KR20050040368A - Apparatus for removing a bearing from a roll sfaft with easy - Google Patents

Abstract

The present invention relates to an apparatus for easily disassembling and removing a bearing fitted to a rotating shaft of a rolling roll.

The present invention, the wheel is mounted on the lower surface is movable trolley; A high frequency induction heating unit for generating a high frequency in front of the bogie to apply a high frequency to the bearing and heat the bearing; A drawing part having a plurality of hooks on the rear end of the bearing for drawing out the bearing heated by the high frequency induction heating part from the rotary shaft; and supplying power to the induction coil of the high frequency induction heating part, It includes a controller for controlling the heating temperature of the bearing by the temperature; provides a bearing separation device of the rolling roll rotating shaft for heating the bearing at high frequency and withdrawing from the rotating shaft.

According to the present invention, the bearing mounted on the rotating shaft of the rolling roll to reduce the coefficient of rotational friction is indirectly heated by a high frequency heating method, and a gap between the inner ring and the rotating shaft of the bearing is generated to prevent damage to the inner, outer diameter and ball of the bearing. It can be easily removed without the effect.

Description

Bearing Separation Device for Rolling Roll Rotating Shaft {APPARATUS FOR REMOVING A BEARING FROM A ROLL SFAFT WITH EASY}

The present invention relates to an apparatus for easily disassembling and removing a bearing fitted to a rotating shaft of a rolling roll, and more particularly, indirectly heating a bearing mounted on the rotating shaft of a rolling roll to reduce a rotational friction coefficient by a high frequency heating method, and a bearing. The present invention relates to a bearing separation device of a rolling roll rotating shaft which can be easily removed without damaging the inner, outer diameter and ball of the bearing by generating a gap between the inner ring and the rotating shaft of the roller.

In general, there are a plurality of rolling rolls that are connected to the rotating shaft of the motor such as a motor in the rolling roll of the steel mill. The bearing is fitted to the rotating shaft of these rolling rolls to play a role of reducing the coefficient of rotational friction during rotation of the rolling rolls.

Bearings fitted to the rotating shaft driving such a rolling roll are periodically disassembled during repair of the rolling roll and its electric motor. The related art is widely used in the field, and as shown in FIG. 1, an interference fit assembly portion between the bearing 200 and the rotating shaft 210 is heated by using a gas torch 220 which is a direct heating method. Then, a gap is formed between the inner ring of the bearing 200 and the rotating shaft 210 to remove the bearing 200 from the rotating shaft 210.

However, in the conventional method as described above, the bearing 200 made of special steel receives locally high temperature heat by a gas flame, so that the hardness characteristic of the bearing 200 is changed and cannot be reused.

In addition, since the worker must directly handle the bearing 200 and the rotating shaft 210 heated to a high temperature, a problem of a safety accident such as a burn injury of the operator occurs.

On the other hand, in another way, in order to prevent a change in the mechanical properties of the inner ring of the bearing 200, a mechanism (not shown) composed of an aluminum cylinder and a heat insulating rod is inserted into the inner ring of the bearing 200, and the bearing ( When the heating 200 is heated, and a gap is generated between the rotating shaft 210 and the inner ring of the bearing 200, the holding rod is removed.

However, such a conventional method also has a problem of damaging the bearing 200 by applying a forcible force to the outer ring side of the bearing 200 and the surface of the inner ring.

The present invention is to solve the conventional problems as described above, the purpose is to adopt a high frequency induction heating method, the heat is generated in the inner ring and outer ring of the bearing than the rotating shaft by the uniform heat transfer to the bearing to make the bearing easier and faster By expanding and removing the bearing to be reused without changing the hardness characteristics of the bearing and damage to the surface, and to provide an improved bearing separation device of the rolling roll rotary shaft to prevent the operator's safety accident in the process.

In order to achieve the above object, the present invention, in the device for easily separating and removing the bearing fitted to the rotating shaft of the rolling roll,

A trolley with wheels mounted on its bottom surface and movable;

A high frequency induction heating unit for generating a high frequency in front of the bogie to apply a high frequency to the bearing and heat the bearing;

A drawing part having a plurality of hooks that are caught by the rear end of the bearing to draw out the bearing heated by the high frequency induction heating part from the rotating shaft; and

A controller for supplying power to the induction coil of the high frequency induction heating unit and controlling a heating temperature of the bearing at a predetermined predetermined temperature, including heating the bearing at a high frequency and extracting it from the rotating shaft. By providing a bearing separator.

