US20030132035A1

US20030132035A1 - Step tube rod, and drilling machine

Info

Publication number: US20030132035A1
Application number: US10/276,763
Authority: US
Inventors: Tsutomu Kaneko; Toshio Matsuda
Original assignee: Furukawa Co Ltd
Current assignee: Furukawa Co Ltd
Priority date: 2001-04-26
Filing date: 2002-04-25
Publication date: 2003-07-17
Also published as: KR20040002377A; CA2411253A1; CN1460145A; JPWO2002088511A1; EP1382794A4; EP1382794A1; WO2002088511A1

Abstract

In the present invention, in a drill rod for a boring machine, a rod outside diameter is large so as to be approximately equal to a bore diameter, external threads are provided at one end and internal threads are provided at the other end, and at least one small-diameter portion is formed near an internally threaded portion. This step tube rod can reduce a bore bend.

Also, for the boring machine using this step tube rod, the drill rod can be positioned easily, so that the connection and recovery work can be performed efficiently and safely.

Description

TECHNICAL FIELD

The present invention relates to a step tube rod and a boring machine using the step tube rod as a drill rod.

BACKGROUND ART

A boring machine such as a hydraulic crawler drill and a fan cut drill is provided with a rock drill mounted on a guide shell. A drill rod is insertedly mounted in the rock drill, and a bit is installed at the tip end of the drill rod. Thereby, a blow and rotation are transmitted from the rock drill to the bit via the drill rod, and the rock drill is fed, whereby a rock-bed is bored.

For example, in the case where the boring machine is a

hydraulic crawler drill

11 as shown in FIG. 8, a boom 14 is provided on a carriage 13 provided with a track frame 12 so as to be turnable and tiltable. At the distal end of the boom 14 is supported a guide shell 16 mounted with a rock drill 15 so as to be capable of tilting and swinging. The rock drill 15 is insertedly mounted with a drill rod 1 connected by a sleeve 2, and at the tip end of the drill rod 1 is installed a bit 3 having an outside diameter approximately equal to a bore diameter Dh.

The

rock drill

15 has a blowing mechanism, a rotating mechanism, and a flushing mechanism (not shown). The rock drill 15 is moved longitudinally by a feed force given by a feed motor 17 provided on the guide shell 16, and transmits a blow and rotation to the bit 3 via the drill rod 1, whereby a rock-bed R is bored. Also, the flushing mechanism supplies compressed air to the tip end of the drill rod 1 to discharge cuttings. In the tip end portion of the guide shell 16, a hood 18 is provided to cover the bore and to collect cuttings.

In the case where the bore length is great, a plurality of drill rods I are connected successively at the time of boring work. The supply and connection of the

drill rods

1 and the separation and recovery of the drill rods 1 after the boring work is finished are carried out mechanically by using a rod changer 19.

In the case where the connection and recovery of the

drill rod

1 are carried out, the drill rod 1 must be clamped so that the central axis of the drill rod 1 is fixed when the drill rod 1 is connected or separated, so that a rod clamping device 4 is provided in the vicinity of the tip end portion of the guide shell 16.

The

general drill rod

1 used for the above-described hydraulic crawler drill 11 has a hexagonal or circular external shape and has a predetermined size of 51 mm, 45 mm, 38 mm, etc. in outside diameter according to the size of connecting screw (T51 screw, T45 screw, T38 screw, etc.). This outside diameter is considerably smaller than the bore diameter Dh.

The

drill rod

1 is available in two types: an MM rod 1A provided with external threads MS at both ends as shown in FIG. 9(a), and an MF rod 1B which is provided with external threads MS at one end and the other end of which has a larger diameter and is provided with internal threads FS on the inside as shown in FIG. 9(b). When the MM rod 1A is used, it is connected via a sleeve 2, and when the MF rod 1B is used, the external threads MS and the internal threads FS are engaged directly with each other.

