KR101127003B1 - Bit device having shock absorber and anchor construction method using the same - Google Patents

Abstract

PURPOSE: A boring device having a buffering function and an anchor construction method using the same are provided to reduce noises and vibrations in a boring and to prevent damages of a bit caused by vibrations. CONSTITUTION: A boring device having a buffering function and an anchor construction method using the same comprise a bit(10), a chuck(20), and a shock absorber(30). The bit comprises a first boring unit(11) and a second boring unit(12). The first and second boring units have different boring radiuses to bore a double bore hole capable of inserting an anchor into a ground. The chuck fix bit to be operated. The shock absorber is arranged between the bit and chuck, thereby elastically supporting the bit to the chunk. The shock absorber reduces an over pressure and vibrations generated while boring the bore hole by the bit.

Description

Drilling device having a buffer function and anchor construction method using the same {BIT DEVICE HAVING SHOCK ABSORBER AND ANCHOR CONSTRUCTION METHOD USING THE SAME}

The present invention relates to a bit device with a shock absorber and an anchor construction method using the same, and more particularly, to a drilling device having a shock absorbing function capable of attenuating vibration generated during drilling and an anchor construction method using the same. will be.

In general, as the industry develops, it is inevitable to develop slopes such as mountain roads such as foundation roads and complexes. Currently, the sliding reality of slopes is constantly occurring regardless of time and place. Acting as. For this reason, the slope reinforcement method is performed as a stabilization method to suppress the collapse and sliding of the slope.The slope stabilization method is classified into various types such as active force reduction method, resistance increase method, and surface protection method according to the construction purpose. Among them, the resistive augmentation method is a rock bolt, earth anchor, small nail, stepped retaining wall.

In order to stabilize the soil and prevent leakage, a plurality of reinforcement materials should be embedded and grouted on the ground or rock, and in order to bury such reinforcement materials, a perforation work should be performed to form perforations in the ground or rock. The device used at this time is a punching device.

Such a mill factory is made of a structure in which a bit vibrating presses the ground or rock in contact with the ground or rock at the time of performing the drilling operation is mounted on the tip. Bits mounted on the tip are subject to strong external forces.

Therefore, severe vibration and noise are generated at the tip of the drilling device, and excessive power may be applied to the power device according to the ground or rock conditions, thereby causing a problem that the power device and the drilling device are damaged.

In addition, when the drilling operation starts, the bit may slide on the ground or rock due to the vibration of the bit, and thus a problem that the drilling operation may not be performed at a desired position may occur.

In addition, in the case of sequentially drilling holes having a dual structure by using bits having different sizes, the bits slide and are pushed out of the drilling positions, or each drill hole having a different radius is accurately (vertically or evenly flat). There is difficulty in construction.

An object of the present invention devised in view of the above point is to provide a cloth mill having a cushioning function to reduce vibration and noise during drilling, and to prevent damage to the bit due to vibration.

Still another object of the present invention is to prevent the bit from slipping out of the punching position by vibration, so that the accuracy of verticality and flatness of the punching hole can be improved by the bit when the punching hole having a double structure is to be drilled. The present invention provides a punching device having a function and an anchor construction method using the same.

Still another object of the present invention is to improve the workability and shorten the work time, since it is possible to simultaneously construct the drilling hole and the mounting groove by using the double outer bit formed with the first drilling portion and the second drilling portion having different inner diameters. The present invention provides a punching device having a buffer function and an anchor construction method using the same.

The punching mill having a buffer function to achieve the object of the present invention as described above, the first punching portion and the second punching hole having a different drilling radius so as to drill a double punching hole into which the anchor can be inserted into the ground. ; A chuck that secures the bit to be movable; And a buffer member interposed between the bit and the chuck to elastically support the bit to the chuck. The shock absorbing member cushions the overpressure or vibration generated when the bit is drilled through the punch hole.

In addition, more preferably, the bit may include the first punching part provided with a plurality of punching protrusions on one side; The second drilling portion protruding from the center portion of the first drilling portion and having a plurality of drilling protrusions at an end thereof; And a mounting part protruding from the other side of the perforation part and to which the buffer member is mounted.

In addition, more preferably, the bit protrudes to have a reduced inner diameter at the end surface of the mounting portion and is inserted into the chuck; It further includes.

Further, more preferably, the second drilling portion is detachably mounted at the center of one side of the first drilling portion.