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

As shown in FIGS. 2 and 3, the bearing separating apparatus 1 of the rolling roll rotating shaft according to the present invention has a bogie 10 which is movable with wheels 5 mounted on a lower surface thereof.

The trolley 10 includes a horizontal rectangular frame 12 having a predetermined size, a square support 14 is provided in front of the rectangular frame 12, and rotated 360 ° below the rectangular frame 12. A plurality of wheels (5) is mounted so that the trolley 10 can move to the front, rear and left and right.

In addition, the present invention includes a high frequency induction heating unit 20 which generates a high frequency in front of the trolley 10 to apply a high frequency to the bearing 200 and heats the bar 200 to the high frequency induction heating unit 20. When alternating current flows through the induction coil 22 provided, a strong alternating magnetic flux is generated. This magnetic flux penetrates into the inside of the bearing 200, and a large current is induced in the bearing 200 to generate heat. Due to the skin effect of the alternating current, the surface of the bearing 200 generates heat higher than that inside.

As shown in FIGS. 3 and 4, the induction heating unit 20 has a pair of ring-shaped covers 24a and 24b, and a high frequency induction coil 22 between the covers 24a and 24b. And a tie rod 26 that secures the lids 24a and 24b to each other. In addition, fixing bolts 28a are fitted at one side of the covers 24a and 24b to penetrate the covers 24a and 24b, and nuts 28b are coupled at the other side to cover the covers 24a and 24b. In between, a predetermined space is formed, and the induction coil 22 is disposed in the space.

The induction coil 22 is a cylindrically wound structure, which is fixed between the ring-shaped covers 24a and 24b and as described later, the covers 24a and 24b and the induction coil 22. Bearing 200 is positioned in the central space of the high frequency heating is configured to be performed.

In addition, the high-frequency induction heating unit 20 is positioned in the support 14 of the trolley 10 so as to be disposed up and down so as to be movable up and down, and the outer diameter of the cover 24a and 24b is a vertical support 14. Is formed smaller than the inner space of the tie rod 26, the handle 32 having a thread 32a formed on the outer circumferential surface of the tie rod 26 is extended to the upper side to be screwed to the upper bar 14a of the support 14 Combining

The handle 32 has a double screw structure, a female screw hole 32c is formed at an upper end formed in the screw thread 32a, and a male screw 32b is screwed into the female screw hole 32c. 32b is screwed to the upper bar 14a of the support 14.

Due to this structure, when the male screw 32b of the handle 32 is rotated to the left and right, it not only raises and lowers the upper bar 14a but also raises and lowers the female screw hole 32c. 32 is capable of lifting up and down with respect to the upper bars 14a of the support 14 without the rotation of the lids 24a and 24b and the induction coil 22 connected via the tie rods 26.

In addition, the induction heating unit 20 includes a sensor 36 for detecting the bearing outer diameter temperature and a sensor 38 for detecting the temperature of the rotating shaft of the motor between the lids 24a and 24b.

In addition, the present invention provides a plurality of hooks (42a) (42b) that is applied to the rear end of the bearing 200 in order to withdraw the bearing 200 heated by the high frequency induction heating unit 20 from the rotating shaft (210). It has the withdrawal part 40 provided.

As shown in FIG. 5, the lead portion 40 includes a lifting platform 44 having a 'c' shape fitted to the outside of the support 14 to move up and down along the support 14, and the lifting platform 44. A hydraulic cylinder 46 is provided at the center of the rod 46a so that the rod 46a faces the center of the platform 44.

In addition, the lifting member 44 is fixed to the nut member 50 on one side inner surface of the support member 14 so as to be lowered on the support 14, the nut member 50 is one side of the support 14 It is disposed in the long guide groove 52 formed in the vertical direction in the upper, and is screwed to the long adjustment bolt 54 is arranged to be rotated vertically in the interior of the long guide groove (52). Therefore, when the platform 44 is fitted on the support 14, the operator rotates the adjustment bolt 54, the nut member 50 is moved up and down along the adjustment bolt 54, and together with the platform ( 14) is going up and down.

In addition, the hooks 42a and 42b are rotatably mounted on the front edges of the platform 44 so that the hooks 42a and 42b may be rotatably mounted or fixed vertically or vertically as the intention of the operator.

In addition, a hydraulic system 60 for providing hydraulic pressure to the cylinder 46 is disposed at the rear side of the hydraulic cylinder 46, and a switch 62 is provided for an operator to operate the hydraulic cylinder 46. Lose.

