KR20150000637A - Modular reinforced leader for pile driver - Google Patents

Abstract

The present invention relates to a leader (20) of a pile driver which is construction equipment driving piles or perforating a perforation hole into the ground. Pipes (30) including flanges (31) on both ends are connected so that the leader (20) is formed. Guide rods (40) parallel to the pipe (30) are molded to the front end of a pair of vertical supporting plates (38) symmetrically protruding from the outer circumference of the pipe (30). Horizontal supporting plates (39) are molded between the vertical supporting plates (38). A wedge-shaped distribution slice plate (46) is installed between the adjoining horizontal supporting plates (39). Therefore, the present invention can deal with multidirectional external forces such as not only the axial compression and extension of the pipe (30) but also bending and torsion of the pipe (30) more effectively as the pipe (30), vertical supporting plates (38), and the wedge-shaped distribution slice plate (46) form the firmly-connected structure of the pipe (30) having a triangular cross section. The present invention can improve the structural stability and durability of the leader (20) by remarkably improving the rigidity of the pipe (30) and guide rods (40) while maintaining the weight of the pipe (30) light.

Description

{MODULAR REINFORCED LEADER FOR PILE DRIVER}

The present invention relates to a leader 20 of a pile driver which is a construction machine for drilling a pile or drilling a drilling hole in a ground, wherein a plurality of pipes 30 having flanges 31 at both ends thereof are connected, A guide bar 40 parallel to the tubular body 30 is joined to the tip of a pair of vertical support plates 38 protruding symmetrically to the outer peripheral surface of the tubular body 30, A plurality of horizontal support plates 39 are joined to each other and a wedge-shaped power connection plate 46 is provided between adjacent horizontal support plates 39. The tube 30, the vertical support plate 38, The tubular body 30 can be more effectively coped with external forces in various directions such as bending and twisting as well as axial compression and tension of the tubular body 30 by forming a rigid coupling structure of a transversely triangular shape of the tubular body 30.

The file driver is a construction machine that performs operations such as drilling a ground during pile foundation construction of various construction structures to form a drilling hole, or to type a ground pile into the ground, .

Figure 1 illustrates a self-contained file driver, in which a leader 20, which is a type of vertical self-supporting structure, is mounted on the front side of the vehicle 10 and a driving device 50 for performing a ground penetrating or pile type And is operated in such a manner that it is coupled to the leader 20 and is lifted and lowered.

2 and 3, a vertical support plate 38 (see FIG. 3) protruding from the outer circumferential surface of the tubular body 30, as shown in FIG. 2 and FIG. 3, And a guide rod 40 parallel to the tube body 30 is provided at the tip of the vertical support plate 38. A sheave head 25 is attached to an upper end of the leader 20 The slider 51 of the drive device 50 connected to the sheave head 25 is moved up and down in a state of being coupled to the guide rod 40 as shown in FIG. As a prior art, there is a utility model registration No. 127795.

1, an auger 55 for piercing the ground is installed in the drive device 50 of the pile driver illustrated in Fig. 1, but a pillar for pushing or tying the pile in the state of catching the pile is mounted on the driving device 50 As shown in Fig.

3 shows an example of a unit tube 30 constituting the reader 20 for a conventional pile driver as described above. As shown in the figure, the tube body 30 of the conventional reader 20 has flanges And a plurality of fastening holes 32 are radially formed in each of the flanges 31 so that the tubular bodies 30 are joined to each other through threaded fastening of the fastening holes 32 of the flange 31, The guide rods 40 to which the slider 51 of the drive unit 50 is coupled are connected in parallel to the tube body 30 by the vertical support plate 38. The engagement rods 41 are formed at both ends of the guide rods 40, The coupling recesses 41 and the coupling protrusions 42 of the guide rods 40 provided on the respective tubular bodies 30 are coupled with each other when the tubular body 30 is connected, Thereby forming an ascending / descending driveway of the drive system 50 which is continuous over the entire length of the drive system.

2 and 3, the outer peripheral surface of the tube 30 and the pair of vertical support plates (not shown) are attached to the inner surface of the tubular body 30, A plurality of horizontal support plates 39 joined to the guide rods 38 and 38 are densely arranged equidistantly to reinforce the guide rods 40 and the tube body 30.

By forming the reader 20 by combining the unit tubes 30 as described above, it is possible to control the entire extension of the reader 20, thereby varying the operation of the file driver according to the depth of excavation. However, And the guide rod 40 running on the driving device 50 are exposed to an extreme impact during the use of the hanger readers 20 and the guide rods 40, So that deformation and breakage of the tubular body 30 are frequent.

Particularly, in the case of the guide rod 40, a slight deformation can cause serious accident such as disengagement of the guide rod 40 of the drive device 50, and can act as an element that hinders the smooth ascending and descending movement of the drive device 50.

