KR101024939B1 - Improved Auger Screw Assemblies for Excavators - Google Patents

Abstract

The present invention relates to an auger screw for a rotary leader type excavator, and more particularly to an improved auger screw assembly capable of repairing the interior of the screw without cutting or damaging the screw during repair of the auger screw.

Auger screw 100 according to the present invention constitutes a joint to separate the joint 130 provided at the lower end of the auger screw 120, so that the induction pipe 113 coupled to the joint 130 can be disassembled. By constitution, even when the auger screw is not cut or damaged by an oxygen welder during repair of the screw 120, the inside of the screw can be easily and easily repaired.

Excavators, auger screws,

Description

Improved Auger Screw Assembly for Excavators {IMPROVED SCREWDRIVER FOR EXCAVATOR}

The present invention relates to an auger screw of a rotating leader type excavator, and more particularly, to an auger that can be repaired by disassembling the screw without cutting the screw or damaging the outside during the auger screw internal repair work. Relates to a screw assembly.

Concrete piles are used to firmly support civil engineering and building loads by embedding concrete piles up to rock layers in soft grounds when firmly constructing civil structures or structures built on soft grounds.

Concrete piles as described above are used to lay ground in soft ground in order to safely construct the corresponding structures when constructing civil engineering or various buildings on soft ground. It is mainly constructed by hitting concrete piles to reach the rock layers of the ground or by drilling and inserting piles into the holes.

The construction of the concrete pile as described above is carried out by a rotary leader type excavator, the excavator can be moved by infinite trajectory, and is installed vertically on the ground to rotate the screw while supporting the drilling screw to drill holes in the ground It is equipped with a leader master equipped with a hammer to hit the top of a device or concrete pile with a hammer, and a crane device for lifting heavy loads.

The leader master is equipped with a driving device that provides rotational force to the auger screw at the top to move up and down, and the auger screw is coupled to the lower side of the leader master to excavate the ground according to the driving of the drive device, and to the excavated hole. Construct by inserting or hitting concrete file.

In general, an auger screw for an excavator is manufactured to a certain length when manufacturing, and when it is necessary to excavate more than the length of the auger screw, it is generally carried out by further connecting another screw on the screw in use.

Recently, in order to eliminate the inconvenience of connecting the auger screw, as shown in FIGS. 1 and 2, the antenna rod 10 transferring the power from the driving device 1 to the auger screw 20 is auger screw ( 20) After assembling to move up and down in the inside has been disclosed a technique for fixing the antenna rod 10 in the corresponding position when the antenna rod 10 moves up and down.

For example, in Korean Utility Model Publication No. 1996-023055 "Auger screw structure of a rotary leader type excavator" in the upper side of the auger screw to transfer the power of the drive device 1 to the auger screw 20 as described above. The assembled antenna rod 10 is assembled to be movable up and down, and when the antenna rod 10 is raised upward, the auger screw 20 is extended.

In addition, the extended antenna rod 10 penetrates inward from the outside of the auger screw 20 to the upper and lower portions of the auger screw 20 as shown in FIG. 2 to maintain the extended or shortened state. Secure the antenna rod by inserting a key. Reference numeral 2 in FIG. 1 is a leader master.

In the antenna rod 10, an entry pipe (not shown) for injecting concrete mortar or water into the hole excavated by the auger screw 20 and an induction pipe (not shown) inserted into the entry pipe are antennas. It is arranged in the axial direction of the rod, and the lower end of the induction pipe is attached to the joint of the auger screw but is severely worn between the auger screw and the antenna rod due to the rotational force transmitted from the driving device to the antenna rod and the rotational resistance of the auger screw. There occurs a problem that the sealing is easily broken.

The induction pipe is sometimes injected into the liquid concrete mortar, but the pneumatic pressure is mainly injected to improve the excavating performance of the bit by blowing the soil or rock fragments excavated during the excavation work with air.

However, if the seal is damaged as described above, the air pressure discharged into the excavation space (ground floor) of the auger screw due to the leakage of air falls and the excavation efficiency is lowered, so the sealing of the screw must be repaired.

Conventional sealing repair work is repaired by cutting the upper screw of the seal with an oxygen welder and then repairing the seal and re-welding the screw again, but this repair method is very troublesome and inconvenient. have.

