KR20100008384U - Drawing machine of shaft bearing for railway vechicle - Google Patents

Abstract

The present invention is a hydraulic pump for transmitting the oil stored in the hydraulic tank to a predetermined hydraulic path; A frame part which mounts the hydraulic pump at a predetermined position of the body and forms a body part; An electric control panel mounted at a predetermined position of the frame part to supply power to the drawing apparatus and to control the function of the drawing apparatus; First and second drawing cylinder members positioned on both left and right ends of the frame part, respectively, for drawing and extending the wheelset bearing in a horizontal motion from a fixed wheelset; Provided is a wheelset bearing pulling machine for a railway vehicle including first and second vertical cylinder members for vertically and vertically moving the bodies of the first and second drawing cylinder members, respectively.

The present invention as described above has the advantage of maximizing the efficiency of the vehicle maintenance by removing the dependence by the manpower according to the drawing by selecting both or one bearing by the operation of the operation panel to the bearing forcedly pressed into the axle journal.

Wheelset, axle journal, rail, wheelset bearing

Description

Drawing machine of shaft bearing for railway vechicle}

The present invention relates to a rolling bearing pulley of a railway vehicle. In particular, the hydraulic cylinder is moved up, down, left, and right through a control panel to mount a sliding bearing drawing jig installed in the hydraulic cylinder on a bearing and an axle journal, and the rolling bearing of the rolling stock is rotated horizontally. It relates to a rolling bearing drawing machine for rolling stock.

Generally, the rolling wheel bearing (for D-axis) for railway vehicles is a mechanical element that plays a role of receiving loads acting on the shaft by supporting the rotating axle. Currently, it is used for Freight Car and KTX. The bearing is NFL (NO Field Lubrication) type journal tapered roller bearing (for D-axis). When the bearing is pressed into the magnetic shaft journal, the bearing is forced to the seating pressure of 50 tons. In addition, the railroad cars such as locomotives, electric cars, passenger cars, and wagons are under heavy repair work to completely disassemble and reassemble all parts of the railroad cars for maintenance.

Furthermore, the wheelset 800 of the railway vehicle is composed of one axle, two wheels, and two wheel bearings, in which two wheelset bearings are pressed into the axle. A force of 50 tons or more is required to draw out the wheelset bearing forcedly pressed into the axle journal. In addition, there should be no damage in the magnetic shaft journal and bearing in drawing out the wheelset bearing. So, for this purpose, a hydraulic unit and a hydraulic cylinder are used, and the hydraulic unit is a hydraulic motor and a hydraulic pump for forming a hydraulic pressure, a hydraulic cylinder part for drawing a bearing through supply and return of oil, and a solenoid that opens and closes by an electrical signal. It consists of a valve.

Then, referring to an example of the conventional inspection of the drawer of the railway vehicle as described above with reference to Figures 1 and 2, first look at the configuration of the wheel bearing (900), as shown in Figure 1 outside the wheel bearing (900) An outer ring body 940 positioned;

      An inner ring body 930 located above and below the wheel bearing 900 and a spacer 950 located at the center of the wheel bearing 900;

      A roll bearing 960 rotating between the inner ring body 930 and the outer ring body 940, and a seal 910 covering the inner ring body 930 and the outer ring body 940 above and below the wheel bearing 900. , And deflector 920.

      On the other hand, to inspect the wheeled bearing 900 configured as described above, as shown in FIG. 2, first push the coupling fixing part 990 of the drawing machine 980 to one wheeled shaft to extract the wheeled bearing 900 After disassembling the wheelset bearing 900 again, the bearing 900 is drawn out, and the wheel shaft is rotated 180 ° with an air jog key, and then the bearing 900 is drawn out. At this time, the seal 910 and the deflector 920 is pushed out of the wheel bearing 900, the inner ring body 930 and the roll bearing 960, the spacer 950 is separated from the wheel bearing 900 Initiate maintenance work to determine the life cycle of the wheel bearing (900) or inspect it carefully to determine whether to reuse it.After maintenance is complete, the parts of the wheel bearing (900), the seal (910) and the deflector (920) in turn After assembling, it fits the wheelset of railroad car and combines to complete the inspection work.