3, the guide bar 40, the vertical support plate 38 and the plurality of horizontal support plates 39 joined to the tubular body 30 are densely installed. However, So that the required output of the equipment on which the reader 20 is mounted is increased, and the reader 20 is also an obstacle in assembling and disassembling the reader 20.

Since the joining surfaces of the guide rods 40 are formed in a direction orthogonal to the guide rods 40 during the process of passing the slider 51 of the driving device 50 through the joining surfaces between the guide rods 40 Excessive vibration is generated, and the vibration of the guide rod 40 is fatigued as the vibration is repeated, thereby seriously deteriorating the driving performance of the driving device 50.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described problems, and has an object of providing a pair of vertical support plates (38) protruding symmetrically to the outer peripheral surface of a tube (30) A plurality of horizontal support plates 39 are joined between the pair of vertical support plates 38 and a plurality of horizontal support plates 39 are joined to the pair of vertical support plates 38, In a leader 20 of a pile driver in which a guide rod 40 provided on a guide rod 40 is connected and a slider 51 of a drive device 50 is coupled to a guide rod 40 A pair of force coupling plates 46 are symmetrically joined between the adjacent horizontal support plates 39. The force coupling plate 46 is formed in a wedge shape in which a horizontal joining portion 47 and a docking portion 48 are formed at the upper and lower ends, And the width between the horizontal joining portions 47 at the upper end and the lower end of the force joint plate 46 is set at a distance between the adjacent horizontal support plates 39 And the width between the pointed shaft portions 48 is formed to be less than the distance between the horizontal support plates 39 so that the horizontal joining portion 47 of the power coupling plate 46 is joined to the horizontal support plate 39, And the ends of the force joint plate 46 on the side of the horizontal joining portion 47 and the end portions of the point shaft portion 48 are joined to the guide rod 40 and the tube body 30 respectively.

Both ends of the guide rod 40 are formed on the inclined joining surface 45 which is inclined with respect to the central axis of the guide rod 40 and are respectively engaged with the inclined joining surfaces 45 at both ends of the guide rod 40 41 and the coupling protrusions 42 are formed to connect the coupling recesses 41 and the coupling protrusions 42 of the guide rods 40 provided on the respective tubular bodies 30 when the tubular body 30 is connected, And the inclined joining surfaces 45 of the guide rods 40 are in close contact with each other.

The rigidity of the tubular body 30 and the guide rod 40 can be remarkably improved and the structural stability and durability of the leader 20 can be improved by maintaining the weight of the tubular body 30 at a light weight through the present invention .

In addition, by forming the joining surfaces between the guide rods 40 to be inclined, it is possible to reduce the vibration generated when the slider 51 of the driving device 50 passes the joining portion of the guide rods 40, It is possible to prevent vibration and fatigue deformation of the structure of the reader 20 including the guide rods 40 as well as assuring the lifting and lowering operation.

Figure 1 shows a file driver structure
2 is a sectional view taken along the line A-A 'in Fig. 1
FIG. 3 is a perspective view of a conventional tube driver for a file driver reader
Fig. 4 is a perspective view
Fig. 5 is a perspective view of a tube-
Figure 6 is a cross-
7 is a perspective view of a tubular body according to an embodiment of the present invention,
Figure 8 is a side view of the reader in use of the embodiment of Figure 7;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS A detailed configuration of the present invention will be described with reference to the accompanying drawings.

4 is a perspective view showing the outer appearance of the tube 30 of the present invention. As shown in the figure, flanges 31 are formed at both ends of the tube 30 for the reader 20 to which the present invention is applied, And a coupling recess 41 and a coupling protrusion 42 are formed at both ends of the guide rod 40 joined to the outer circumferential surface of the tube 30 through a pair of vertical support plates 38, The coupling recesses 41 and the coupling protrusions 42 are coupled to each other and the guide rods 40 are connected.

A plurality of horizontal support plates 39 are provided between the pair of vertical support plates 38 and a pair of wedge type power supply plates 46 are provided symmetrically between the adjacent horizontal support plates 39.

5, the present invention is characterized in that a plurality of tubular bodies 30 having flanges 31 formed at both ends thereof are connected to each other, and a pair of vertical support plates 38 projecting symmetrically to the outer peripheral surface of the tubular body 30, A plurality of horizontal support plates 39 are joined between the pair of vertical support plates 38 and a plurality of horizontal support plates 39 are joined to the pair of vertical support plates 38, In a leader 20 of a pile driver in which a guide rod 40 is connected and a slider 51 of a driving device 50 is coupled to a guide rod 40, A pair of the power supply connection plates 46 are symmetrically joined between the horizontal support plates 39. The power supply connection plate 46 is formed in a wedge shape in which a horizontal bonding portion 47 and a dotted portion 48 are formed at the upper and lower ends will be.

5, the width between the horizontal joining portions 47 at the upper end and the lower end of the force joint plate 46 coincides with the spacing distance between adjacent horizontal support plates 39, The horizontal joining portion 47 of the power joining plate 46 is joined to the horizontal support plate 39 and the width of the horizontal joining portion 46 of the power joining plate 46 47 and the end portion on the side of the pointed shaft portion 48 are joined to the guide rod 40 and the tube body 30, respectively.

