KR102543098B1 - Micro stopper fixing device - Google Patents

Abstract

The present invention relates to a micro stopper fixing device.
The micro stopper fixing device according to the present invention is a micro stopper tool that performs surface processing of an object to be processed by being rotated by receiving power from a power unit, and a micro stopper tool that is combined with the micro stopper tool and can be transported to one side, thereby increasing the processing depth of the micro stopper tool. A micro stopper comprising a guide to adjust, a first block coupled to the power unit and having a guide hole for transporting the second block, coupled to the first block and the guide, and limiting rotation of the guide It is configured to include a second block to.
According to the present invention as described above, it is possible to prevent surface damage of the object to be processed due to rotation of the guide.

Description

Micro stopper fixing device {Micro stopper fixing device}

The present invention relates to a micro-stopper fixing device, and more particularly, by limiting the rotation of a guide constituting the micro-stopper, preventing surface damage of an object to be processed due to the rotation of the guide in performing a counter sinking operation using the micro-stopper It is about a micro stopper fixing device that allows you to do this.

In general, a bolt is used to connect or combine two different objects.

These bolts are configured to include a bolt head for limiting the transfer according to rotation during the fastening process or to receive rotational force by a tool.

As such, the bolt head is formed at the top of the bolt, and when the bolt is coupled with other objects, the bolt head is positioned to protrude from the surface of the other object.

In this way, the bolt head protrudes outward from the surface of the coupled object, so that the surface is not smooth, thereby causing a problem that the appearance is not beautiful or jamming occurs.

In particular, in the case of a streamlined object such as an airplane wing, air resistance increases as the bolt head protrudes.

Accordingly, a counter sink operation is performed to prevent the bolt head from protruding outward from the surface of the object to which the bolt is coupled.

Here, the countersinking operation is to allow the bolt head to be buried inward from the surface of the object. If the countersinking operation is performed excessively deep, the bolt head is deeply embedded in the object, which is due to the appearance of the object. This makes it unattractive or increases the air resistance of streamlined objects.

That is, it is best to perform the countersinking operation so that the tip of the bolt head is located on the same line as the surface of the object.

To this end, a microstop counter sink cage is developed that enables counter sinking to be performed at the same depth when counter sinking is repeatedly performed.

Such a micro stopper is configured to include a micro stopper tool for processing the surface of an object and a guide for adjusting the protruding length of the micro stopper tool by being transferred to one side when in contact with the surface of the object.

However, in the process of rotating the micro stopper tool for processing the surface of the object, the guide also rotates, and in this way, there is a problem in that the surface of the object is damaged while the guide rotates in contact with the surface of the object.

Therefore, an object of the present invention has been made to solve the problems of the prior art as described above, and by limiting the rotation of the guide constituting the micro stopper, in performing a counter sink operation using the micro stopper, the rotation of the guide It is to provide a micro stopper fixing device capable of preventing surface damage of an object to be processed according to the present invention.

According to a feature of the present invention for achieving the above object, a micro stopper tool that performs surface processing of an object to be processed by being rotated by receiving power from a power unit, and a micro stopper tool that is combined with the micro stopper tool and can be transferred to one side In the micro stopper comprising a guide for adjusting the processing depth of the stopper tool, a first block coupled to the power unit and having a guide hole for transporting the second block is formed, and the first block and the guide are combined And characterized in that it is configured to include a second block for limiting the rotation of the guide.

In the first block, a first coupling hole for coupling with the power unit is formed.

The second block includes a fixed block coupled to the guide and transported to one side along with the guide, and a transport block coupled to the fixed block and the first block and transported inside the guide hole according to the transport of the fixed block. characterized by

The fixing block includes a fixing block body having an outer shape and having a second coupling hole for coupling with the guide, and a plunger provided in plurality inside the fixing block and limiting rotation of the guide inserted into the second coupling hole. And, it is provided on one side of the plunger, characterized in that it comprises an adjustment bolt for adjusting the pressing force of the plunger.

The plunger is characterized in that it is configured to include a contact portion in contact with the guide, and an elastic portion provided on one side of the contact portion and having elasticity so that the contact portion can be transported by elasticity.

The micro stopper fixing device according to the present invention has the following effects.

In the present invention, when processing the surface of the object to be processed using the micro stopper, there is an advantage in that damage to the surface of the object to be processed can be prevented due to unwanted rotation of the guide.

According to the present invention, as the plunger is provided, unwanted rotation of the guide is restricted while the micro stopper tool has the advantage of enabling the flow to satisfy the normal direction with the surface of the object to be processed.

In the present invention, as the guide hole is formed in the first block, there is an advantage in that unwanted rotation of the guide is restricted while sliding movement of the guide up and down is possible.

1 is a front view showing an application example of a preferred embodiment of a micro stopper fixing device according to the present invention
Figure 2 is a side view showing an application example of a preferred embodiment of the micro stopper fixing device according to the present invention
Figure 3 is a front view showing the configuration of a preferred embodiment of the micro stopper fixing device according to the present invention
Figure 4 is a plan view showing the configuration of a fixing block constituting a preferred embodiment of the micro stopper fixing device according to the present invention

Hereinafter, a preferred embodiment of the micro stopper fixing device according to the present invention will be described with reference to the drawings.