The trolley 10 includes a controller 70 for supplying power to the induction coil 22 of the high frequency induction heating unit 20 and controlling the heating temperature of the bearing 200 at a predetermined temperature. The controller 70 has a power supply system for transmitting external power to the induction coil 22 therein, and a temperature setting unit (not shown) for setting a heating temperature of the induction coil 22 by an operator. It is provided with, and is electrically connected to receive the temperature signal from the temperature detection sensor (36, 38) to detect the temperature signal of the bearing 200 and the rotating shaft (210).

When the controller 70 heats the bearing 200 by setting the temperature of the bearing 200 and the rotating shaft 210 and supplying power to the induction coil 22, the controller 70 detects the temperature of the bearing 200. An electrical circuit is arranged to cut off the power applied to the induction coil 22 when the temperature signal is detected from the temperature detection sensor 38 of the rotary shaft 210 and the predetermined signal. Will be built.

The present invention configured as described above, as shown in Figures 6 and 7, the bearing 200 is located in the preparation step for drawing the bearing 200 from the rotating shaft 210 of the rolling roll 205 The trolley 10 is moved to the working place.

In this case, the rolling roll 205 is separated from the rotating shaft of the electric motor (not shown) in a state in which the bearings 200 are mounted on both sides of the rotating shaft 210, respectively, and moved to a separate place. From the rotating shaft 210 of the rolling roll 205 moved together, the present invention easily separates the bearing 200.

The worker moves the bogie 10 toward the rolling roll 205 to insert the bearing 200 into the center space of the cover 24a, 24b and the induction coil 22, in this case high frequency induction. After adjusting the height of the induction heating unit 20 to match the height of the rotating shaft 210 of the rolling roll 205 by using the handle 32 for moving the heating unit 20 up and down, the hydraulic cylinder 46 In order to adjust the height of the support table 14 by rotating the long adjustment bolt 54 of the lead portion 40 provided on one side of the lifting platform 44 to match the rotating shaft 210 of the rolling roll 205 To adjust the position.

When the height adjustment of the induction heating unit 20 and the drawing unit 40 is completed through the above-described method, the trolley 10 is advanced to have a bearing (in the space inside the induction coil 22 of the induction heating unit 20). 200).

In this state, the rod 46a of the hydraulic cylinder 46 of the lead portion 40 is inserted into the cylinder body side, and the end of the rod 46a is supported by the end of the rotation shaft 210 of the rolling roll 205. As shown in FIG. 6, the hooks 42a and 42b provided at the front end of the platform 44 are arranged to be held horizontally on the rear surface of the bearing 200.

In this state, when the operator applies power to the induction coil 22 through the controller 70, the induction coil 22, as shown in FIG. Alternating flux occurs.

The magnetic flux penetrates the inside of the bearing 200 to cause a large current to be induced in the bearing 200, and heat is generated in the bearing 200. Due to the skin heating effect of the AC current, the surface of the bearing 200 generates heat higher than the inside thereof.

As such, when the bearing 200 is heated at a high frequency, the amount of thermal expansion is greater than that of the rotating shaft 210 to form a gap at a coupling portion with the rotating shaft 210.

At this time, the controller 70 analyzes numerical data transmitted from the sensor 36 for detecting the outer diameter and the sensor 38 for detecting the temperature of the rotating shaft 210 disposed on the outside of the bearing 200. Reaches a preset temperature set point, an alarm alarm (not shown) provided in the controller 70 operates, and after a few seconds, the power is automatically cut off by a program to stop the high frequency heating operation.

When the high frequency heating is stopped in this way, the hydraulic system 60 for operating the hydraulic cylinder 46 of the lead-out part 40 is operated to draw out the rod 46a, thereby simultaneously withdrawing the rod 46a. Bearing 200 having a gap formed at the engaging portion of the rotating shaft 210 by pulling the bearing 200 from the rotating shaft 210 at the same time while the backs 10 are provided at the front end of the lifting platform 44. ) Is withdrawn, as shown in FIG. 7.

In this way, the bearing 200 drawn from the rotating shaft 210 is cooled and reused in a natural state.

As described above, according to the present invention, when the bearing 200 is mounted on the rotating shaft 210 of the rolling roll 205 to reduce the rotational friction coefficient, this is achieved by indirect heating through a high frequency induction method. When the bearing 200 is heated, the hardness characteristic thereof is not changed, and the surface of the bearing 200 can be taken out without scratches.

In this way, by heating the bearing 200 at a high frequency of the indirect heating method, even when separated from the rotating shaft 210, the quality of the bearing 200 is secured, thereby reducing the maintenance cost due to reuse, and directly The useful effect which can prevent the burn injury of an operator by heating is obtained.

