on the same line as the 9th guide in the longitudinal direction of the bottom plate 8, the structure and the fixing method to the bottom plate 8 is the same, and the two guides 9, 10) allows the measuring pin 5 to move back and forth in a stable path.

On the other hand, the bottom plate 8 is fixed to the rotational prevention means 11 of the rectangular parallelepiped in the central portion on the longitudinal axis of the guide side 10, the guide hole (11a) is formed on the longitudinal axis line to the rotational prevention means (11) The guide hole 11a has a flat top and bottom surfaces, and a front and rear surfaces have a circular shape, and the horizontal length corresponding to the plane is longer than the length of the circular vertical portion, so that the measuring pin 5 ) Does not interfere with the movement back and forth, the anti-rotation hole 11 itself serves to prevent the measurement pin 5 is rotated by the rotation of the wheel (7).

On the other hand, the measuring pin 5 is inserted into the guide holes (11a) formed in the holes of the two guides (9,10) and the anti-rotation (11), the body is bent so that the assembly can be lowered in the guide After the end 5a of the measuring pin 5 is pre-inserted into the guide hole 11a of the anti-rotation tool 11 before the upper block is fixed to the block, the portion before the bending of the measuring pin 5 is lowered. The upper block should be fastened while being mounted on the block and covering it.

In addition, a dial gauge 13 is fixed to the bottom plate 8, which is fixed to the opposite side of the portion where the guides 9 and 10 are fixed, and moves back and forth to directly adjust the displacement of the workpiece. The end of the sensing rod 14 is fixed in a vertical state to the end 5a of the measuring pin 5.

Meanwhile, in the measuring pin 5, two springs 12 are fixed to both sides between two guides 9 and 10, and the other end of the springs 12 is attached to the bottom plate 8. It is fixed.

After all the parts to be mounted on the bottom plate 8 are installed, the cover 17 is covered with the bottom plate 8 so as to cover all the parts, and both sides of the cover 17 have bolt holes 17a. The bolt hole 8a is also formed at the position of the side of the bottom plate 8 corresponding to the position of the bolt hole 17a, and the bolt 18 is inserted into the bolt balls 17a and 18a. The cover 17 is fastened to the bottom plate 8.

On the other hand, the fixing plate 2 is integrally formed on the side of the cover 17. As described above, the fixing plate 2 is fixed to the inside of the frame 1 of the trolley by means of the bolt 3, and the wheels ( The transverse displacement of 7) can be measured.

Therefore, when displacement occurs in the wheel 7 due to traveling in a state in which the lateral displacement measuring device 4 is installed in the vehicle as described above, the measuring pin 5 is used in accordance with the displacement direction of the wheel 7. It is moved outward or inward, so that the end of the measuring pin 5 is also moved in the same direction, and the rod 14 of the dial gauge 13 connected to this end 5a is also moved in the same direction.

That is, the displacement of the wheel 7 is transmitted to the rod 14 as it is, the displacement amount is measured in the dial gauge (13).

Here, the measurement signal generated by the dial gauge 13 is transmitted by a wire connected to the dial gauge 13 is input to the computer so that the experimenter can record, store, and analyze the measurement.

On the other hand, since the spring 12 always generates a force for pushing the measuring pin 5 toward the wheel 7, the roller 6 positioned at the tip of the measuring pin 5 always has the rim 7a of the wheel 7. Since it is in contact with, it is possible to measure not only the maximum lateral displacement of the wheel 7 but also the change state of the displacement amount according to the speed change during driving and braking in real time.

In addition, since the roller 6 is provided at the tip of the measuring pin 5 which is in direct contact with the rim 7a, the roller 6 is brought into contact with the rim 7a, causing bending of the measuring pin 5 due to excessive frictional force. You will not.

As described above, according to the present invention, the relative lateral displacement between the bogie and the wheel can be measured in real time, and the lateral displacement can be measured regardless of driving, braking and driving speed, and the lateral displacement of the wheel is determined only by the inside displacement of the vehicle. In addition, the displacement in the outward direction can be measured, and there is an effect that can prevent the phenomenon of damage to the measuring pin.

Claims (4)

The measuring pin 5 is installed between the bottom plate 8 and the cover 17 of the flat plate shape and is in contact with the wheel to move in accordance with the displacement, and the rod is in contact with the end of the measuring pin 5 to transmit the movement ( 14), the guide (9, 10) to surround the outer circumferential surface to move the measuring pin (5) within a certain range, the anti-rotation port (11), to prevent the rotation of the measuring pin (5), the rod ( 14) A bogie / wheel wheel lateral displacement measuring device comprising a dial gauge (13) configured to measure / indicate a displacement amount of 14). The roller fixing member (15) having two arms (15a) is fixed to the front end of the measuring pin (5), and between the arms (15a) of the roller fixing member (15). Lateral displacement measurement device between the bogie / wheel of the railway vehicle, characterized in that the roller (6) is fixed via the pin (16). The method of claim 1, wherein the guide (9) consists of an upper block (9a) and a lower block (9b), is fixed to the bottom plate (8) at the same time through a bolt (9c) inserted from the top, two A transverse displacement measuring device between the wheels and the wheels of a railway vehicle, characterized in that a hole (9d) through which the measuring pin (5) can be moved to the junction of the block. 2. A trolley according to claim 1, wherein a guide hole (11a) is formed in the anti-rotation tool (11), and the guide hole (11a) has a long and flat upper and lower sides, short left and right sides, and a semicircular shape. Lateral displacement measurement device between wheels.

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