JP3450116B2 - Drilling equipment for excavators - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power shovel drilling device for mounting on a power shovel to pierce rock or concrete. 2. Description of the Related Art It is uneconomical to arrange a dedicated drilling device at a work site where drilling operations are infrequent, although the drilling operation is not always performed. Therefore, in such a work site, instead of a drilling device dedicated to drilling work such as a crawler drill or a drill jumbo, a power shovel that can be drilled by being attached to the tip of an arm of the power shovel as an attachment. Drilling equipment is used. [0003] Since this excavator drilling device is attached to the tip of the arm of the excavator, the drilling work range is widened and drilling at a high place can be easily performed. Conventionally, such a drilling device for a power shovel uses a guide shell and a guide mounting of a drilling device dedicated to drilling work as a guide shell for mounting a rock drill and a guide mounting for supporting the guide shell. Then, a mounting bracket is provided on the guide mounting, and the mounting bracket is mounted on the tip of the arm of the power shovel. [0004] The guide shell of the drilling device has a slender shell structure and does not bend because a guide rock is mounted and guided and moved in the direction of the drilling hole. It is necessary to be. However, since the power shovel performs digging work with a bucket attached to the tip of the arm, in order to increase the digging ability, a boom, an arm, and a cylinder for operating the bucket are provided with a drilling device dedicated to drilling work. As compared with a boom operating cylinder used for positioning, a cylinder having a much larger output is used. Accordingly, when positioning the excavator drilling device attached to the tip of the arm of the excavator, the boom, arm, and cylinder for operating the bucket are operated to move the foot pad at the tip of the guide shell to the rock. When pressed against the guide shell, a large load is applied to the guide shell, and the guide shell may be bent.
If a structure having a large strength is used to prevent bending of the guide shell, there is a problem that the weight of the guide shell increases and the cost increases. SUMMARY OF THE INVENTION The present invention solves such a problem in a drilling device for a power shovel, and a large load is not applied to a guide shell at the time of positioning, and the guide shell is not likely to bend. It is an object to provide a drilling device. According to the present invention, there is provided a guide shell on which a rock drill is mounted, a guide mounting for supporting the guide shell, and a bracket for attaching the guide mounting to an end of an arm of a power shovel. In the excavator for a power shovel having a guide shell, the guide shell is supported by the guide mounting so that the tip thereof can be retracted to a position behind the tip of the guide mounting, and a foot pad is provided at the tip of the guide mounting. Solves the above problem. When positioning the excavator for a power shovel, first, the guide shell is retracted on the guide mounting to a position where the tip of the guide shell is behind the tip of the guide mounting. Next, the boom, the arm, and the cylinder for operating the bucket are operated to press the foot pad at the tip of the guide mounting against the rock or the like. Then, the guide shell is moved forward on the guide mounting, and the foot pad at the front end of the guide shell is pressed against the bedrock or the like. As described above, the foot pad provided at the tip of the guide mounting is pressed by the operation of the cylinder for operating the boom, the arm, and the bucket, and the foot pad at the front end of the guide shell is mounted on the guide mounting. Since the guide shell is pressed against rocks or the like by the forward movement, a large load is not applied to the guide shell and no bending occurs. Since the guide mounting is much shorter in length than the guide shell, there is no danger of bending even under a large load, and even if the structure is reinforced, the weight and cost increase are small. FIG. 1 is a front view showing a state in which a power shovel drill according to an embodiment of the present invention is mounted on a power shovel. FIG. 2 is a power shovel drill. FIG. The excavator drilling device 1 includes a guide shell 3 on which a rock drill 2 is mounted, a guide mounting 4 for supporting the guide shell 3, and a bracket for attaching the guide mounting 4 to the tip of an arm 6 of the excavator 5. 7 is provided. The power shovel 5 has a known structure. A boom 10 is provided on a swivel 9 of a traveling vehicle 8, and an arm 6 is pivotally supported at a tip of the boom 10. Can be raised and lowered by the boom cylinder 11 and the arm cylinder 12. At the end of the arm 6, a bracket 7 of the excavator 1 for a power shovel is mounted. The bracket 7 is tilted by a bucket cylinder 16 provided on the arm 6, and tilts the guide shell 3 via the guide mounting 4. A swing cylinder 17 is provided between the bracket 7 and the guide mounting 4.
