KR101136512B1 - Apparatus for removing scratch on sealing face of mechanic component - Google Patents

Abstract

The present invention provides an apparatus for removing scratches on the fluid sealing surface of a mechanical part having a fluid sealing surface formed of a base material and a plating layer having a hardness lower than the hardness of the base material. support fixture ; A spindle provided perpendicularly to an upper portion of the support and movable up and down and rotatably provided along a shaft center by a driving source; Scratch removal roller is provided on the lower end of the spindle rotatably, has a rotation center perpendicular to the axis center of the spindle, and is spaced apart from the axis center of the spindle and has a revolution center coinciding with the axis center of the spindle. ; And the rotating spindle is moved downward so that the scratch removing roller applies downward pressure to the fluid sealing surface of the mechanical part, and the scratch removing roller is in contact with the fluid sealing surface of the mechanical part. It is characterized in that by rotating the spindle in the state by rotating and rotating along the fluid sealing surface to remove the scratch formed on the fluid sealing surface.

Description

Scratch-removing device for mechanical parts with fluid sealing surfaces {APPARATUS FOR REMOVING SCRATCH ON SEALING FACE OF MECHANIC COMPONENT}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for removing scratches of a mechanical part, and more particularly, to an apparatus for removing scratches when a mechanical part has a fluid sealing surface for sealing a fluid such as hydraulic pressure or pneumatic pressure. will be.

In order to construct a hydraulic line or a pneumatic line, a plurality of mechanical parts are required, and some of the mechanical parts have a fluid sealing surface for sealing a fluid.

For example, a brake hose assembly or a power steering assembly of a vehicle constitutes a hydraulic line.

In general, the mechanical part is generally made of a metal base material, the surface of the metal base material is also common to form a plating layer for improving various functions.

As a representative example of the plating layer, a zinc plating layer made for improving corrosion resistance may be mentioned.

However, such a plating layer usually has a low hardness compared to the hardness of the base material.

As such, in the case of a mechanical part having a plating layer having a lower hardness than that of the base metal, scratches may occur due to external impacts during the handling or transporting process after the plating layer is formed.

In particular, the galvanized layer has a problem that the scratch occurs very easily due to the low hardness.

As such, scratches on mechanical parts prior to assembly are not normally a problem, but are serious for mechanical parts with fluid sealing surfaces that must be assembled with other parts, ie, joined together with other parts to prevent fluid leakage. It is a problem.

The eye joint used for the brake hose assembly of an automobile is a kind of mechanical part having a fluid sealing surface, and FIG. 1 is a perspective view of the eye joint.

In the case of the eye joint 10 has a fluid sealing surface 11, if a scratch occurs in the fluid sealing surface 11, the scratch formed in the circumferential direction as a does not matter, but is formed in the radial direction as b Scratch causes a problem of oil leaking through the scratch.

The shape of the scratch formed on the fluid sealing surface may be a shallow scratch (c) formed only on the galvanized layer 11b, as shown in the cross-sectional view of FIG. 2, or the metal base material 11a as well as the galvanized layer 11b. It may be a deeply dented scratch d.

Scratches are more problematic in the direction of scratches such as a and b than in depth problems like c and d.

Normally, the eye joint 10 is inspected for scratches by visual inspection before assembling, but if a scratch occurs, it is inevitably disposed of, and the amount of discarded amount reaches 20 to 30% of the total amount.

Of course, such scratches can be removed by performing the plating operation again, but it is advantageous in many ways to dispose of the scratches due to the trouble of the process and poor plating quality.

It is currently unknown how to remove scratches without redoing the plating operation.

In general, the polishing process is widely used to improve the roughness of the metal surface, but in the case of mechanical parts with a plated layer, if the polishing process is adopted, the plated layer is removed, causing quality defects.

The present invention is to propose a new device for removing a scratch if a scratch occurs in the mechanical part is formed with a plating layer as described above.