As shown in Figures 1 to 4, one embodiment of the micro stopper fixing device according to the present invention is shown. That is, FIG. 1 is a front view showing an application example of a preferred embodiment of the micro stopper fixing device according to the present invention, and FIG. 2 is a side view showing an application example of a preferred embodiment of the micro stopper fixing device according to the present invention. 3 is a front view showing the configuration of a preferred embodiment of the micro stopper fixing device according to the present invention, and FIG. 4 is a plan view showing the configuration of a fixing block constituting a preferred embodiment of the micro stopper fixing device according to the present invention is shown.

As shown in these figures, the micro stopper fixing device according to the present invention is rotated by receiving power from the power unit 20 to perform surface processing of the object to be processed, the micro stopper tool 11, and the micro stopper tool ( In the micro stopper 10 configured to include a guide 12 for adjusting the processing depth of the micro stopper tool 11 by being coupled to 11) and being able to be transported to one side, it is coupled to the power unit 20 and The first block 30 in which the guide hole 32 for the transfer of the second block 40 is formed, and the first block 30 and the guide 12 are combined and limit the rotation of the guide 12 It is composed of two blocks 40 and the like.

First, the micro stopper 10 corresponds to a tool for counter sinking, and is configured so that counter sinking can be repeatedly performed at a constant depth set by the user by setting and adjusting the processing depth by the user.

Here, counter sinking means additionally forming grooves so that bolt heads formed on top of bolts can be buried on the surface of a coupling object, and counter sinking means processing to form a counter sink.

As shown in FIG. 1, the micro stopper 10 is rotated by receiving power from the power unit 20 to perform surface processing of the object to be processed, and the micro stopper tool 11 ) It is provided to be able to be transported up and down from the outside of the micro stopper tool 11 and is configured to include a guide 12 for adjusting the processing depth.

In detail, the guide 12 is configured to be positioned to extend downward (in FIG. 1) than the micro stopper tool 11 in normal times, and the guide 12 is in contact with the surface of the object to be processed while the guide 12 is subjected to a pressing force. When provided, the guide 12 is transferred upward (in FIG. 1), and in this process, the micro stopper tool 11 can come into contact with the surface of the object to be processed.

At this time, the sliding feed of the guide 12 is fed upward only to a specific position according to the user's setting, whereby the processing depth of the micro stopper tool 11 is set by the guide 12 to the depth set by the user It will be.

Meanwhile, the power unit 20 means a spindle that provides rotational power.

The first block 30 is a part coupled to the power unit 20 .

As shown in FIG. 1, the first block 30 is made to be bent in an 'L' shape.

In addition, a first coupling hole 31 for coupling with the power unit 20 is formed in the first block 30 .

As shown in FIG. 3, the first coupling hole 31 penetrates from the upper side to the lower side on a horizontal surface even in an 'L' shape.

The first coupling hole 31 is a portion coupled to the power unit 20 and is preferably formed to correspond to the outer diameter of the power unit 20 .

Therefore, the first block 30 will be able to be inserted into the power unit 20 through the first coupling hole 31 from the lower side (in FIG. 1) in the upper direction, and additionally the power unit by a bolt ( 20) can be fixed.

And, a guide hole 32 is formed in the first block 30 .

As shown in FIG. 3, the guide hole 32 is penetrated from the right side to the left side of the 'L' shape in a vertical direction.

These guide holes 32 are formed long up and down (in FIG. 2).

The second block 40 is coupled to the guide hole 32 as described above.

The second block 40 is combined with the guide 12 and coupled with the fixed block 100 transported to one side along with the guide 12, the fixed block 100 and the first block 30, It is configured to include a transfer block 200 and the like that are transferred inside the guide hole 32 according to the transfer of the fixing block 100.

The fixing block 100 is provided with a fixing block body 110 having an outer shape and having a second coupling hole 140 for coupling with the guide 12, and a plurality inside the fixing block 100, A plunger 120 that restricts the rotation of the guide 12 inserted into the second coupling hole 140, and an adjustment bolt 130 provided on one side of the plunger 120 and adjusting the pressing force of the plunger 120, etc. It consists of including.

First, the fixed block body 110 is made of a shape similar to a square flat plate.

The fixed block body 110 is a part coupled to the guide 12, and for this purpose, a second coupling hole 140 is formed in the fixed block body 110.

The second coupling hole 140 is formed through a downward direction from the upper surface (in FIG. 3) of the fixing block body 110.

The second coupling hole 140 is a portion coupled to the guide 12, and is preferably formed to have a larger diameter while being formed to correspond to the outer diameter of the guide 12.

This is because the micro stopper 10 is configured to flow in order to always satisfy the normal direction even on various surfaces such as a streamlined shape in processing the surface of the object to be processed.

