KR20120019587A - A ball bearing withdraw device - Google Patents

Abstract

PURPOSE: A ball bearing ejection device is provided to prevent the falling of a bearing structure by stably supporting operating rods with a compression block. CONSTITUTION: A ball bearing ejection device comprises a hydraulic ram, a reaction force plate(20), a plurality of operating rods(30), and insertion balls(40). The hydraulic ram is settled on the top of a supporting shaft. The reaction force plate is settled on the top of the hydraulic ram and lifted by a hydraulic operation. The upper ends of the actuating rods are supported by fastening nuts(31) coupled to the reaction force plate. The insertion balls are respectively coupled to the bottoms of the operating rods. Flat surfaces are formed on both sides of an insertion ball so that the outer diameter of the insertion ball is reduced and the insertion ball is inserted between the outer and inner races of a ball bearing.

Description

Ball Bearing Dispenser {A BALL BEARING WITHDRAW DEVICE}

The present invention relates to a ball bearing takeout device, and more particularly, to be able to easily withdraw the ball bearing mounted in various facilities, such as power plants and industrial plants without complete disassembly of peripheral devices.

In general, two main oil pumps are installed in three main water pumps per unit of a power plant, and operation is performed. When the bearings installed in the main oil pump are damaged, the corresponding bearings are replaced.

On the other hand, in order to replace the bearings, the facility must be disconnected from the system. Therefore, the main water supply pump must be stopped for 24 hours or more, and power plant derating is performed.

Therefore, the conventional manpower and material loss for the replacement work of the ball bearing had a problem that large acts.

The present invention has been proposed to improve the problems in the conventional bearing replacement operation, the object is to improve the work efficiency by providing a withdrawal equipment that can be easily disassembled the ball bearing only without disassembly of the pump peripheral equipment have.

The present invention for achieving the above object, the hydraulic ram is provided on the upper portion of the support shaft forming the support shaft of the ball bearing; A reaction force plate configured to be seated on an upper portion of the hydraulic ram and configured to move up and down by hydraulic operation; A plurality of actuating rods having a predetermined length in a vertical direction in which a top is bolted to the reaction plate; It is coupled to the lower end of each of the operation rod, the insertion hole is formed in a symmetrical form on both sides to form a spherical shape to reduce the outer diameter to be inserted into the space between the outer ring and the inner ring of the ball bearing; The configuration is characterized by two rooms.

The present invention, the ball bearing can be taken out quickly and easily, so that it is not necessary to disassemble the peripheral device for the replacement, thereby improving the work efficiency in the replacement work and reducing the time required.

1 is an exploded view of parts of a bearing takeout device according to an embodiment of the present invention.
Figure 2 is a structural view of the insertion hole component of the present invention extraction apparatus.
3 is a cross-sectional view of the insertion opening of the extraction device of the present invention.
Figure 4 is a plan view of the reaction force plate of the drawing device of the present invention.
Figure 5 shows the insertion process in the bearing of the extracting device of the present invention,
5a is a state diagram before inserting the bearing.
5b is a state diagram after inserting the bearing.
Figure 6 is a perspective view of the installation state of the extraction device of the present invention.
Figure 7 is a cross-sectional view of the installation state of the extraction apparatus of the present invention.
Figure 8 is a cross-sectional view of the ball bearing pulled out state by the drawing device of the present invention.
9 is a cross-sectional view showing a reaction plate structure according to another embodiment of the present invention,
9a is a state of separation from the hydraulic ram.
9b is a state diagram when the hydraulic ram is combined.
10 is an enlarged view illustrating main parts of an operating rod support structure according to another embodiment of the present invention.
10a is a side sectional view.
10b is a plan sectional view.

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

First, looking at the structure of the bearing take-off apparatus according to an embodiment of the present invention, the reaction force plate 20 is formed through a plurality of fastening grooves 21, and the upper end is fastened to the fastening groove 21 by a fastening nut 31 The operating rod 30 supported in the vertical direction and having a predetermined length, the insertion hole 40 inserted into the ball bearing and detachably coupled to the lower end of the operating rod 30, and the reaction plate 20 to upwardly flow It consists of a hydraulic ram (10).

In particular, the insertion hole 40 in the present invention forms a spherical shape of the same size or slightly smaller than the bearing ball, it is possible to insert through the gap space between the outer ring (2) and the inner ring (3) of the ball bearing Figure 2 And as shown in Figure 3 forms a flat surface 41 is processed on both sides in a symmetrical planar plane, the structure is detachable by a screw coupling with the operating rod 30, various sizes depending on the size of the ball bearing The insertion hole for disassembly of 40 was made possible to replace.

Meanwhile, the three fastening grooves 21 formed in the reaction force plate 20 are formed at 120-degree intervals, and at the same time, one further is formed at the 180-degree position with the central fastening groove 21. 2 or 3 can be selectively mounted depending on the weight of the bearing structure.

The ball bearing withdrawal process using the present invention bearing bearing device will be described.

First, by disassembling the housing cover (not shown) covering the upper part of the bearing housing 5 which protects the bearing so that the bearing structure is exposed, the bearing extracting device of the present invention is installed to extract the bearing.