      However, the conventional railway vehicle's drawing machine can draw the existing wheel bearing bearing only in one direction, and after drawing the one bearing, the wheel is drawn 180 degrees with the air operation key, and then the other bearing is drawn to reduce the work efficiency. After the bearings fall freely on the floor of the workshop, there was a risk of causing damage in the bearings and the safety accidents of workers due to the transfer of the wheels by manpower.

 That is, the above-mentioned conventional railway vehicle's drawing machine requires the operator to manually inspect the wheelset bearing 900 as described above, so that the inner ring body 930 and the deflector 920 of the wheelset bearing 900 are manually operated. Separating the seal 910 and the deflector 920 from the wheelset bearing 900 on a ladle principle using a tool such as a chisel and a hammer or a specially designed drawer () between the gaps formed. At this time, in the case of using the same equipment as the above-mentioned machine, the seal 910 and the deflector 920 portion is deformed or deformed during disassembly, or impacts on the outer ring body 940, the spacer 950 and the inner ring body 930. Traces are generated, and the seal 910 and the deflector 920 damaged or damaged due to the impact during disassembly have had a problem that it is impossible to reuse.

       Therefore, the present invention was devised to solve the above problems, and the bearing which is forcedly pushed into the axle journal for disassembling and repairing the wheeled bearing for railway vehicles is operated by the operator's button operation. The purpose of this invention is to provide a railroad bearing pulley for railroad cars, which is mounted on the gap between the bearing and the axle journal by applying the force to the left and right, and conveniently drawing both or one bearing.

Another object of the present invention is to provide a rolling bearing pulley of a railway vehicle that prevents damage in the bearing due to free fall of the bearing after the bearing is pulled out by installing a bearing support and improves work efficiency through rapid drawing.

The present invention for achieving the above object is a hydraulic pump for transmitting the oil stored in the hydraulic tank to a predetermined hydraulic path;

A frame part which mounts the hydraulic pump at a predetermined position of the body and forms a body part;

An electric control panel mounted at a predetermined position of the frame part to supply power to the drawing apparatus and to control the function of the drawing apparatus;

First and second drawing cylinder members positioned on left and right end bodies of the frame part, respectively, for drawing and extending the wheelset bearing in a horizontal motion from the fixed wheel shaft;

Provided is a wheelset bearing pulling machine for a railway vehicle including first and second vertical cylinder members for vertically and vertically moving the bodies of the first and second drawing cylinder members, respectively.

According to the present invention as described above, both or one bearing can be selected and drawn out by a control panel operation of a bearing forcedly pressed into the axle journal of a railroad vehicle, and the wheel removed by the wheelset discharge device is relied upon by manpower. By minimizing the prevention of workers' musculoskeletal disorders as well as the efficiency of vehicle maintenance has the advantage.

In addition, according to the present invention, there is an effect of improving the bearing quality through the prevention of free fall of the drawn bearing to increase the internal and external maintenance reliability.

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

The present invention is a hydraulic pump (2) for transmitting the oil stored in the hydraulic tank (1) in a predetermined hydraulic path as shown in Figure 3 to 4;

A frame part 3 which mounts the hydraulic pump 2 at a predetermined position of the body and forms a body part;

An electric control panel 5 mounted at a predetermined position of the frame part 3 to supply power to the drawer device 4 and to control the function of the drawer;

First and second drawing cylinder members 8 and 9 which are located at the left and right end bodies of the frame part 3, respectively, and draw the hook shaft 7 from the fixed wheelset 6 by horizontal movement.

First and second vertical cylinder members 10 and 11 for vertically and vertically moving the bodies of the first and second drawing cylinder members 8 and 9, respectively;

And bearing bearings 12 installed at both lower ends of the frame part 3 to support the wheel bearings 7 drawn by the first and second drawing cylinder members 8 and 9, respectively.

In addition, the frame portion 3 is mounted on the upper surface of the first and second drawing cylinder members (8, 9), respectively, and the horizontal bracket for vertical movement by the first and second vertical cylinder members (10, 11) (13);

A plurality of, for example, four punched holes 15 correspondingly formed such that four slide rods 14 flow in and out of the first and second drawing cylinder members 8 and 9 are formed. The body is coupled to the upper end of the horizontal bracket 13, the cylinder rod 16 of the first and second vertical cylinders 10 and 11 is connected to the coupling ring formed at the upper end of the body to guide the upper and lower And a cylinder support plate 18 that moves along the portion 17.

In addition, each of the first and second drawing cylinder members 8 and 9 includes a plurality of, for example, coupling rings 19 for filtering the wheel bearing 7 from the upper end of the four slide rods 14. Is formed.