That is, a wedge-shaped force coupling plate 46 is provided between the adjacent horizontal support plates 39 so that the tube 30, the vertical support plate 38, and the force coupling plate 46, as shown in the right- The tubular body 30 can be more effectively coped with external forces in various directions such as bending and twisting, as well as axial compression and tensioning of the tubular body 30 by forming a rigid coupling structure of the transverse triangle of the tubular body 30.

Further, the number of the horizontal support plates 39 can be drastically reduced through such a rigid binding structure, whereby the weight of the tubular body 30 can be reduced.

As shown in the left drawing of FIG. 6, the force fitting plate 46 of the present invention is a wedge form having a point shaft portion 48 whose width gradually decreases toward the tube body 30, as described above, 48 are spaced apart from the horizontal support plate 39. [

As described above, by forming the spaced apart portions in joining the force joint plate 46 and the horizontal support plate 39, it is possible to prevent unnecessary deformation and stress from being caused by the formation of an excessive weld surface, .

4 and 5, the weight of the whole tube body 30 can be reduced by cutting the through hole 49 at the central portion of the reinforcement joint plate 46 to reduce the weight of the reinforcement joint plate 46 In the illustrated embodiment, the force joint plate 46 is intermittently provided, but it may be provided between the entire horizontal support plates 39 to achieve a further improved rigidity.

The auger 55 mounted on the leader 20 is connected to the junction structure of the wedge-type power amplifier plates 46 through the rigid triangular coupling structure of the tube 30, the vertical support plate 38, It is possible to effectively cope with warpage and torsional stress acting on the leader 20 during the operation of the hanger or the like.

7 shows an embodiment in which the oblique joining surface 45 is applied to the guide bar 40. As shown in the figure, on both ends of the guide bar 40, The engaging concave portion 41 and the engaging protruding portion 42 are formed on the oblique joining surface 45 at both ends of the guide bar 40 so as to form the oblique joining surface 45 forming the oblique joining surface 45, The engaging recessed portion 41 and the engaging protruding portion 42 of the guide bar 40 provided on each tube 30 are engaged and the inclined joining surfaces 45 of the guide tube 40 can be brought into close contact with each other .

That is, as in the enlarged part in the ellipse of FIG. 1, the joining surface orthogonal to the guide rod 40 is formed in the prior art. In contrast, in the present invention, By forming the joining surfaces in the oblique direction, it is possible to minimize the vibrations that may be generated when the slider 51 of the driving device 50 passes through the joining portions of the guide rods 40.

Stable lifting and lowering operation of the driving device 50 is ensured through the inclined joining surface 45 of the guide bar 40 and vibration and fatigue deformation of the structure of the reader 20 including the guide bar 40 can be prevented have.

10: Vehicle
20: Leader
25: sheave head
30: Tubular body
31: flange
32: fastening hole
38: vertical support plate
39: Horizontal support plate
40: guide rod
41: coupling recess
42:
45: inclined joint surface
46:
47: Horizontal joint
48:
49: Through hole
50: Driving device
51: Slider
55: auger

Claims (2)

A guide bar 40 parallel to the tubular body 30 is provided at the tip of a pair of vertical support plates 38 protruding symmetrically to the outer circumferential surface of the tubular body 30. The tubular body 30 has flanges 31 at both ends, A plurality of horizontal support plates 39 are joined between the pair of vertical support plates 38 and a guide rod 40 provided on each tube 30 is connected when the tube 30 is connected, (20) of a pile driver in which a slider (51) of a pile driver (50) is coupled to a guide rod (40)
A pair of the power supply connection plates 46 are symmetrically joined between the adjacent horizontal support plates 39. The power supply connection plate 46 is formed in a wedge shape in which a horizontal bonding portion 47 and a dotted portion 48 are formed at the upper and lower ends, ;
The width between the horizontal joining portions 47 at the upper and lower ends of the force joint plate 46 coincides with the distance between the adjacent horizontal support plates 39 and the width between the point axle portions 48 is equal to the distance between the horizontal support plates 39 The horizontal joint portion 47 of the booster joint plate 46 is joined to the horizontal support plate 39 and the end portion of the booster joint plate 46 on the horizontal joining portion 47 side and the end portion of the dot- Are connected to the guide rod (40) and the tube body (30), respectively.
[3] The apparatus of claim 1, wherein both ends of the guide rod (40) are formed on an inclined joining surface (45) forming an inclination with respect to the central axis of the guide rod (40)
The engaging concave portions 41 and the engaging protrusions 42 are formed on the inclined joining faces 45 at both ends of the guide bar 40 so that the engagement of the guide rods 40 provided on the respective tubular bodies 30 And the inclined joining surfaces (45) of the guide bar (40) of the connecting tube body (30) are in close contact with each other.

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