1 is an explanatory view showing a bearing separation method of a rolling roll rotating shaft according to the prior art;

2 is an external perspective view showing a bearing separating apparatus of a rolling roll rotating shaft according to the present invention;

3 is an exploded view showing a bogie and an induction heating unit provided in a bearing separator of a rolling roll rotating shaft according to the present invention;

4 is a detailed view of the induction heating unit provided in the bearing separator of the rolling roll rotating shaft according to the present invention, a) is an exploded perspective view, b) is a coupling;

5 is an exploded view of the lead portion provided in the bearing separator of the rolling roll rotating shaft according to the present invention;

6 is an explanatory view in which the present invention is coupled to a bearing to disassemble the bearing by using a bearing separating device of a rolling roll rotating shaft according to the present invention;

7 is an explanatory view showing a state in which the bearing is disassembled by using a bearing separator of the rolling roll rotating shaft according to the present invention.

<Description of the symbols for the main parts of the drawings>

1 .... Bearing Separator for Rolling Roll Rotating Shaft

5 .... wheel 10 ..... bogie

12 ... square frame 14 .... support

20 ... high frequency induction heating part 22 ... induction coil

24a, 24b ... cover 26 .... tie rod

28a ... fixing bolt 28b ... nut

32 .... Handle 32a ... Threaded

36 .... Sensor for detecting bearing outer diameter

38 .... Sensor for detecting temperature of motor shaft

40 .... withdrawal 44 .... platform

46 .... hydraulic cylinder 46a .... rod

50 .... nut member 52 .... long guide groove

54 .... adjusting bolt 60 .... hydraulic cylinder

62 .... Switch 70 .... Controller

200 .... Bearing 210 .... Spindle

220 .... gas torch

Claims (5)

In the device for separating and removing the bearing 200 fitted to the rotating shaft 210 of the rolling roll 205, A trolley 10 mounted with wheels 5 mounted on a lower surface thereof; A high frequency induction heating unit 20 generating a high frequency in front of the trolley 10 to apply a high frequency to the bearing 200 and to heat it; An extracting part provided with a plurality of hooks 42a and 42b that are attached to the rear end of the bearing 200 in order to extract the bearing 200 heated by the high frequency induction heating part 20 from the rotating shaft 210 ( 40); and And a controller 70 for supplying power to the induction coil 22 of the high frequency induction heating unit 20 and controlling a heating temperature of the bearing 200 at a predetermined predetermined temperature. Bearing separation device of a rolling roll rotating shaft, characterized in that the high-frequency heating and drawing out from the rotating shaft (210). The induction heating unit (20) is provided with a pair of ring-shaped covers (24a, 24b), and a high frequency induction coil (22) is disposed between the covers (24a, 24b). The covers 24a and 24b are coupled to each other through the tie rods 26 and the fixing bolts 28a so that the induction coil 22 is disposed in the space therebetween, and the induction coil 22 is wound in a cylindrical shape. The bearing separation device of the rolling roll rotating shaft, characterized in that the structure (200a) is positioned in the center space of the cover (24a) (24b) and the induction coil (22) is a high frequency heating. According to claim 1, wherein the high-frequency induction heating unit 20 is located in the support 14 of the trolley 10 so as to be arranged to be able to move up and down, the outer diameter of the cover (24a, 24b) is It is formed smaller than the inner space of the vertical support 14, the handle 32 having a thread 32a formed on the outer circumferential surface to the upper side of the tie rod 26 is extended long to the upper side of the upper bar of the support 14 ( When the handle 32 is rotated to the left and right by screwing to 14a), the cover 32 is rotated together with the lids 24a and 24b and the induction coils 22 connected through the tie rods 26, thereby supporting the support ( 14. The bearing separating apparatus of the rolling roll rotating shaft, which is capable of lifting up and down relative to the upper bar (14a). The induction heating unit (20) according to claim 1, further comprising a sensor (36) for detecting the bearing outer diameter temperature and a sensor (38) for detecting the temperature of the rotating shaft of the motor between the lids (24a, 24b). Bearing separator of the rolling roll rotating shaft, characterized in that. The platform 40 of claim 1, wherein the lead portion 40 is provided with a hydraulic cylinder 46 at the center of the platform 44 so that the rod 46a faces the center of the platform 44. The bearing separating device of the rolling roll rotating shaft, characterized in that for pulling out the bearing 200 formed in the gap at the engaging portion of the rotating shaft 210 to interact with the hooks (42a, 42b) provided in the front end of the) .