KR100973481B1 - Vertical hole correction apparatus - Google Patents

Abstract

The present invention relates to a drilling hole vertical degree calibration apparatus mainly used to correct the skewed portion when the drilled hole formed on the ground surface is not perpendicular to the vertical surface, the center of the drilled hole 22 formed on the ground surface 20 A disk-shaped hanger 30 inserted into the disk, a plurality of hydraulic cylinders 40 radially installed on the disk-shaped hanger 30, and coupled to the end of the piston rod 42 of each hydraulic cylinder 40 in the form of clevis (clevis) And a plurality of wall support plates 50 which are in close contact with the inner wall surface 24 of the drilling hole 22 and a semicircular inner annular groove 62 for sliding of the steel ball 64 are formed on the inner circumferential surface and the disk hanger 30. Semi-circular outer annular groove for inserting the bearing 60 and the inner annular groove 62 formed in the bearing 60 with the steel ball 64 therebetween and guiding the steel ball 64 on the outer circumferential surface thereof. 72 is formed of the swing gear 70 of the internal gear type and the hydraulic cylinder 40 A motor connected to the upper plate 46 fixed on the cylinder fixing block 44 located at the rear side and the upper end of the drive shaft 84 vertically passing through the disk-shaped hanger 30 and the upper plate 46 by a coupling 86. A hydraulic motor 80 having a shaft 82 and installed vertically to the upper plate 46, coupled to the lower end of the drive shaft 84 and engaged inside the swing gear 70, receives the rotational force generated from the hydraulic motor 80. Pinion 74 to be transmitted to the swing gear 70, the cylindrical lower rotary cylinder 90 is coupled to the bottom of the swing gear 70, the opening hole 92 is formed on one side wall, and the lower rotary cylinder 90 A power hammer 100 installed on an inner bottom surface of the power hammer 100 and having a hammer bit 102 for hitting the inner wall surface 24 of the drilling hole 22 and exposed through the opening hole 92; Hollow hammer guide 104 and the hammer guide 104 is fixed to the inner bottom surface of the lower rotary tube 90 to guide the straight, parallel to each other on the left and right sides of the hammer guide 104 Cylinder cylinders 120 for fixing the hammer transfer cylinders 110 and 112 and the hammer transfer cylinders 110 and 112 to the inner bottom surface of the lower rotary cylinder 90 by moving the power hammer 100 forward and backward. 122 and the limit switch (L1) (L2) is installed between the disk hanger 30 and the lower rotary cylinder 90 to detect the relative angle of rotation of the disk-shaped hanger (30) and the lower rotary cylinder (90) And switch dog 130 is configured.

Steel pipe, drilling hole, vertical view, cylinder, shovel, hydraulic pressure, straightening

Description

Vertical hole correction apparatus

The present invention relates to a device for correcting a hole verticality, and more particularly, to a device for correcting a hole verticality, which is mainly used to correct a skewed portion when the hole formed on the ground surface is not vertical and is twisted. .

In general, a hole is drilled vertically from the ground surface to erect a pillar of the building. Conventionally, a casing for preventing collapse of the drilled hole 12 drilled perpendicular to the ground surface 10 as shown in FIG. (14) and put the punching work again.

At this time, if the perforation work is not perpendicular to the perforation, the perforation work is removed from the perforation hole 12, and the perforated space is filled with cement, and the work is stopped for a long time (about 20 days) until it hardens, and then the perforation work is performed again. As a result, the construction period was extended, resulting in a significant increase in construction costs.

The present invention has been made to solve the above problems, the object of the present invention is to provide a hole hole verticality correction device that can be quickly and easily corrected when the perforated hole formed in the surface is not perpendicular to the vertical have.