As shown in FIGS. 10 and 11, the

rod clamping device

4 is constructed so that the drill rod 1 having a particular diameter is clamped by a pair of clamps 5 pivotally supported by pins 6 so as to be capable of being opened and closed. On the internal surface of the clamp 5, a large-diameter portion 5L and a small-diameter portion 5S are formed. When the MM rod 1A is used, the large-diameter portion 5L holds a portion of the sleeve 2, and when the MF rod 1B is used, the large-diameter portion 5L holds an internally threaded portion 1 BL having a larger diameter.

This

rod clamping device

4 not only clamps the sleeve 2 so as to prevent the rotation of the sleeve 2, but also easily positions the drill rod 1 by a diameter difference between the large-diameter portion 5L and the small-diameter portion 5S of the clamp 5.

Also, for a fan cut drill, a down-the-hole drill, and the like, a

tube rod

1C as shown in FIG. 9(c) has been devised and used. This tube rod 1C is provided with external threads MS at one end and internal threads FS at the other end, and has a larger outside diameter than the MM rod 1A and the MF rod 1B, and the outside diameter of the tube rod 1C is approximately equal to the bore diameter. Therefore, a bore bend at the time when a long hole is bored is reduced, and the cuttings discharge efficiency can be improved.

When such a

tube rod

1C is used, a rod clamping device 40 as shown in FIGS. 12 and 13 is provided for the fan cut drill, and a double clamp type rod clamping device 50 as shown in FIGS. 14 and 15 is provided for the down-the-hole drill.

The

rod clamping device

40 shown in FIGS. 12 and 13 is constructed so that the drill rod 1 having a particular diameter is clamped by a pair of clamps 45 pivotally supported by pins 46 so as to be capable of being opened and closed. The inside diameter of the clamp 45 is constant, and there is formed no diameter difference.

The

rod clamping device

50 shown in FIGS. 14 and 15 is constructed so that clamps 55 are opened and closed by right and left clamping cylinders 56, by which the drill rod 1 having a particular diameter is clamped. The inside diameter of the clamp 55 is constant, and there is formed no diameter difference.

If the

tube rod

1C is used as the drill rod 1 to reduce a bore bend, since a rod clamping device of a type such that the

clamp

45, 55 has no diameter difference as in the rod clamping device 40 shown in FIG. 12 and the rod clamping device 50 shown in FIG. 14 is used, the positioning of the drill rod 1 is unstable, so that the work time increases significantly, and also danger in the connection and recovery work for drill rod increases.

Further, for the

hydraulic crawler drill

11, if the tube rod IC is used as the drill rod 1, the rod clamping device 4 shown in FIG. 10 cannot be used as it is, and the function of the generally mounted rod changer 19 cannot be fulfilled.

The present invention has been made to solve the above problems with a boring machine, and accordingly an object thereof is to provide a step tube rod which can reduce a bore bend and in which the conventional rod clamping device and rod changer can be used as they are, and the positioning of drill rod is easy to perform, so that connection and recovery work can be performed efficiently and safely, and a boring machine using this step tube rod.

DISCLOSURE OF INVENTION

A step tube rod in accordance with the present invention is constructed so that in a drill rod for a boring machine, a rod outside diameter is large so as to be approximately equal to a bore diameter, external threads are provided at one end and internal threads are provided at the other end, and at least one small-diameter portion is formed near an internally threaded portion.

The step tube rod may also be constructed so that a rod outside diameter is large so as to be approximately equal to a bore diameter, external threads are provided at both ends so that the rods are connected via a sleeve, and at least one small-diameter portion is formed near an externally threaded portion.

The above-described step tube rod can reduce a bore bend at the time of boring because the outside diameter thereof is large so as to be approximately equal to the bore diameter.

Also, the small-diameter portion is formed near the internally threaded portion for the step tube rod provided with the external threads at one end and the internal threads at the other end or near the externally threaded portion for the step tube rod provided with the external threads at both ends and connected via the sleeve. Therefore, for the boring machine, the step tube rod can be used as a drill rod merely by slightly modifying the conventional rod clamping device.