In order to solve the above problems, the present invention is a device for removing scratches on the fluid sealing surface of the mechanical component having a fluid sealing surface formed of a base material and a plating layer having a hardness lower than the hardness of the base material: A support provided to support the component; A spindle provided perpendicularly to an upper portion of the support and movable up and down and rotatably provided along a shaft center by a driving source; Scratch removal roller is provided on the lower end of the spindle rotatably, has a rotation center perpendicular to the axis center of the spindle, and is spaced apart from the axis center of the spindle and has a revolution center coinciding with the axis center of the spindle. ; And the rotating spindle is moved downward so that the scratch removing roller applies downward pressure to the fluid sealing surface of the mechanical part, and the scratch removing roller is in contact with the fluid sealing surface of the mechanical part. It is characterized in that by rotating the spindle in the state by rotating and rotating along the fluid sealing surface to remove the scratch formed on the fluid sealing surface.

In the above, the width of the scratch removal roller is preferably larger than the width of the fluid sealing surface.

As described above, in the present invention, when a scratch occurs in a mechanical part on which a plating layer is formed, it is very easily removed so that the mechanical part is not discarded due to scratches, thereby increasing the utilization of resources, and the scratch removing operation is very simple. Is done.

Hereinafter will be described in detail the configuration and operation according to an embodiment of the present invention.

A typical mechanical part consists of a metal base material and a plating layer formed on the surface of the base material.

In particular, in the case of a mechanical part having a fluid sealing surface, the plating layer has a low hardness compared to the hardness of the metal base material. Thus, the plating layer having a low hardness has a problem that the scratch easily occurs.

On the other hand, the plating layer having such a low hardness is excellent in ductility and malleability compared to the metal base material.

The present invention focuses on the fact that the scratch can be easily removed by utilizing the characteristics of the plating layer having such excellent ductility and malleability.

That is, when the scratch removal roller is rolled while applying pressure to the plating layer, the plating layer having excellent ductility and malleability can be scratched by filling the scratch by the pressure of the scratch removal roller.

At this time, the movement distance of the surface of the scratch removal roller should be approximately equal to the length of the plating layer on which the scratch removal operation is performed. If the scratch removal roller is forcibly rotated at a very high speed, it may cause damage to the plating layer.

3 is a conceptual diagram of a scratch removal method according to the present invention.

The fluid sealing surface 11 consists of the metal base material 11a and the zinc plating layer 11b formed in the upper part of the metal base material 11a.

When the scratch removal roller 110 is pushed to the right along the fluid sealing surface 11 under pressure, the scratch removal roller 110 rotates (ie, rolls) along the fluid sealing surface 11. To the right. At this time, it is important that the scratch removal roller 110 is rolled by the ground pressure with the fluid sealing surface 11, rather than being rolled by another driving source.

At this time, the movement distance of the surface of the scratch removal roller 110 is almost the same as the length of the fluid sealing surface 11 on which the scratch removal operation is performed.

That is, if the scratch removal roller 110 is pushed downward to the right and the scratch removal roller 110 is rotated once, the scratch removal roller 110 is about 3.14 x D along the fluid sealing surface 11 (where D is The diameter of the scratch removal roller).

When the roller 110 for scratch removal is rolled while applying pressure several times on the upper part of the zinc plating layer 11b, the scratch may be removed by filling the scratch by the ductility and malleability of the zinc plating layer 11b.

4 is a conceptual cross-sectional view of the scratch removing device according to an embodiment of the present invention, Figure 5 is a conceptual cross-sectional view showing an operating state of FIG.

The scratch removing device is composed of a support 200 and a spindle 100.

The support 200 is for supporting mechanical parts such as eye joints.

The spindle 100 is provided perpendicularly to the upper portion of the support 200. The spindle 100 is rotatably provided along its axis center by a drive source such as a motor. In addition, the spindle 100 is provided to be movable up and down by a drive source such as a motor or a manual operation such as a handle.

The configuration of the support 200 and the spindle 100 is almost similar to a conventional machining apparatus. The general drill processing apparatus is provided with both the support 200 and the spindle 100, and this apparatus used the structure of this general machining apparatus as it is.

However, the device is provided with a scratch removal roller 110 at the lower end of the spindle (100).

The scratch removal roller 110 is provided to rotate on the lower end of the spindle 100. To this end, a roller rotation shaft 111 is fixedly provided at a lower end of the spindle 100, and a scratch removal roller 110 is rotatably provided at the roller rotation shaft 111.