In order to achieve the object of the present invention, a disk-shaped hanger inserted into the center of the drilling hole formed on the ground surface, a plurality of hydraulic cylinders radially installed on the disk-shaped hanger, and coupled to the piston rod end of each hydraulic cylinder in the form of clevis A plurality of wall support plates in close contact with the inner wall surface, a semicircular inner annular groove for sliding of the steel ball is formed on the inner circumferential surface and inserted into the bottom of the disk hanger, and inserted into the inner annular groove formed in the bearing with the steel ball therebetween; An internal gear swing gear having a semicircular outer annular groove for guiding steel balls on the outer circumference, an upper plate fixed on a cylinder fixing block located at the rear of the hydraulic cylinder, and an upper end of a drive shaft penetrating the disk hanger and the upper plate vertically. A hydraulic motor installed vertically on the upper plate with a motor shaft coupled to the coupling, and driven A pinion coupled to the lower end of the shaft and engaged inside the swing gear to transfer the rotational force generated from the hydraulic motor to the swing gear, a cylindrical lower rotary cylinder coupled to the bottom of the swing gear and having an opening on one wall, and a lower rotary cylinder. Power hammer installed on the inner bottom surface and exposed through the open hole and having a hammer bit for hitting the inner wall surface of the drill hole, and a hollow hammer guide fixed to the inner bottom surface of the lower rotating cylinder to guide the power hammer straight And a hammer transfer cylinder installed on the left and right sides of the hammer guide to advance and retract the power hammer, a cylinder housing for fixing the hammer transfer cylinder to the inner bottom surface of the lower rotary cylinder, and the relative rotation of the disc hanger and the lower rotary cylinder. It consists of a limit switch and a switch dog installed between the disk-shaped hanger and the lower rotary cylinder to detect the angle. The correction device is provided with a vertical hole Fig.

The present invention as described above can be quickly and simply corrected when the perforated hole drilled on the ground surface, it is possible to shorten the air as well as to significantly reduce the construction cost compared to the existing.

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

2 to 8, a disk-shaped hanger 30 inserted into the center of the drilling hole 22 formed in the ground surface 20 and a plurality of hydraulic cylinders 40 radially installed on the disk-shaped hanger 30. And a plurality of wall support plates 50 coupled to the end of the piston rod 42 of each hydraulic cylinder 40 in the form of clevis to be in close contact with the inner wall 24 of the drilling hole 22, and steel balls. A semi-circular inner annular groove 62 for sliding of 64 is formed on the inner circumferential surface and is provided in the bearing 60 provided on the bottom of the disc hanger 30, and the inner annular groove 62 formed in the bearing 60. A swing gear 70 of an internal gear type, having a semicircular outer annular groove 72 formed therein for insertion of the steel ball 64 on an outer circumferential surface thereof, and positioned at the rear of the hydraulic cylinder 40. Upper end of the upper plate 46 fixed on the cylinder fixing block 44, the drive shaft 84 through the disk hanger 30 and the upper plate 46 vertically Coupled to the lower end of the drive shaft 84 and the hydraulic motor 80 is installed perpendicular to the upper plate 46 having a motor shaft 82 connected to the coupling 86 to the inside of the swing gear 70 Pinion 74 for transmitting the rotational force generated from the hydraulic motor 80 to the swing gear 70, and a cylindrical lower rotary cylinder is coupled to the bottom of the swing gear 70 and formed with an opening hole 92 on one side wall ( 90 and a power hammer having a hammer bit 102 installed on the inner bottom surface of the lower rotating cylinder 90 and exposed through the opening hole 92 and for hitting the inner wall surface 24 of the drilling hole 22. A hollow hammer guide 104 and a hammer guide 104 fixed to the inner bottom surface of the lower rotating cylinder 90 to guide the power hammer 100 in a straight line and parallel to each other on the left and right sides of the hammer guide 104. And transfer the hammer transfer cylinders 110 and 112 and the hammer transfer cylinders 110 and 112 to advance and retreat the power hammer 100 to the inner bottom surface of the lower rotating cylinder 90. Limit switch installed between the disk hanger 30 and the lower rotary cylinder 90 to detect the relative angle of rotation of the cylinder housing 120, 122, and the disk-shaped hanger 30 and the lower rotary cylinder 90 It consists of (L1) (L2) and the switch dog 130.

Here, the disk-shaped hanger 30 is formed by welding a circular pipe 36 between the upper disk 32 and the lower disk 34, the hole 38 is formed in the center, the drive shaft on one side of the upper disk 32 A bushing insertion hole 32a is formed in which a bushing 88 for supporting 84 is fitted.