Furthermore, a left and right wheels are installed at the lower end of the frame part 3, one left and right each side to support the inner side of the wheel and prevent the wheel shaft from leaving the rail when the bearing is pulled out. The wheelset discharging unit 21 is provided to transfer the wheelset 6 drawn to the front or rear part side by applying a temporary force to one surface of the drawn wheelset 6.

In addition, one end of the wheel discharge unit 21 is connected to the hydraulic cylinder member 23 fixed to the holder 22 via a hinge 25 to the cylinder rod 24 of the hydraulic cylinder member 23. And an end plate 26 having an end portion coupled to the rail contact surface of the wheel shaft 6 drawn on the opposite upper end thereof.

Here, the frame portion 3 is the hydraulic tank 2, the hydraulic tank 3, the solenoid valve portion 5, the bearing pedestal 12, the first and second vertical cylinder members (10, 11) and the first And the horizontal brackets 11 of the second drawing cylinder members 8 and 9 are attached to each other, and the 'H' section steel is used to withstand the stress that may be generated when the forcedly pressed wheel bearing 7 is drawn out of the axle journal. And, using the 'c' section steel to guide the vertical action of the cylinder support plate 16

On the other hand, the electrical control panel 5 supplies power to the hydraulic system (1, 2) and the operation panel and the electrical signal according to the operation of the operation panel via a programmable logic controller (PLC) installed inside the power supply solenoid valve unit ( 28, for example, six solenoid valves are sent to open and close the solenoid valves according to the instructions. In addition, the electric control panel 5 may be provided with a power on-off switch, a hydraulic unit on-off switch, a power lamp, a first stage forward switch, a two stage forward switch, a reverse switch, and the like of the lube discharge unit.

The solenoid valve unit 28 is positioned above the frame, receives an electrical signal by a power supply programmable controller (PLC) according to the operation of the electric control panel 5, and opens and closes the oil according to a command. 2 serves to block and supply oil to the vertical cylinder members 10 and 11, the first and second drawing cylinder members 8 and 9, and the hydraulic cylinder member 23. The solenoid valve portion 28 is composed of a total of six, consisting of one main solenoid valve and five sub solenoid valves for supplying and blocking oil to each hydraulic cylinder.

Next, the operation and effects of the device of the present invention of the above configuration will be described.

First, the present invention operates hydraulic buttons by supplying power to the hydraulic system, that is, the hydraulic pump 2 and the hydraulic tank 1 by operating the operation button in the electric control panel 5 as shown in (ad) of FIG. In addition, through the PLC (Programmable Logic Controller) installed inside the electrical control panel 5, the electrical control signal is transmitted to the solenoid valve unit 5 consisting of six solenoid valves, for example, and the solenoid valves open and close according to the command. Therefore, according to this, the action of supplying / blocking oil of the first and second vertical cylinder members 10 and 11, the first and second drawing cylinder members 8 and 9, and the hydraulic cylinder member 23 is controlled.

At this time, the hydraulic tank (2) is the first and the first oil located in the upper portion of the frame portion 3 through the hydraulic line in the oil in the hydraulic tank (3) in accordance with the control of each of the solenoid valves of the solenoid valve portion 28 2 Supply to the vertical cylinder members 10 and 11, the 1st and 2nd drawing cylinder members 8 and 9, and the hydraulic cylinder member 23, respectively.

And, if the wheelset 6 conveyed by the lift (not shown) during the process is located on the wheelset discharge unit 21 rail of the lower end () of the frame portion 3, the wheelset departure preventing member 14 is The wheels 6 are brought into contact with, for example, four bodies of the wheels 6 so that the wheels 6 are not separated from the lower end of the frame 3.

In addition, the first and second vertical cylinder members 10 and 11 are operated by the hydraulic pressure supplied from the hydraulic tank 2 to push the cylinder rod 16 upward. Then, the cylinder support plate 18 fixed on each of the cylinder rods 16 of the first and second vertical cylinder members 10 and 11 also moves upward along the guide rail portion 17. Each horizontal bracket 13 interlocked with the cylinder support plate 18 is also moved upward.