And, the plunger 120 is provided in the fixing block 100.

The plunger 120 is for limiting rotation of the guide 12 by pressing the guide 12 located inside the second coupling hole 140 .

The plunger 120 has a contact portion 121 in contact with the guide 12, and an elastic portion provided on one side of the contact portion 121 and having elasticity so that the contact portion 121 can be transported by elasticity (122) and the like.

The contact portion 121 is positioned to protrude inward from the inner ring of the second coupling hole 140, and is a portion in contact with the guide 12 located inside the second coupling hole 140.

For example, the contact portion 121 has a spherical shape for stable contact with the guide 12 .

Also, an elastic part 122 is provided on an outer surface of the contact part 121 .

The elastic part 122 is provided on the outer surface of the contact part 121 (in the outer direction of the second coupling hole), so that the contact part 121 can be moved by elasticity inside the fixed block body 110. is to do

The elastic part 122 is preferably made of an elastic body, and in the present invention, the application of a spring is taken as an example.

Therefore, the contact portion 121 can move forward or backward from the inside of the fixed block body 110 by the elastic force of the elastic portion 122 .

Of course, the contact portion 121 is configured to be coupled or connected to the elastic portion 122 .

As such, as the plunger 120 includes the elastic part 122, the rotation of the guide 12 is limited by the plunger 120, but the micro stopper 10 maintains the normal line while processing the surface of the object to be processed The flow to do so becomes possible.

In addition, the plunger 120 may further include a separate housing in addition to the contact portion 121 and the elastic portion 122 .

As such, the plunger 120 may be provided in plurality inside the fixed block body 110 .

In addition, an adjustment bolt 130 is provided on the outer surface of the plunger 120 .

The adjustment bolt 130 is provided on the outer surface of the plunger 120 (in the outer direction of the second coupling hole), and is for adjusting the elastic force of the plunger 120.

To this end, it is preferable that one side of the adjustment bolt 130 be exposed to the outer surface of the fixing block body 110 while one side contacts the plunger 120 .

That is, the insertion depth of the adjusting bolt 130 can be changed by the user, and accordingly, the elastic force of the elastic part 122 constituting the plunger 120 can be adjusted.

A transfer block 200 is provided above the fixing block 100 configured as described above.

The transfer block 200 is a component for connecting the first block 30 and the fixing block 100.

The transport block 200 is coupled with the fixing block 100 while being transportable up and down (in FIG. 3 ) along the inside of the guide hole 32 .

Here, it is exemplified that the transfer block 200 and the fixing block 100 are coupled by bolts.

As such, since the transfer block 200 can move up and down along the inside of the guide hole 32, the fixed block 100 coupled with the transfer block 200 can also move up and down together with the transfer block 200.

Therefore, in the process of contacting the guide 12 with the surface of the object to be processed, sliding movement of the guide 12 up and down (in FIG. 1) is possible even in the state of being coupled with the fixing block 100.

That is, in the present invention, when processing the surface of the object to be processed using the micro stopper, damage to the surface of the object to be processed due to unwanted rotation of the guide can be prevented.

In addition, according to the present invention, as the plunger is provided, unwanted rotation of the guide is restricted while the flow of the micro stopper tool to satisfy the normal direction with the surface of the object to be processed is enabled.

In addition, according to the present invention, as the guide hole is formed in the first block, the unwanted rotation of the guide is restricted while the up and down sliding movement of the guide is enabled.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible for those skilled in the art within the above technical scope.

10. Micro stopper 11. Micro stopper tool
12. Guide 20. Power unit
30. First block 31. First coupling hole
32. Guide hole 40. Second block
100. Fixed block 110. Fixed block body
120. Plunger 121. Contact
122. Elastic part 130. Adjustment bolt
140. Second coupling hole 200. Transfer block

Claims (5)

A micro stopper comprising a micro stopper tool that performs surface processing of an object to be processed by being rotated by receiving power from a power unit, and a guide that adjusts the processing depth of the micro stopper tool by being combined with the micro stopper tool and capable of being transported to one side in
A first block coupled to the power unit and having a guide hole for transporting the second block;
It is configured to include; a second block coupled to the first block and the guide and limiting the rotation of the guide,
The second block,
a fixed block coupled to the guide and transported to one side together with the guide;
It is configured to include; a transfer block coupled to the fixed block and the first block and transferred inside the guide hole according to the transfer of the fixed block,
The fixed block,
A fixed block body forming an outer shape and having a second coupling hole for coupling with the guide;
a plurality of plungers provided inside the fixing block and limiting rotation of the guide inserted into the second coupling hole;
It is provided on one side of the plunger and includes an adjustment bolt for adjusting the pressing force of the plunger.
The plunger,
a contact portion in contact with the guide;
An elastic part provided on one side of the contact part and having elasticity so that the contact part can be transported by elasticity. Micro stopper fixing device comprising a. According to claim 1,
A micro stopper fixing device, characterized in that the first block is formed with a first coupling hole for coupling with the power unit. delete delete delete

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