In addition, the clevis portion 52 is formed on the rear surface of the wall support plate 50 to be coupled to the piston rod 42 of the hydraulic cylinder 40 by the hinge pin 54, and the hydraulic cylinder 40 is a disk-shaped hanger ( Bolted to the top of 30).

In addition, parallel bars 106 and 108 are formed on the left and right sides of the power hammer 100, respectively, and are coupled to the piston rods of the hammer transfer cylinders 110 and 112 by connecting pins 114 and 116. The cylinder tubes of the transfer cylinders 110 and 112 are fixed to the cylinder houses 120 and 122 by fixing pins 124 and 126 penetrating the rear ends of the cylinder houses 120 and 122 from side to side.

In addition, the lower plate 94 constituting the lower end of the lower rotating cylinder 90 allows the separation / combination by the bolt 96 to simplify assembly and repair, and the cylinder houses 120 and 122 are “U”. It forms in the shape of a channel in the shape of a cross section, and is installed on the ribs 128 and 129 welded onto the auxiliary plate 98 coupled to the lower plate 94, and the upper open portion is covered with the covers 140 and 142. .

In the figure, reference numeral 26 denotes a protruding portion formed in the crooked hole 22.

Hereinafter, the operation according to the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 2 to 8, when the center of the drilled hole 22 formed in the ground surface 20 is not vertical and is skewed, the device of the present invention is inserted into the drilled hole 22 to power the hammer 100. When the hammer bit 102 is positioned to have the same height as the protruding portion 26 in the drilling hole 22 and then operates the hydraulic cylinder 40 to protrude the piston rod 42, the piston rod 42 The wall support plate 50, which is coupled to the tip of the hinge pin 54, is in close contact with the inner wall surface 24 of the drilling hole 22.

At this time, since the piston rod 42 and the wall support plate 50 are rotatably coupled by the hinge pin 54, the wall support plate 50 is more uniformly pressured on the inner wall surface 24 of the drilling hole 22. When the wall support plate 50 is installed in four directions, for example, the disk-shaped hanger 30 coupled to the lower side of the hydraulic cylinder 40 by the four wall support plates 50 is drilled through the holes 22. Is located in the center of.

At this time, when supplying a working fluid such as hydraulic pressure or pneumatic to the power hammer 100, the power hammer 100 hits the inner protruding portion 26 of the drilling hole 22, and at the same time, the top plate 46 When driving the hydraulic motor 80 installed in the low speed, the rotational force generated from the hydraulic motor 80 is transmitted to the drive shaft 84 through the motor shaft 82 and the coupling 86, the lower end of the drive shaft 84 The pinion 74 connected to is rotated, and the swing gear 70 engaged with the pinion 74 is rotated.

At the same time, the lower rotary cylinder 90 coupled to the bottom of the swing gear 70 is rotated together with the swing gear 70 and the hammer transfer cylinder including the power hammer 100 installed in the lower rotary cylinder 90 ( 110, 112, etc. are rotated slowly.

As such, the power hammer 100 being driven by the rotation of the lower rotating cylinder 90 reciprocates at a predetermined angle to remove the protruding portion 26 inside the drilling hole 22.

That is, when the lower rotary cylinder 90 is rotated when the switch dog 130 installed in the lower rotary cylinder 90 is detected by the limit switch (L1) (L2) provided to form a predetermined angle to the disk-shaped hanger (30) Each time the hydraulic motor 80 is reversely rotated by a controller (not shown) and a direction switching solenoid valve (not shown), the lower rotary cylinder 90 and the power hammer 100 are reciprocated at a set angle.

Meanwhile, the hydraulic pressure is supplied to the hammer transfer cylinders 110 and 112 fixed to the cylinder houses 120 and 122 installed on the inner bottom surface of the lower rotary cylinder 90 so that the pistons of the hammer transfer cylinders 110 and 112 are provided. When the rod is moved forward or backward, the power hammer 100 is guided linearly by the hammer guide 104 to move forward or backward.