Further, more preferably, when the second perforation part is separated from the first perforation part, a center projecting in a direction perpendicular to one side is detachably mounted at the center of one side of the first perforation part.

In addition, more preferably, the buffer member is composed of a spring one end is supported by the bit, the other end is supported by the chuck.

In addition, more preferably, the chuck is inserted into one side is inserted into the insertion groove of the hammer for generating a vibration, the insertion portion formed with a through hole through which the bit is fitted along the central axis; And a seating part protruding to have an extended radius from one side of the insertion part, and a seating part having a bottom surface on which the shock absorbing member is seated and the other end of the shock absorbing member is supported.

In addition, the anchor construction method using a cloth mill having a buffer function of a preferred embodiment of the present invention, the drilling hole to the second drilling portion to insert the anchor to the rock slope, the first side of the inlet side of the drilling hole The drilling step of drilling a mounting groove having an inner diameter and a cross-section than the drilling hole to the drilling portion.

In addition, more preferably, the fixing step of inserting and fixing the anchor in the drilling hole after performing the drilling step; A seating step of seating the pressure plate on the mounting groove to be in close contact with the bottom surface of the mounting groove; And a binding step of applying a prestress to the head of the anchor which penetrates the pressure plate and is exposed to the outside and binds the head plate in close contact with the other side of the pressure plate.

As described above, the punching device and the anchor construction method using the shock absorbing member having the shock absorbing function according to the present invention can reduce vibration and noise during drilling, thereby improving workability.

In addition, the punching mill according to the present invention prevents the bit from slipping out of the punching position during the punching operation, and when drilling the punching hole having a dual structure, the accuracy of verticality and flatness of the punching hole is improved by the bit. .

In addition, the construction method according to the present invention can be installed at the same time the drilling hole and the mounting groove using the fabric mill, thereby improving workability and shortening the working time.

1 is an exploded perspective view showing a fabric mill of the first preferred embodiment of the present invention;
2 is a cross-sectional view showing the mill factory shown in FIG.
3 is a front view showing the bit shown in FIG.
4 is an exploded perspective view showing a fabric mill of a second preferred embodiment of the present invention;
Figure 5 is a state diagram showing the anchor construction process using a cloth mill having a buffer function.

Hereinafter, with reference to the accompanying drawings, a drilling device having a cushioning function and an anchor construction method using the same, which is a preferred embodiment of the present invention.

1 is an exploded perspective view showing a fabric mill of the first preferred embodiment of the present invention, FIG. 2 is a cross-sectional view of the fabric mill shown in FIG. 1, and FIG. 3 is a front view showing the bit shown in FIG. 4 is a cross-sectional view showing a fabric mill as a second preferred embodiment of the present invention, and FIG. 5 is a state diagram illustrating an anchor construction process using a fabric mill having a buffer function.

As shown, the first embodiment of the present invention having a cushioning function having a buffer function, the chuck 20 is inserted into the insertion groove 22 of the hammer 21, the bit 10 is inserted into the chuck 20 and It is composed of a buffer member 30 mounted on the chuck 20 to elastically support the bit 10.

Hammer 21 is made of a hollow tubular shape having an insertion groove 22 to be inserted into the chuck 20 on one side. Inside the hammer 21, a piston for vibrating the bit 10 is mounted, and the piston is operated by compressed air. The mechanism of the bit 10 which vibrates when the piston is moved by the compressed air and the movement of the piston is a known technique and a detailed description thereof is omitted.

The bit 10 is formed in a plate shape forming a circular shape and provided with a plurality of perforation protrusions on one side, and a first perforation part 11, protrudes from a central portion of one side of the first perforation part 11, and a plurality of end portions. A second drilling portion 12 having two drilling protrusions, a mounting portion 13 protruding from the other side of the drilling portion 11, and having a buffer member 13 mounted thereon, and reduced from an end surface of the mounting portion 13. Protruding to have an inner diameter and consists of an insertion portion 14 coupled to the chuck 20. In addition, the bit 10 is formed with an inflow passage 15 through which the compressed air moving the piston along the central axis is formed, and the branch of the plurality of branches toward one side of the perforation portion 10 at the end of the inflow passage 15. The flow path 16 is formed. On one side of the first drilling portion 11, a discharge passage 11a extending from the end of the branch passage 16 to the circumferential surface of the first drilling portion 11 is formed. At the end of the insertion portion 14 of the bit 10 is formed a locking projection 17 protruding at regular intervals along the outer circumferential surface to maintain the fitted state to the chuck 20. On the inner circumferential surface of the chuck 20, a locking protrusion protruding in a shape corresponding to the locking protrusion 17 is formed. After the bit 10 is inserted into the chuck 20, the locking protrusion 17 is formed on the inner circumferential surface of the chuck 20. It is supported by the formed locking protrusion so that it is not easily separated.