Accordingly, the first and second vertical cylinder members 10 and 11 positioned on the respective horizontal brackets 13 are also interlocked together to move upwards to reach an appropriate position by pressing the operation button of the electric control panel 5. The horizontal brackets 13 are stopped when given. When the first and second drawing cylinder members 8 and 9 are driven after the above process, the first and second drawing cylinder members 8 and 9 are slide rods 14 in the inner direction of the frame part 3. In this case, the slide rod 14 is moved to the inside through the drilling hole 15 of the cylinder support plate (18).

Then, as described above, the slide rod 14 is moved inwardly so that the engaging ring portion 19 provided at the end of the slide rod 14 is located between the rear end of the wheel bearing 7 and the wheel shaft 6. In this case, for example, when reaching the journal portion 27, the operator presses the operation button of the electric control panel 5 to stop and then drives the first and second vertical cylinder members 10 and 11 to support the cylinder support plate 18. For example, both ends are slid to the bottom along the guide rail portion 17 in the form of the 'H' steel.

Then, when the cylinder support plate 18 is moved downward along the guide rail portion 17, each horizontal bracket 13 interlocked with the cylinder support plate 18 is also moved downward.

At this time, the horizontal hook (19) between the rear end of the wheel shaft bearing 7 and the wheel shaft 6 (axle journal: 27) is provided with a coupling ring 19 provided at the end of the slide rod 14 as described above. When the 13) moves to the lower end, the coupling ring 19 is firmly hooked to the rear end of the wheel bearing 7.

Then, when the engaging ring portion 19 is caught on the rear end of the wheel bearing 7 as described above, by operating the operation button of the electric control panel 5 to drive the first and second vertical cylinder member (10, 11) To stop.

     On the other hand, when the engaging ring portion 19 is caught on the rear end of the wheel bearing 7 as described above, to move the first and second drawing cylinder members (8, 9) outward through the electric control panel (5). Drive it.

Then, the first and second drawing cylinder members 8 and 9 pull inward the slide rods 14 which have moved inwardly of the frame portion 3, and thus the slide rods 14 are supported by the cylinder support plate. It is drawn to the inside of the first and second drawing cylinder members 8 and 9 via the drilling hole 15 of 18.

At this time, when the slide rod 14 is pulled outward, the engaging ring portion 19 installed at the end of the slide rod 14 is also hung on the rear end of the wheel bearing 7 and the slide rod It is pulled together in the moving direction of (14).

Therefore, when the engaging ring portion 19 is pulled in the direction of movement of the slide rod 14 as described above, the press-fitted wheel bearing 7 hanging on the engaging ring portion 19 is also press-fitted by the pulling force. It is released and is separated from the wheel shaft 6 and seated on the upper surface of the bearing support 12 located below.

When the wheel bearing 7 is seated on the bearing support 12 as described above, the driving of the first and second drawing cylinder members 8 and 9 is stopped.

On the other hand, when the wheel bearing 7 is drawn from the wheelset 6 through the above-described process, for example, the wheelset detachment prevention member which is in contact with and supported by four bodies of the wheelset 6 so that the wheelset 6 does not come off ( 20) is released.

Then, after the wheel release prevention block 20 is released, the operation button of the electric control panel 5 is controlled to drive the hydraulic cylinder member 23 of the wheel discharge unit 21, wherein the hydraulic cylinder member Reference numeral 23 pulls the cylinder rod 24. Then, the discharge plate 26 coupled to the cylinder rod 24 via the hinge 25 is also attracted, and the rail of the wheel shaft 6 drawn as the triangular discharge plate 26 is pulled. A constant force is also applied to the contact surface. Therefore, the wheelset 6 drawn by the coarse action of the discharge plate 26 as described above retreats along the rail (not shown).

Therefore, the wheelset 6 and the wheelset bearing 7 drawn out through the above process are checked by a predetermined inspection procedure.

Here, the description of the embodiment has been described as drawing both the bearings 7 of the wheelset 6 at the same time, but through the above process, one bearing 7 of the wheelset 6 is selected and selectively drawn out. You may.

When the present device returns to the initial state, the electric control panel 5 returns to the reverse process or selects a desired process.

      As described in the above description, the present invention moves the bearing, which is forcedly pushed into the axle journal, to move the sliding bearing drawing jig through the hydraulic cylinder up, down, left and right for the disassembly and repair of the wheeled bearing for railway vehicles. Both sides or one bearing can be drawn out conveniently by mounting on the board gap and applying a constant force, which can be very useful when used in the workshop required for the inspection of railway vehicles.