At this time, when the power hammer 100 advances toward the inner protrusion 26 of the drilling hole 22 by the hammer transfer cylinders 110 and 112, the protrusion 26 is removed by the hammer bit 102. When the power hammer 100 is retracted by the hammer transfer cylinders 110 and 112 in a direction away from the inner protruding portion 26 of the drilling hole 22, the hammer bit 102 is drilled into the drilling hole 22. It is spaced apart from the inner wall 24 of the to act to avoid interference when withdrawing the device of the present invention from the drilling hole 22.

1 is a view showing a calibration example of a perforated hole formed in the conventional ground surface

Figure 2 is a front side perspective view of the drilling hole verticality correction apparatus according to the present invention

Figure 3 is a rear side perspective view of the drilling hole verticality correction apparatus according to the present invention

Figure 4 is a cross-sectional view showing the drilling hole verticality correction apparatus according to the present invention

5 is a plan view showing a vertical hole correction device according to the present invention

Figure 6 is a front view showing the drilling hole verticality correction apparatus according to the present invention

Figure 7 is an exploded perspective view showing a vertical hole calibration device according to the present invention

8 is an enlarged view of a portion A of FIG.

Explanation of symbols on the main parts of the drawings

20: ground surface 22: drilling hole

24: wall surface 30: disk hanger

40: hydraulic cylinder 42: piston rod

44: cylinder fixing block 46: top plate

50: wall support plate 60: bearing

62: inner annular groove 64: steel ball

70: swing gear 72: outer ring groove

74: pinion 80: hydraulic motor

82: motor shaft 84: drive shaft

86: coupling 90: lower rotary cylinder

92: opening hole 100: power hammer

102: hammer bit 104: hammer guide

110,112: hammer transfer cylinder 120,122: cylinder

L1, L2: limit switch 130: switch dog

Claims (1)

A disk-shaped hanger 30 inserted into the center of the drilling hole 22 formed in the ground surface 20; A plurality of hydraulic cylinders 40 radially installed in the disk-shaped hanger 30; A plurality of wall support plates 50 coupled to the end of the piston rod 42 of each hydraulic cylinder 40 in the form of clevis to be in close contact with the inner wall 24 of the drilling hole 22; A bearing (60) formed at an inner circumferential surface of the semicircular inner annular groove (62) for sliding of the steel ball (64) and installed at the bottom of the disc hanger (30); An internal gear swing gear is inserted into the inner annular groove 62 formed in the bearing 60 with a steel ball 64 interposed therebetween, and a semicircular outer annular groove 72 for guiding the steel ball 64 on an outer circumferential surface thereof. 70; An upper plate 46 fixed on the cylinder fixing block 44 located at the rear of the hydraulic cylinder 40; A hydraulic motor having a motor shaft 82 connected to the coupling 86 at the upper end of the disk hanger 30 and the drive shaft 84 vertically penetrating the upper plate 46, and installed vertically to the upper plate 46. 80); A pinion (74) coupled to the lower end of the drive shaft (84) and engaged with the inner side of the swing gear (70) to transfer the rotational force generated from the hydraulic motor (80) to the swing gear (70); A cylindrical lower rotary cylinder 90 coupled to the bottom surface of the swing gear 70 and having an opening hole 92 formed at one wall; Power hammer 100 is installed on the inner bottom surface of the lower rotary cylinder 90 and exposed through the opening hole 92, and has a hammer bit 102 for hitting the inner wall surface 24 of the drilling hole 22 ; A hollow hammer guide 104 fixed to an inner bottom surface of the lower rotary tube 90 to guide the power hammer 100 in a straight line; Hammer transfer cylinders 110 and 112 installed on the left and right sides of the hammer guide 104 to advance and retreat the power hammer 100; Cylinder houses 120 and 122 for fixing the hammer transfer cylinders 110 and 112 to the inner bottom surface of the lower rotary cylinder 90; Limit switch (L1) (L2) and switch dog 130 is installed between the disk hanger 30 and the lower rotary cylinder 90 to detect the relative rotation angle of the disk-shaped hanger (30) and the lower rotary cylinder (90) Perforated hole verticality correction device, characterized in that consisting of.

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