The present invention has been invented to solve the problems associated with the conventional auger screw as described above, the object of the present invention can be repaired without cutting or damaging the auger screw during the auger screw maintenance work, and also the length of the auger screw An improved auger screw assembly for an excavator that is easy to adjust.

The problem according to the improved auger screw assembly for excavators according to the present invention,

The lower end of the auger screw 120 may be detachably attached to each other, and the end of the induction pipe 131 in the auger screw may be implemented by a joint 130 detachably coupled to the fastening hole 135a.

According to the present invention, the auger screw is assembled to the lower end of the auger screw, that is, the joint is detachably attached to the lower end of the screw. The effect is to repair the seal.

Hereinafter, the improved auger screw assembly according to the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 3, Figure 3 is an exploded perspective view of the improved auger screw according to the present invention, Figure 4 is an exploded perspective view illustrating a partial cut in the upper part of the auger screw according to the present invention. 5 is an exploded perspective view illustrating a lower part of the auger screw according to the present invention and an incision part thereof, and FIG. 6A is a main cross-sectional view illustrating an example of assembly of the antenna rod assembled to the auger screw according to the present invention. FIG. 6B is a view similar to FIG. 6A, in which a key cross-sectional view illustrating a state in which a key of an antenna rod is coupled to a key groove; FIG.

As shown in FIG. 3, the improved auger screw assembly 100 of the present invention consists of an antenna rod 110, an auger screw 120, and a joint 130.

The antenna rod 110 has a circumferential cross section, and a plurality of keys 111 are provided on the circumferential surface at equal angles.

3 to 5, the upper end of the antenna rod 110 is fastened to the drive device (1, see Fig. 1) is provided with a hex head 112 for transmitting the power of the drive device to the auger screw, Inside the head 112, an entry tube 113 (see Fig. 6A) capable of injecting air or liquid concrete mortar or water is disposed in the axial direction.

The auger screw 120 has a hollow cylinder shape as shown in FIGS. 4 and 6A and 6B, and a circular mounting hole 121 is provided to slidably insert the antenna rod 110 thereon. The outer diameter of the spiral wing 122 is attached to the axial direction along the circumferential direction, the inner diameter of the key groove 123 into which the key 111 is inserted is attached to the upper and lower sides, respectively, the lower end of the thread 124 is provided.

Naturally, the key groove 123 is installed at an angle corresponding to the arrangement angle of the above-described keys 111.

The key groove 123 is composed of an axial groove portion 123a cut in the axial direction of the auger screw 120 and a circumferential groove portion 123b cut in the circumferential direction of the screw 120. The groove portions 123a and 123b in the axial direction and the circumferential direction are in communication with each other. In particular, the groove portion 123a in the axial direction is preferably configured to facilitate the entry of the key 111 by expanding the diameter of the inlet thereof. .

The axial groove portion 123a is a groove into which the key 111 is inserted into or separated from the key groove 123 when the antenna rod 110 moves up and down, and the circumferential groove portion 123b is in the rotation direction of the antenna rod 110. Accordingly, when the power of the drive device 1 is driven in the direction in which the auger screw 120 is excavated, the key 111 of the antenna rod 110 is inserted into the groove portion 123b in the circumferential direction to power the auger screw. Can be passed to 120.

The joint 130 is provided with a head coupling groove 134 into which a hexagon head 112 of another auger screw 120 or a hexagon head of a bit (not shown) is inserted, and an outer circumferential surface of the joint 130 is provided. Is provided with a screw thread 132 is engaged with the screw thread 124 of the screw 120, the end of the induction pipe 131 is inserted to slide into the entry pipe 113 in the center portion of the joint 130. Is fastened to each other by a screw thread 135b to the fastening hole 135a provided in the axial direction at the center of the joint 130.

In the inlet pipe 113 into which the induction pipe 131 is inserted, an O-ring R1 made of a rubber material is inserted between the induction pipe 131 and the inlet pipe 113 as shown in FIGS. 6A and 6B. The end of the induction pipe 131 assembled to the joint 130 is fastened by the male and female threads 135b and 131a to the fastening hole 135a provided in the center of the joint 130.