For the boring machine using the step tube rod as a drill rod, the drill rod can be positioned easily, so that the connection and recovery work can be performed efficiently and safely.

Feigned striking for loosening a screw of the connected step tube rod is performed after the completion of boring. However, when screw loosening is insufficient, feigned striking is performed in a state in which the step tube rod is fixed to the rod clamping device.

Therefore, for the step tube rod provided with the external threads at one end and the internal threads at the other end, it is preferable that the small-diameter portion has an outside diameter which is 90% or less of the rod outside diameter and has a length which is 50% or more of the rod outside diameter.

Also, for the step tube rod provided with the external threads at both ends and connected via the sleeve, it is preferable that the small-diameter portion has an outside diameter which is 90% or less of the sleeve outside diameter and has a length which is 50% or more of the sleeve outside diameter.

For the boring machine, in addition to the case where the step tube rod is used for all drill rods, the step tube rod may be used only for the tip-end drill rod. Even in the case where the step tube rod is used only for the tip-end drill rod, a bore bend at the time of boring can be reduced as compared with the case where the conventional drill rod is used.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a side view of a hydraulic crawler drill using a step tube rod in accordance with the present invention as a drill rod; [0027]
FIG. 2 is a construction view of a step tube rod in accordance with one embodiment of the present invention; [0028]
FIG. 3 is an explanatory view showing a state in which a step tube rod is guided by a rod guide; [0029]
FIG. 4 is an explanatory view showing a state in which a step tube rod is clamped by a rod clamping device; [0030]
FIG. 5 is a construction view of a step tube rod in accordance with another embodiment of the present invention; [0031]
FIG. 6 is an explanatory view showing a state in which a step tube rod is clamped by a rod clamping device; [0032]
FIG. 7 is a construction view of a step tube rod in accordance with other embodiments of the present invention; [0033]
FIG. 8 is a side view of a hydraulic crawler drill using a conventional drill rod; [0034]
FIG. 9 is a construction view of conventional drill rods; [0035]
FIG. 10 is a construction view of a rod clamping device for a conventional hydraulic crawler drill; [0036]
FIG. 11 is an explanatory view showing a state in which a conventional drill rod is clamped by a rod clamping device; [0037]
FIG. 12 is a construction view of a rod clamping device for a conventional fan cut drill; [0038]
FIG. 13 is a sectional view taken along the line A-A of FIG. 12; [0039]
FIG. 14 is a construction view of a rod clamping device for a conventional down-the-hole drill; and [0040]
FIG. 15 is a sectional view taken along the line B-B of FIG. 14.[0041]