In this embodiment, since the roller rotation shaft 111 forms a right angle with the axis center of the spindle 100, the rotation center of the scratch removing roller 110 forms a right angle with the axis center of the spindle 100.

In addition, the scratch removal roller 110 is provided spaced apart from the axis center of the spindle (100). Therefore, the scratch removal roller 110 is revolved along the axis center of the spindle 100. That is, the revolving center of the scratch removal roller 110 coincides with the axis center of the spindle 100.

4 illustrates a state in which the spindle 100 is rotating, and thus the scratch removing roller 110 also revolves along the axis center of the spindle 100. At this time, the scratch removal roller 110 is not rotating.

5 is a change state of FIG. 4 when the scratch removal operation is performed.

First, the eye joint 10 is placed on the support 200.

Next, the spindle 100 is forcibly moved downward. Therefore, the scratch removal roller 110 comes into contact with the fluid sealing surface 11 of the eye joint 10.

At this time, the scratch removal roller 110 is in contact with the fluid sealing surface 11 of the eye joint 10 while applying a downward pressure.

In this state, rotation of the spindle 100 causes relative movement of the scratch removing roller 110 and the fluid sealing surface 11. That is, the scratch removal roller 110 rolls while rotating and rotating along the fluid sealing surface 11.

Meanwhile, the width W1 of the scratch removing roller 110 is preferably larger than the width W2 of the fluid sealing surface 11. This is to apply a uniform pressure to the whole plating layer width direction.

If it is maintained for a while in the state as shown in Figure 5, the scratch removal roller 110 repeats the process of rolling while applying a pressure to the fluid sealing surface 11 or more times, thereby mechanical components such as the eye joint 10 Of the fluid sealing surface 11 is removed.

That is, the scratch removal roller 110 repeats the rolling operation while applying pressure to the fluid sealing surface 11 by the rotational speed of the spindle 110 to remove the scratch.

As a result of performing the airtight test after the process of removing the scratch in the device as described above for the scratched eye joint 10, it was confirmed that the quality requirements are satisfied. That is, the eye joint that went through the above process was confirmed that the scratch is removed. Of course, it was easy to see that the scratch was removed even with the naked eye.

Although the scratch removal device for the eye joint has been described as above, other mechanical parts can also be removed in this manner.

The above embodiments are merely preferred embodiments of the present invention, and the technical spirit of the present invention may be variously modified or adjusted by those skilled in the art. Such modifications and adjustments fall within the scope of the present invention if they use the technical idea of the present invention.

The present invention can be used as an apparatus for removing scratches generated on the fluid sealing surface of a mechanical part.

1 is a perspective view of an eye joint,

2 is a cross-sectional view of the fluid sealing surface of FIG.

3 is a conceptual diagram of a scratch removal method according to the present invention,

4 is a conceptual cross-sectional view of the scratch removal apparatus according to an embodiment of the present invention;

5 is a conceptual cross-sectional view showing the operating state of FIG.

<Description of Symbols for Main Parts of Drawings>

10: eye joint 11: fluid sealing surface

11a: base material 11b: galvanized layer

100: spindle 110: scratch removal roller

111: roller rotation shaft 200: support

Claims (2)

A device for removing scratches on a fluid sealing surface of a machine part having a fluid sealing surface formed of a base material and a plating layer having a hardness lower than the hardness of the base material, the method comprising: A support provided to support the mechanical component;  A spindle provided perpendicularly to an upper portion of the support and movable up and down and rotatably provided along a shaft center by a driving source; Is provided rotatably at the bottom of the spindle, has a rotation center perpendicular to the axis center of the spindle, is provided spaced apart from the axis center of the spindle has a revolving center coincides with the axis center of the spindle, the fluid seal A scratch removal roller having a width greater than the width of the surface; And, When the rotating spindle moves downward and the scratch removing roller exerts downward pressure on the fluid sealing surface of the machine part, the spindle of the spindle is in contact with the fluid sealing surface of the machine part. And revolving and rotating along the fluid sealing surface to remove scratches formed on the fluid sealing surface. delete

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