The assembly of the improved auger screw assembly according to the present invention and the effect of each configuration will be described with reference to the accompanying drawings.

The assembly order is to insert the antenna rod 110 into the mounting hole 121 of the auger screw 120 using a crane, the lower key 111 of the antenna rod 110 is a key groove provided on the upper side of the screw 120 After entering between the 123, the lower key 111 of the antenna rod 110 is lowered to reach the entrance of the lower keyway (123).

When the key 111 of the antenna rod 110 approaches the inlet of the key groove 123 of the screw 120, the antenna rod 110 is rotated at an angle to the key 111 at the inlet of the axial key groove 123. After aligning and lowering the crane (not indicated reference number), the upper and lower keys 111 of the antenna rod 110 is inserted into each of the upper and lower key grooves 123 of the screw 120.

When the key 111 of the antenna rod 110 is inserted into the upper and lower key grooves 123 of the screw, respectively, the fastening nut 140 is fastened to the upper portion of the auger screw 120 so that the antenna rod 110 is the auger screw 120. Tighten so as not to separate it.

As described above, when the antenna rod 110 is assembled to the auger screw 120, the joint 130 is assembled to the lower side of the auger screw 120. The joint 130 is an induction pipe assembled at the center of the joint ( 131 is inserted into the entry pipe 113 installed at the center of the antenna rod 110, and then the thread 132 provided on the outer circumference of the joint 130 is fastened to the inner thread 124 of the lower end of the screw 120. Complete the assembly. Induction pipe 131 is sealed by the O-ring (R1) in the entry pipe (113).

In addition, the induction pipe 113 fastened to the joint 130 is fastened to the fastening hole 135a by the screw thread 131a, so as shown in FIG. 5, the thread 131a of the induction pipe 113 is loosened or fastened. It is easy to fasten and detach with the joint.

When the auger screw 120 assembled as described above is coupled to the hexagonal head 112 of the antenna rod 110 and drives the driving device, the rotation force of the antenna rod 110 is inserted into the key groove 123. Auger screw 120 is rotated by 111.

If the rotation direction of the drive device is rotated in the direction in which the screw 120 is excavated, the key is moved to the circumferential key groove 123 to rotate the screw 120 without the key 111 being separated from the key groove 123. Let's do it.

If the driving device is rotated in the opposite direction, the key 111 of the antenna rod 110 is located in the axial keyway 123. At this time, when the antenna rod 110 is lifted upward, the antenna rod 110 may extend to the upper portion of the auger screw 120.

As described above, when disassembling the auger screw for repairing the sealing, the joint coupled to the lower end of the screw can be disassembled, and the induction pipe can be disassembled from the joint, so that the auger screw can be easily removed without damaging or damaging the auger screw. The auger screw seal can be repaired.

1 is a side view illustrating an excavator of a conventional auger screw,

Figure 2 is a perspective view of the main portion of the conventional auger screw for an excavator,

3 is an exploded perspective view of an improved auger screw according to the present invention;

Figure 4 is an exploded perspective view illustrating the partial excavation by extracting the upper end of the auger screw according to the present invention,

5 is an exploded perspective view illustrating the excerpted portion of the auger screw according to the present invention and cut off a portion;

Figure 6a is a main cross-sectional view illustrating an example of the assembly of the antenna rod assembled to the auger screw in accordance with the present invention,

FIG. 6B is a view similar to FIG. 6A, in which the key of the antenna rod is inserted into the keyway of the screw to rotate the screw.

<Description of the symbols for the main parts of the drawings>

110: antenna rod 111: key

112: hex head 120: auger screw

121: mounting hole 122: spiral wing

123: key groove 123a: axial groove

123b: circumferential groove 123: key groove

124: thread 130: joint

131: guide pipe 131a: thread

132: thread 135a: fastening hole

135b: Thread R1: O-ring

100: Auger Screw Assembly

Claims (1)

In the excavation auger screw, One end is provided with a screw thread that is fastened or disassembled to the screw thread inside the lower end of the auger screw 120, the other end is provided with a head coupling groove 134 into which the hexagonal head 112 of the auger screw is inserted. An improved auger screw assembly for an excavator comprising a joint (130) having a fastening hole (135a) threaded so that the end of the guide pipe (131) in the auger screw is fastened and detachable.

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