As shown in FIG. 2, the second drilling portion 12 may be configured to be integrally formed with the first drilling portion 11, and may be detachably mounted as a separate component as illustrated in FIG. 4. It may be configured as a structure. That is, the second drilling portion 12 is configured to be detachably mounted to the insertion hole formed in the center of one side of the first drilling portion (11). At this time, the second drilling portion 12 is formed in a cylindrical shape, it is preferable that the screw is fastened to the insertion hole. In addition, the worker selectively attaches and detachably attaches the second drilling portion 12 and the center 17 to the first drilling portion 11. The center 17 serves to maintain the center by inserting the drilled hole with a small radius in the past, and then inserting the drilled hole into the existing drilled hole when the center 17 is to expand the hole size. do. The center 17 and the second drilling portion 12 preferably form a right angle with respect to one side of the first drilling portion 11.

The chuck 20 is inserted into the insertion groove 22 of the hammer 21 is coupled to the insertion portion 23 is formed with a through hole 23a through which the bit 10 is fitted along the central axis, and the insertion portion 23 A seating part 24 having a bottom surface 24a protruding to have a radius extended from one side and having a stepped inner diameter so that the shock absorbing member 30 is seated therein and the end of the shock absorbing member 30 is supported. It consists of.

The shock absorbing member 30 is preferably composed of a spring that is supported at one end of the bit 11 and the other end is supported by the chuck 20, but any structure may be applied if the structure is capable of elastically supporting the chuck 20. This is possible. In addition, the buffer member 20 may be made of various structures such as a coil spring or a leaf spring.

The choke 25 has a tubular shape fitted to the inflow path 15, and guides the compressed air to the inflow path 15.

The construction method for constructing the anchor by using a punching machine having a buffer function configured as described above is as follows.

As shown in FIG. 5, the punching step of forming the punching hole 101 using the punching mill having a buffer function is performed. At this time, the bit 10 constituting the boring mill is a double outer bit formed with the first punching part 11 and the second punching part 12, which extends more than the punching hole 101 near the punching hole 101 and the rock slope. The mounting groove 102 having the inner diameter can be drilled at the same time. Since the first drilling portion 11 and the second drilling portion 12 form a right angle, the mounting groove 102 forms a right angle with respect to the longitudinal direction of the drilling hole 101, and has a circular cross-sectional shape. In addition, depending on the construction conditions, the contractor previously drilled a small inner diameter drilling hole 101 by using a separate drilling mill, and then, using the bit 10 having the center 17 installed in the first drilling portion 11. The mounting groove 102 may be constructed. At this time, the center 17 is inserted into the drilling hole 101 serves to maintain the correct center position while constructing the mounting groove 102.

When the bit 10 is pressed while the drilling is performed, the buffer 10 is compressed and moved in the direction in which the bit 10 is drawn. At this time, the elastic member is generated in the shock absorbing member 30, the bit 10 presses the ground, so that the drilling operation can be performed at the correct position. In other words. The bit 10 due to the pressing force is prevented from slipping away from the puncturing position. In addition, if an excessive force is applied to the bit 10 during the drilling operation, the shock absorbing member 30 is compressed to attenuate the force to prevent the bit 10 from being damaged and to reduce noise and vibration.

As described above, when the drilling is completed, the anchor 110 is inserted into the drilling hole 101 and the fixing step is performed by fixing the grout.

And one side of the pressure plate 120 is seated in close contact with the bottom surface (102a) of the mounting groove (102). The head 111 of the anchor penetrates through the through hole 122 formed in the center of the pressure plate 120. In this case, an elastic supporter (waterproof plate) may be additionally installed between the pressure plate 120 and the bottom surface of the mounting groove 102.

After seating the pressure plate 120, the binding step of binding the head plate 130 that is in close contact with the other side of the pressure plate 120 while applying prestress to the head 111 protruding through the through hole 122 is carried out. . When the head 111 is bound to the head plate 130 in the state in which the tensile force is applied to the anchor 110, the acupressure plate 120, the anchor 110, and the reclining surface are integrally completed.