The guide shell 3 is swung via the guide mounting 4 by the expansion and contraction of the swing cylinder 17. The guide shell 3 guides and moves the mounted rock drill 2 in the direction of the drill hole, and has an elongated shell structure. Is provided with a foot pad 13 for fixing the foot pad 13. The guide shell 3 is slidably supported by a guide mounting 4.
It can be moved back and forth by expansion and contraction of a guide slide cylinder 14 provided between the guide slide 4 and the guide mounting 4. The stroke length and the mounting position of the guide slide cylinder 14 are set so that the guide shell 3 can be retracted to a position where the tip is behind the tip of the guide mounting 4. A foot pad 15 is provided at the tip of the guide mounting 4. When drilling work, a bucket (not shown) is removed from the tip of the arm 6 of the power shovel 5, and the bracket 7 of the power shovel drilling device 1 is attached to the tip of the arm 6, and the power shovel is mounted. 5 is driven to the vicinity of a predetermined drilling hole position and stopped. To position the excavator drilling device 1 at the drilling position, first, the guide slide cylinder 14 is extended to place the guide shell 3 on the guide mounting 4 so that the tip of the guide shell 3 is guided by the guide mount. Unching 4
Backward to the position behind the tip of. Next, the swivel 9 of the power shovel 5 is swung, and the boom cylinder 1 is rotated.
1, the arm cylinder 12 and the bucket cylinder 16 are operated to move the boom 10, the arm 6 and the bracket 7 to adjust the swing angle of the guide mounting 4 by the expansion and contraction of the swing cylinder 17. The foot pad 15 is pressed at a predetermined position on the bedrock 20. Then, the guide slide cylinder 14 is reduced, the guide shell 3 is moved forward on the guide mounting 4, and the foot pad 13 at the front end of the guide shell 3 is pressed against the bedrock 20 to complete the positioning. When the positioning is completed, the excavator drilling device 1 drives the rock drill 2, guides the drill rock in the drilling direction by the guide shell 3, and moves forward to perform drilling. As described above, the boom cylinder 11, the arm cylinder 12, and the bucket cylinder 16 of the power shovel 5 are pressed by the foot pad 15 provided at the tip of the guide mounting 4. Since the foot pad 13 is pressed against the rock 20 by the forward movement on the guide mounting due to the contraction of the guide slide cylinder 14, a large load is not applied to the guide shell 3 and no bending occurs. Since the length of the guide mounting 4 is much shorter than that of the guide shell 3, there is no possibility that the guide mounting 4 will bend even if a large load is applied, and even if the structure is reinforced, the weight and cost increase are slight. As described above, the drilling apparatus for a power shovel according to the present invention does not apply a large load to the guide shell during positioning, and there is no possibility that the guide shell will bend.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a state in which a drilling device for a power shovel according to an embodiment of the present invention is attached to the power shovel. FIG. 2 is a side view of a drilling device for a power shovel. [Description of Signs] 1 Drilling device for power shovel 2 Rock drill 3 Guide shell 4 Guide mounting 5 Power shovel 6 Arm 7 Bracket 8 Traveling trolley 9 Swivel 10 Boom 11 Boom cylinder 12 Arm cylinder 13 Foot pad 14 Guide slide cylinder 15 Foot pad 16 Bucket cylinder 17 Swing cylinder 20 Rock

Claims (1)

(57) [Claims 1] A guide shell on which a rock drill is mounted, a guide mounting for supporting the guide shell, and a bracket for attaching the guide mounting to an end of an arm of a power shovel. A drilling device for a power shovel, comprising: a guide pad supporting the guide shell so as to be able to retreat to a position where a tip of the guide shell is behind the tip of the guide mounting; and a foot pad provided at a tip of the guide mounting. A drilling device for a power shovel.