BEST MODE FOR CARRYING OUT THE INVENTION

FIG. 1 is a side view of a hydraulic crawler drill using a step tube rod in accordance with the present invention as a drill rod, FIG. 2 is a construction view of a step tube rod in accordance with one embodiment of the present invention, FIG. 3 is an explanatory view showing a state in which the step tube rod is guided by a rod guide, and FIG. 4 is an explanatory view showing a state in which the step tube rod is clamped by a rod clamping device. [0042]
The construction of a [0043] hydraulic crawler drill 10 shown in FIG. 1 is basically the same as that of the conventional hydraulic crawler drill 11 shown in FIG. 8. Therefore, description is given by applying the same reference numeral to the same element.
In this [0044] hydraulic crawler drill 10 as well, a boom 14 is provided on a carriage 13 provided with a track frame 12 so as to be turnable and tiltable. At the distal end of the boom 14 is supported a guide shell 16 mounted with a rock drill 15 so as to be capable of tilting and swinging. The rock drill 15 is insertedly mounted with a connected step tube rod 7 as a drill rod, and at the tip end of the step tube rod 7 is installed a bit 3 having an outside diameter approximately equal to a bore diameter Dh.
The [0045] rock drill 15 has a blowing mechanism, a rotating mechanism, and a flushing mechanism (not shown). The rock drill 15 is moved longitudinally by a feed force given by a feed motor 17 provided on the guide shell 16, and transmits a blow and rotation to the bit 3 via the step tube rod 7, whereby a rock-bed R is bored. Also, the flushing mechanism supplies compressed air to the tip end of the step tube rod 7 to discharge cuttings. In the tip end portion of the guide shell 16, a hood 18 is provided to cover the bore and to collect cuttings.
In the case where the bore length is great, a plurality of [0046] step tube rods 7 are connected successively at the time of boring work. The supply and connection of the step tube rods 7 and the separation and recovery of the step tube rods 7 after the boring work is finished are carried out mechanically by using a rod changer 19.
In the case where the connection and recovery of the [0047] step tube rod 7 are carried out, the step tube rod 7 must be clamped so that the central axis of the step tube rod 7 is fixed when the step tube rod 7 is connected or separated, so that a rod clamping device 4 is provided in the vicinity of the tip end portion of the guide shell 16.
Also, in front of the [0048] rod clamping device 4, there is provided a rod guide 9 which holds the step tube rod 7 in the center to guide it when clamping by the rod clamping device 4 is released and boring is performed.
The [0049] step tube rod 7 has a large rod outside diameter D that is approximately equal to the bore diameter Dh, and is provided with external threads MS at one end and internal threads FS at the other end. The step tube rods 7 are connected by directly engaging the external threads MS with the internal threads FS. Also, a small-diameter portion 8 is formed near an internally threaded portion.
The small-[0050] diameter portion 8 is formed so that the outside diameter d thereof is 90% or less of the rod outside diameter D and the length L thereof is 50% or more of the rod outside diameter D, that is,
d≦0.9D, and [0051]
L≧0.5D. [0052]
When boring is performed, as shown in FIG. 3, the [0053] step tube rod 7 is guided by the rod guide 9 and is held in the center of the guide shell 16.
At the time of connection and recovery work, as shown in FIG. 4, the [0054] step tube rod 7 is clamped by the rod clamping device 4 provided on the guide shell 16 of the hydraulic crawler drill 10.
The [0055] rod clamping device 4 is provided with a pair of clamps 5 pivotally supported by pins 6 so as to be capable of being opened and closed. On the internal surface of the clamp 5, a large-diameter portion 5L and a small-diameter portion 5S are formed, and the large-diameter portion 5L holds the internally threaded portion of the step tube rod 7.
Therefore, the [0056] step tube rod 7 is clamped by the rod clamping device 4 so as to be prevented from rotating, and is positioned by a diameter difference between the large-diameter portion 5L and the small-diameter portion 5S of the clamp 5.
Since the [0057] step tube rod 7 has the large outside diameter D approximately equal to the bore diameter Dh, a bore bend occurring at the time of boring is reduced. Also, since the small-diameter portion 8 is formed at the outer periphery near the internally threaded portion, for the hydraulic crawler drill 10, the step tube rod 7 can be used as a drill rod merely by slightly modifying the conventional rod clamping device.
For the [0058] hydraulic crawler drill 10 using the step tube rod 7 as a drill rod, the step tube rod 7 can be positioned easily, so that the connection and recovery work can be performed efficiently and safely.
Since the outside diameter d of the small-[0059] diameter portion 8 is 90% or less of the rod outside diameter D and the length L thereof is 50% or more of the rod outside diameter D, when screw loosening is insufficient, feigned striking can be performed without trouble in a state in which the step tube rod 7 is fixed to the rod clamping device 4.
FIG. 5 is a construction view of a step tube rod in accordance with another embodiment of the present invention, and FIG. 6 is an explanatory view showing a state in which the step tube rod is clamped by a rod clamping device. [0060]
This [0061] step tube rod 7 has a large rod outside diameter D that is approximately equal to the bore diameter Dh, and is provided with external threads MS at both ends. The step tube rods 7 are connected via a sleeve 2 provided with internal threads FS on the inside. The outside diameter Ds of the sleeve 2 is equal to the rod outside diameter D.
Also, a small-[0062] diameter portion 8 is formed near an externally threaded portion. The small-diameter portion 8 is formed so that the outside diameter d thereof is 90% or less of the sleeve outside diameter Ds and the length L thereof is 50% or more of the sleeve outside diameter Ds, that is,
d≦0.9 Ds, and [0063]
L≧0.5 Ds. [0064]
The [0065] step tube rod 7 can be formed into shapes shown in FIGS. 7(a) and 7(b).
At the time of connection and recovery work, as shown in FIG. 6, the [0066] step tube rod 7 is clamped by a rod clamping device 4 provided on a guide shell 16 of the hydraulic crawler drill 10.
The [0067] rod clamping device 4 is provided with a pair of clamps 5 pivotally supported by pins 6 so as to be capable of being opened and closed. On the internal surface of the clamp 5, a large-diameter portion 5L and a small-diameter portion 5S are formed, and the large-diameter portion 5L holds a portion of the sleeve 2.
Therefore, the [0068] step tube rod 7 and the sleeve 2 are clamped by the rod clamping device 4 so as to be prevented from rotating, and are positioned by a diameter difference between the large-diameter portion 5L and the small-diameter portion 5S of the clamp 5.
Since the [0069] step tube rod 7 has the large outside diameter D approximately equal to the bore diameter Dh, a bore bend occurring at the time of boring is reduced. Also, since the small-diameter portion 8 is formed near an externally threaded portion, for the hydraulic crawler drill 10, the step tube rod 7 can be used as a drill rod merely by slightly modifying the conventional rod clamping device.
For the [0070] hydraulic crawler drill 10 using the step tube rod 7 as a drill rod, the step tube rod 7 can be positioned easily, so that the connection and recovery work can be performed efficiently and safely.
Since the outside diameter d of the small-[0071] diameter portion 8 is 90% or less of the sleeve outside diameter Ds and the length L thereof is 50% or more of the sleeve outside diameter Ds, when screw loosening is insufficient, feigned striking can be performed without trouble in a state in which the step tube rod 7 is fixed to the rod clamping device 4.
For the [0072] hydraulic crawler drill 10, in addition to the case where the step tube rod 7 is used for all drill rods, the step tube rod 7 may be used only for the tip-end drill rod. Even in the case where the step tube rod 7 is used only for the tip-end drill rod, a bore bend at the time of boring can be reduced as compared with the case where the conventional drill rod 1 is used.