As described above, by using the bit 10 formed with the first drilling portion 11 and the second drilling portion 12 on the rocking surface as a structure to form a mounting groove 102 recessed to a predetermined depth, Compared with the anchor construction method, which required the back filling work, the work is easier and the air can be shortened. In addition, the pressure plate 120 is easy to install so as to form a right angle to the longitudinal direction of the anchor 110 has a feature that the workability is improved.

In addition, even when the rocking surface is uneven, the bottom surface 102a of the mounting groove 102 is formed in a plate so that the concentrated load does not occur in the pressure plate 120 or the eccentricity does not act to prevent destruction due to the accumulation of fatigue load.

In addition, the tension of the anchor 110 is evenly transmitted to the surface of the rock slope by the surface intrusion of the pressure plate 120 is structurally stable, and the occurrence of surface settlement or deformation of the rock slope by tension of the anchor 110 is significantly reduced. In addition, even in the case of the rock slope formed with a local reverse slope, it is less affected by the topography and can be arranged relatively uniformly, thereby improving structural stability of the anchor group. In addition, when the pressure plate 120 is manufactured in a circular shape, the installation position is not changed due to the eccentricity of the anchor 110 or rotation is not generated, thereby improving stability.

In addition, by mounting the buffer member 30 to elastically support the bit 10, it is possible to reduce the vibration or noise generated during the drilling operation, it is possible to prevent the bit 10 from being damaged due to excessive pressure. In the case of starting the drilling for the first time, the buffer member 30 contracts and serves to prevent the bit 10 from leaving the drilling position due to overpressure.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

10: bit 11: first hole
12: second drilling portion 13: mounting portion
14: inserting portion 15: inflow path
16: branch euro 20: chuck
21: hammer 22: insertion groove
23: inserting portion 24: seating portion
30: buffer member

Claims (9)

A bit 10 having a perforation portion having a different perforation radius so as to perforate a double perforation hole into which an anchor can be inserted into the ground;
A chuck 20 for fixing the bit 10 to be movable;
A buffer member 30 interposed between the bit 10 and the chuck 20 to elastically support the bit 10 to the chuck 20 so as to buffer overpressure or vibration generated while drilling the hole. Including;
The bit 10
A first punching part 11 provided with a plurality of punching protrusions on one side;
A second drilling unit 12 detachably mounted at a center of one side of the first drilling unit 11 and having a plurality of drilling protrusions at an end thereof;
A mounting part 13 protruding from the other side of the first punching part 11 and mounted with the shock absorbing member 30;
An insertion portion 14 protruding to have a reduced inner diameter at an end surface of the mounting portion 13 and coupled to the chuck 20; And
Removably mounted at the center of one side of the first hole 11 so as to be replaced with the second hole 12, and protrudes at a right angle to one side of the first hole (10). Center 17; Perforation device having a buffer function, characterized in that consisting of. delete delete delete delete The method of claim 1, wherein the buffer member 30
One end is supported by the bit (10), the other end is punching device having a buffer function, characterized in that consisting of a spring supported on the chuck (20). 7. The chuck 20 according to claim 6, wherein
An insertion part 23 having one side inserted into and coupled to the insertion groove 22 of the hammer 21 for generating vibration, and having a through hole 23a into which the bit 10 is fitted along a central axis; And
Protruding to have an extended radius from one side of the insertion portion 23, the cushioning member 30 is seated therein, and the bottom surface (24a) is provided with the other end of the buffer member 30 is supported Perforation apparatus having a buffer function, characterized in that it comprises a portion (24). Anchor construction method using a fabric mill having a buffer function according to claim 1,
Drill a hole in the second hole 12 to insert an angle in the female slope, and the first hole (11) equipped with the center 17 on the inlet side of the hole than the hole And a drilling step of drilling a mounting groove having an expanded inner diameter and a cross section. The method of claim 8, wherein after performing the drilling step
A fixing step of inserting and fixing an anchor in the drilling hole;
A seating step of seating the pressure plate on the mounting groove to be in close contact with the bottom surface of the mounting groove; And
And a binding step of applying prestress to the head of the anchor which is exposed to the outside through the acupressure plate and binding the head plate in close contact with the other side of the acupressure plate.

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