That is, as shown in FIGS. 5 to 8, the hydraulic ram 10 is mounted on the support shaft 1, and the reaction rod 20 is mounted on the hydraulic ram 10. Insert the insertion hole 40 coupled to the lower end of the into the bearing.

In particular, in this case, after the retainer (not shown) installed to maintain the gap between the bearing balls 4 in the bearing, the insertion work is performed in a state where the gap between the bearing balls 4 is spaced at a corresponding position.

In this insertion process, the flat surface 41 is inserted in a state in which the flat surface 41 is turned to face the outer ring 2 and the inner ring 3 side of the bearing, thereby interfering with the gap between the outer ring 2 and the inner ring 3. This does not occur and is easily inserted.

When the insertion is completed, as shown in FIG. 5B, when the operating rod 30 is rotated 90 degrees, the insertion hole 40 is caught inside, thereby achieving a state in which separation is prevented.

Thereafter, when the hydraulic ram 10 is operated, the reaction plate 20 is raised by the operation of the cylinder rod 11, and thus the operating rod 30, which is fastened and supported on both sides, is lifted and flowed together in FIG. 8. As can be seen that the bearing is easily drawn out from the bearing housing (5).

Therefore, during the replacement of the bearing, only the bearing can be selectively pulled out without performing a complete disassembly of the peripheral device, so that the replacement operation can be made more quickly and easily, and thus the power plant output reduction is not performed accordingly. It shows the benefits that contribute to stabilization.

On the other hand, Figure 9 shows the structure of the reaction plate 20 according to another embodiment of the present invention, as shown in the center of the bottom surface of the reaction plate 20 seating grooves for mounting to the upper end of the hydraulic ram (10) 23).

By such a configuration, when the reaction plate 20 is placed on the upper end of the hydraulic ram 10, the hydraulic ram 10 is able to be seated in the seat groove 23 in the correct position by the reaction plate 20 in the working process Safety accidents such as tilting due to being seated in this eccentric position can be prevented in advance.

In addition, Figure 10 shows the operating rod 30 support structure according to another embodiment of the present invention.

As shown, the fastening groove 21 formed in the reaction force plate 20 has an elliptical shape, and one side of the fastening groove 21 is formed by an elastic spring 24 to prevent rotation of the operation rod 30. It is configured to constitute a pressing block 25 that is supported to pressurize the operating rod 30 at a predetermined pressure.

In this configuration, the pressure block 25 supports the operation rod 30 at a predetermined pressure, so that the phenomenon in which the operation rod 30 spontaneously rotates in the course of operation can be prevented.

That is, in the operation of drawing out the bearing structure, the operating rod 30 must be rotated 90 degrees so that the insertion hole 40 is held inside the bearing, but the operating rod 30 is rotated back to its original position during the drawing operation. When the locking state is released, the bearing structure can be dropped.

Therefore, by stably supporting the operating rod 30 by the pressure block 25 as in this embodiment, it is possible to prevent the occurrence of such accidents in the bearing structure.

1: support shaft 2: outer ring
3: inner ring 4: bearing ball
10: hydraulic ram 11: cylinder rod
20: reaction plate 21: fastening groove
22: guide groove 23: seating groove
24: elastic spring 25: pressure block
30: operating rod 31: tightening nut
40: insertion hole 41: flat surface

Claims (6)

A hydraulic ram 10 provided on an upper portion of the support shaft 1 forming a support shaft of the ball bearing;
Reaction plate 20 is configured to be mounted on the upper portion of the hydraulic ram (10) and the lifting flow by the hydraulic operation;
A plurality of actuating rods 30 having a predetermined length in the vertical direction, the upper end of which is supported by the fastening nut 31 at the reaction force plate 20;
It is coupled to the lower end of each of the operation rods 30, and forms a spherical shape, but reduces the outer diameter so as to be inserted into the space between the outer ring 2 and the inner ring 3 of the ball bearing in a symmetrical form on both sides Insertion hole 40 forming a flat surface 41;
Ball bearing drawing device characterized in that the configuration comprising a room. The method according to claim 1,
Ball bearing take-out device, characterized in that the reaction plate 20 is formed through the fastening groove 21 for insertion and fastening of the operating rod (30). The method according to claim 1,
The insertion hole 40 is a ball bearing take-out device, characterized in that the maximum outer diameter has the same size as the bearing ball (4) provided between the outer ring (2) and the inner ring (3). The method according to claim 1 or 3,
The insertion hole 40 is a ball bearing drawing device, characterized in that to form a detachable assembly structure with the operating rod (30). The method according to claim 1,
Ball bearing take-out device, characterized in that the seating groove 23 for seating on the upper end of the hydraulic ram 10 in the center of the bottom surface of the reaction plate (20). The method according to claim 2,
The fastening groove 21 formed in the reaction plate 20 has an elliptical shape, and is supported by an elastic spring 24 to prevent rotation of the operating rod 30 on one side of the fastening groove 21. Ball bearing withdrawal device characterized in that the pressure block 25 for supporting the rod 30 by a predetermined pressure.

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