JPH0762966A - Drilling bit - Google Patents

Abstract

PURPOSE:To reduce noise such as the vibration noise generated by diamond chips and a shank and the resonance noise generated by the inside space of the shank when the side wall of a Hume pipe and a concrete wall are drilled. CONSTITUTION:Grooves 18 are carved on the outside periphery of a shank 12 connected with diamond chips 14, and a soft material 50 such as rubber is buried in the grooves 18. The vibration noise generated by the diamond chips 14 and the shank 12 connected with them and the resonance noise generated by the inside space of the shank 12 are absorbed or negated by the soft material 50.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a boring bit for boring a fume pipe or a reinforced concrete wall.

[0002]

2. Description of the Related Art Conventionally, when a hole for connecting a branch pipe is formed in a side wall of a fume pipe (concrete pipe having a steel strip as a core material) or a hole for inserting a pipe is formed in a reinforced concrete wall. Uses a drill bit 10 as shown in FIGS. 4 and 5.

The perforating bit 10 has a shape in which a plurality of diamond tips (sintered body containing fine diamond powder) 14 are joined to a tip end edge of a cylindrical metal shank 12 at a predetermined pitch. is doing. This drill bit 1
When a hole is formed in a side wall of a fume pipe or a concrete wall by using 0, as shown in FIG. 5, the rear end of the shank 12 is connected to the output shaft 22 of the electric motor via the shaft coupling 30 to generate the electric motor. 20 is used to rotate the shank 12 about its axis. Then, the diamond tip 14 at the tip of the shank 12 is pressed against the side wall of the fume pipe or the reinforced concrete wall, and the diamond tip 14 is used to make a hole for connecting the branch pipe or a hole for inserting the pipe into the reinforced concrete wall. ing.

[0004]

However, as described above, when a hole is formed in the side wall of the fume pipe or the reinforced concrete wall by using the drill bit 10 as described above, the inner space of the rotating shank 12 produces a loud resonant noise. The diamond tip 14 and the shank 12 joined to the diamond tip 14 while cutting the side wall of the fume pipe or the reinforced concrete wall emitted a loud vibration noise. The noise value generated by the drill bit 10 reaches 130 horns or more, which may cause a hearing loss of the drilling worker and scatter great noise pollution to the residents near the work site.

The present invention has been made in view of the above problems, and an object thereof is to provide a drill bit capable of significantly reducing noise such as resonance noise and vibration noise generated by the drill bit. There is.

[0006]

In order to achieve the above object, the first drill bit of the present invention is a drill bit formed by joining a diamond tip to a tip of a shank having a cylindrical shape. It is characterized in that a soft material for noise reduction is wound around and adhered.

In the first drill bit of the present invention,
It is preferable to engrave a groove around the outer periphery of the shank and to apply the soft material embedded in the groove.

The second perforation bit of the present invention is a perforation bit in which a diamond tip is joined to the tip of a cylindrical shank, and a soft material for noise reduction is wound around the inside of the shank. It is characterized by being attached.

In the second drill bit of the present invention,
It is preferable to engrave a groove around the inner side of the shank and apply the material with the soft material embedded in the groove.

In the first and second drill bits of the present invention, it is preferable to use rubber or synthetic resin as the soft material.

[0011]

In the first and second drill bits of the above construction, while rotating the shank around its axis, the diamond tip joined to the tip of the shank is pressed against the side wall of the fume pipe or the reinforced concrete wall and these walls are pressed. When a hole is opened in the shank, noise such as resonance noise generated by the shank inner space or vibration noise generated by the shank that joins the diamond tip and the shank is absorbed or absorbed by the soft material that is attached to the outside or inside of the shank. It is canceled with a soft material. Then, the noise generated by the shank or the diamond tip is reduced.

Further, the vibration noise generated by each part of the shank or the plurality of diamond tips and the resonance noise generated by the inner space of the shank are continuously wound on the outer side or the inner side of the shank without a gap. The soft material is completely absorbed, and the soft material is surely canceled.

Further, in the first and second perforation bits which are formed by engraving a groove on the outer side of the shank or around the inner side thereof and embedding the soft material in the groove, the outer side of the shank or the bit The flexible material embedded in the groove around the inside is protected by the surrounding tough metal shank peripheral wall, and the fragile flexible material is prevented from coming into contact with the fume pipe side wall or the cutting point of the concrete wall and crushing. It

[0014]

Embodiments of the present invention will now be described with reference to the drawings. 1 and 2 show a preferred embodiment of the first drill bit of the present invention, FIG. 1 is a perspective view thereof, and FIG. 2 is an explanatory view showing its usage state. The punching bit will be described below.

In the figure, reference numeral 12 is a cylindrical metal shank having a rear end opening formed of a metal bottom wall 16
It is sealed with.

A plurality of block-shaped diamond tips 14 are joined to the tip edge of the shank 12 at a predetermined pitch by laser welding or the like.