INDUSTRIAL APPLICABILITY

As described above, for the step tube rod in accordance with the present invention, a bore bend at the time of boring can be reduced. Also, the small-diameter portion is formed near the internally threaded portion for the step tube rod provided with the external threads at one end and the internal threads at the other end or near the externally threaded portion for the step tube rod provided with the external threads at both ends and connected via the sleeve. Therefore, for this boring machine, the step tube rod can be used as a drill rod merely by slightly modifying the conventional rod clamping device. [0073]
For the boring machine using the step tube rod as a drill rod, the drill rod can be positioned easily, so that the connection and recovery work can be performed efficiently and safely. [0074]

Claims

1. A step tube rod characterized in that in a drill rod for a boring machine, a rod outside diameter is large so as to be approximately equal to a bore diameter, external threads are provided at one end and internal threads are provided at the other end, and at least one small-diameter portion is formed near an internally threaded portion.

2. The step tube rod according to claim 1, characterized in that the small-diameter portion has an outside diameter which is 90% or less of the rod outside diameter and has a length which is 50% or more of the rod outside diameter.

3. A step tube rod characterized in that in a drill rod for a boring machine, a rod outside diameter is large so as to be approximately equal to a bore diameter, external threads are provided at both ends so that the rods are connected via a sleeve, and at least one small-diameter portion is formed near an externally threaded portion.

4. The step tube rod according to claim 3, characterized in that the small-diameter portion has an outside diameter which is 90% or less of the sleeve outside diameter and has a length which is 50% or more of the sleeve outside diameter.

5. A boring machine characterized by using the step tube rod according to claim 1, 2, 3 or 4 as a drill rod.

6. The boring machine according to claim 5, characterized by using the step tube rod for a tip-end drill rod.