1 is an explanatory diagram illustrating an example of a conventional drawing device.

2 is an explanatory diagram schematically illustrating a conventional wheel bearing.

3 is an explanatory diagram for explaining a schematic cross section of a drawer of the present invention;

4 is an explanatory diagram illustrating a side of a drawer of the present invention.

Figure 5 (a-d) is an explanatory view for sequentially explaining the state of the roller bearing pulley of the drawing machine of the present invention.

<Detailed Description of Codes>

1: Hydraulic tank 2: Hydraulic pump

3: frame part 4: drawing device

5: electric control panel 6: wheel shaft

7: wheel bearing 8: first drawing cylinder member

9: second drawing cylinder member 10: first vertical cylinder member

11: second vertical cylinder member 12: bearing support

13: Horizontal bracket 14: Slide bar

15: hole 16: cylinder rod

17: guide rail portion 18: cylinder support plate

19: engaging ring 20: wheelset departure prevention

21: wheel shaft discharge device 22: fixed base

23: hydraulic cylinder member 24: cylinder rod

25: hinge 26: discharge plate

27: Journal part 28: Solenoid valve part

Claims (12)

A hydraulic pump for transmitting oil stored in the hydraulic tank to a predetermined hydraulic path; A frame part which mounts the hydraulic pump at a predetermined position of the body and forms a body part; An electric control panel mounted at a predetermined position of the frame part to supply power to the drawing apparatus and to control the function of the drawing apparatus; First and second drawing cylinder members positioned on both left and right ends of the frame part, respectively, for drawing and extending the wheelset bearing in a horizontal motion from a fixed wheelset; Wheelset bearing pulley of a railway vehicle including first and second vertical cylinder members for vertically and vertically moving the bodies of the first and second drawing cylinder members, respectively.       According to claim 1, Wheel bearings for railway cars, characterized in that the bearing support for supporting the wheel bearings drawn by the first and second drawing cylinder members are respectively installed on both lower ends of the frame portion.       The wheel shaft of claim 1, wherein the frame unit includes a horizontal bracket for mounting the first and second drawing cylinder members on the upper surface of the frame and performing vertical movement by the first and second vertical cylinder members. Bearing drawer       According to claim 1, wherein the frame portion is formed with a plurality of perforated holes correspondingly formed so that a plurality of slide rods provided in the first and second drawing cylinder member flows in and out, the body is coupled to the upper end of the horizontal bracket, Wheel bearing of the railway vehicle, characterized in that the cylinder rod is connected to the first and second vertical cylinder portion of the coupling ring formed on the upper end of the body to move along the guide rail up and down; 2. The wheelset bearing pulling machine of claim 1, wherein each of the first and second drawing cylinder members is provided with a coupling ring to draw the wheels on the upper ends of the plurality of slide rods. According to claim 1, wherein the center of the lower end of the frame portion of the rolling stock, characterized in that each one of the left and right wheelset discharge device for transferring the wheelset drawn to the front or rear portion by applying a temporary force to one side of the drawn wheelset Wheeled Bearings 2. The sliding contact of the rail contact surface of the wheel shaft according to claim 1, wherein one end of the hydraulic cylinder member is fixed to the stator and the cylinder rod of the hydraulic cylinder member is connected to the cylinder rod of the hydraulic cylinder member via a hinge. Wheel bearing of the railway vehicle characterized in that it has a discharge plate coupled to the end as possible 2. The wheelset bearing pulling machine of claim 1, wherein a lower wheelset departure preventing member is provided at a lower end of the frame unit to prevent the wheelset from leaving. 2. The wheelset bearing machine of claim 1, wherein the frame part uses 'H' shaped steel to withstand the stress that may occur when the forcedly pressurized wheelset bearing is drawn out of the axle journal. 2. The wheelset bearing pulling machine of claim 1, wherein the frame portion uses a 'c' section steel to guide both ends of the body to guide the vertical action of the cylinder support plate. 2. The wheelset bearing pulling machine of claim 1, wherein the electric control panel controls the opening and closing function of the solenoid valve portion for operating the hydraulic system. 2. The railway according to claim 1, wherein the electric control panel includes a power on-off switch, a hydraulic unit on-off switch, a power lamp, a first stage forward switch, a two stage forward switch, and reverse switches of the wheelset discharge device. Wheel Bearing Bearing of Vehicle

Images