The above construction is the same as that of the drill bit 10 shown in FIGS. 4 and 5, but the drill bit 10 shown in the drawings.
In No. 0, the soft material 50 for noise reduction is wound around the outside of the shank 12 and is attached. In particular,
Grooves 18 are formed in the upper and lower portions of the outer periphery of the shank 12, respectively, and the flexible material 50 is embedded in the grooves 18. The soft material 50 is made of rubber or synthetic resin. The soft material 50 may be made of leather, caulking material, or the like.

The first drill bit 1 shown in FIGS. 1 and 2.
00 is configured as described above.

Next, an example of use of the first punching bit 100 and its operation will be described.

As shown in FIG. 2, the drill bit 100.
Is connected to the output shaft 22 of the electric motor via a shaft coupling 30. Specifically, the bottom wall 16 of the drill bit is attached to the flange 32 of the shaft joint fitted to the output shaft 22 of the electric motor by using the bolt 34.

Next, the electric motor 20 is driven to rotate the drill bit 100 about the axis of the shank 12, and the diamond tip 14 bonded to the tip of the shank 12 is rotated.
Against the side wall of a fume pipe or a concrete wall.

Then, holes can be formed in the side wall of the fume pipe and the concrete wall with the diamond tip 14.

At that time, noise such as resonance noise generated by the inner space of the shank 12 or vibration noise generated by the shank 12 joined to the diamond tip 14 is absorbed by the soft material 50 or canceled by the soft material 50. And is reduced.

In addition, shank 12 and diamond tip 1
The vibration noise generated by each of the No. 4 and the resonance noise generated by the inner space of the shank 12 are surely and completely absorbed by the flexible material 50 applied in a continuously wound state without a gap around the shank 12, The soft material 50 ensures that it is completely canceled.

Further, the soft material 50 embedded in the groove 18 around the outer side of the shank 12 is protected by the tough metal shank 12 peripheral wall around the shank 12, and the fragile soft material 50 is cut at the fume pipe side wall or the concrete wall. It is prevented from touching and crushing.

FIG. 3 shows another preferred embodiment of the second drill bit of the present invention, showing in detail a perspective view thereof. The punching bit will be described below.

In the illustrated drill bit 102, the flexible material 50
Is wrapped around the inside of the shank 12. Specifically, grooves 18 are formed in the upper and lower portions of the inner circumference of the shank 12, and the flexible material 50 made of rubber or synthetic resin having a ring shape is embedded in the grooves 18 and attached. ing.

Others are the same as those of the first perforation bit 100 shown in FIGS. 1 and 2, and the usage example and the operation thereof are also the first perforation shown in FIGS. 1 and 2. Since it is the same as the working bit 100, its description is omitted.

The above-mentioned first and second perforating bits 10 are provided.
In Nos. 0 and 102, when the flexible member 50 is a tough member that is not easily crushed even if it touches the cut portion of the fume pipe side wall or the concrete wall, the groove 18 should be formed on the outside of the shank 12 or around the inside thereof. Instead, the flexible member 50 may be attached to the peripheral wall of the shank 12 by projecting outwardly or inwardly of the shank 12.

[0030]

As described above, according to the first and second boring bits of the present invention, when the boring bit is bored on the side wall of the fume pipe or the concrete wall, the boring bit is drilled. Noise such as vibration noise generated by the diamond tip or shank and resonance noise generated by the inner space of the shank can be significantly reduced. Further, it is possible to prevent the site worker from being deafened by the noise generated by the drilling bit and the residents near the work site from suffering from noise pollution.

[Brief description of drawings]

FIG. 1 is a perspective view of a first boring bit of the present invention.

FIG. 2 is an explanatory diagram showing a usage state of the first punching bit of the present invention.

FIG. 3 is a perspective view of a second boring bit of the present invention.

FIG. 4 is a perspective view of a conventional drill bit.

FIG. 5 is an explanatory view showing a usage state of a conventional punching bit.

[Explanation of symbols]

 10, 100, 102 Drilling Bit 12 Shank 14 Diamond Tip 16 Bottom Wall 18 Groove 20 Electric Motor 22 Output Shaft 30 Shaft Coupling 50 Flexible Material

Claims (6)

[Claims] 1. A perforation bit formed by joining a diamond tip to the tip of a cylindrical shank, characterized in that a soft material for noise reduction is wound around the outside of the shank and is attached to the perforation bit. For a bit. 2. The drill bit according to claim 1, wherein a groove is engraved around the outer periphery of the shank and the flexible material is embedded in the groove. 3. A perforation bit formed by joining a diamond shank to the tip of a cylindrical shank, characterized in that a soft material for noise reduction is wound around the inside of the shank and is attached. For a bit. 4. The bit for perforation according to claim 3, wherein a groove is engraved around the inner side of the shank and the flexible material is embedded in the groove. 5. A rubber material is used as the soft material.
Alternatively, the bit for perforation according to item 4. 6. The synthetic resin is used for the soft material,
The bit for perforation according to 2, 3, or 4.