JP2012062656A - Rock bolt forming method and drilling device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a rock bolt forming method and a drilling device capable of drilling to a prescribed depth in a short time without worrying about the collapse of a part where a borehole for a rock bolt is dug, performing pull-out without worrying about the collapse of the borehole formed for the rock bolt, inserting a reinforcing bar into mortar filled in the borehole for the rock bolt and obtaining sufficient strength.SOLUTION: The rock bolt forming method includes: a borehole-for-rock-bolt forming process of forming a borehole for a rock bolt by the drilling device including a double tube type drilling machine provided with an inner rod inside a casing rod; a pulling-out and mortar filling process of filling mortar inside a space from which the casing rod or the inner rod is pulled out while simultaneously pulling out the casing rod and inner rod of the double tube type drilling machine from the borehole for the rock bolt formed in the borehole-for-rock-bolt forming process; and a reinforcing bar inserting process of inserting a reinforcing bar into the filled mortar before the filled mortar is hardened after the pulling-out and mortar filling process.

Description

  The present invention relates to a lock bolt forming method and a drilling device used when forming a lock bolt.

  Conventionally, reinforcement of a relatively shallow portion of a slope of 6 m to 7 m has formed a lock bolt using a lock bolt method.

  In this conventional rock bolt method, a drilling machine with a bit attached to the tip of a hollow drill rod is installed on the slope, and the drill rod is advanced or retracted on the slope to dig the rock bolt After checking whether the forming hole is broken or not broken, after extracting the drill lot, insert a reinforcing bar into the formed rock bolt forming hole, and then cement or mortar. To form a rock bolt.

  For this reason, it takes time to move the drill rod forward or backward to check whether the rock bolt forming hole dug when forming the rock bolt forming hole is broken or not broken. There was a drawback that the cost was high.

  Further, if the rock bolt forming hole is formed only by advancing the drill rod without performing such work, there is a disadvantage that the drill rod cannot be removed if the excavated rock bolt forming hole is broken. .

JP 2000-27598 A

  In view of the above-described conventional drawbacks, the present invention can drill holes to a predetermined depth in a short time without worrying about the location where the drilling holes for rock bolts have been crushed. It is an object of the present invention to provide a rock bolt forming method and a hole drilling device that can be pulled out without worrying about breaking of the drilling hole and that can provide sufficient strength by inserting a reinforcing bar into a mortar filled in the drilling hole for the lock bolt. Yes.

The above and other objects and novel features of the present invention will become more fully apparent when the following description is read in conjunction with the accompanying drawings.
However, the drawings are for explanation only and do not limit the technical scope of the present invention.

  In order to achieve the above object, the present invention provides a rock bolt drilling step for forming a lock bolt drilling hole with a drilling device equipped with a double-pipe drilling machine in which an inner rod is provided in a casing rod. The mortar is filled from the casing rod or inner rod while simultaneously pulling out the casing rod and inner rod of the double-pipe drilling machine from the lock bolt drilling hole formed in this rock bolt drilling step. A lock bolt forming method is constituted by the extraction mortar filling step to be performed and the reinforcing bar insertion step of inserting a reinforcing bar into the filling mortar before the mortar filled after the extraction mortar filling step is cured.

  The present invention provides a work vehicle having an endless track and a work table that can travel even on a steep slope, a boom attached to the work table of the work vehicle via a rotating device, and a left and right direction on the boom. A double-pipe type with a bit attached to the tip, which can be formed with a slide support base that is slidably movable and a rock bolt forming hole of about 7m in the guide shell attached to this slide support base A drilling machine, a mortar supply device that is detachably attached to the double-pipe type drilling machine and can supply mortar into the extraction space from a bit of the double-pipe type drilling machine, and the slide support A drilling device is constituted by a reinforcing bar insertion device that inserts a reinforcing bar attached to a table into a drilling hole for a lock bolt filled with mortar.

As is clear from the above description, the present invention has the following effects.
(1) According to claim 1, after forming the lock bolt hole by forming the lock bolt hole, the casing rod and the inner rod of the double-pipe drilling machine are simultaneously removed from the lock bolt hole, The mortar can be filled into the space extracted from the casing rod or the inner rod.
Therefore, it is possible to prevent the rock bolt hole from being broken.
Therefore, when forming the rock bolt hole, the rock bolt hole can be formed without worrying about the collapse of the formed rock bolt hole, and the rock bolt hole can be formed in a short time.
(2) According to the above (1), while simultaneously removing the casing rod and inner rod of the double-pipe drilling machine from the rock bolt drilling hole, the mortar is filled into the extraction space from the casing rod or inner rod. Mortar can be filled inside without breaking the rock bolt hole.
(3) According to the above (1), after the mortar is filled into the rock bolt hole, the reinforcing bar is inserted into the mortar before the filled mortar is hardened. Can do.
(4) According to the items (1) to (3), the lock bolt can be formed in a short time and at a low cost by an easy operation.
(5) Since Claim 2 uses a work vehicle equipped with a hole drilling device in a work vehicle that can travel even on a steep slope, it is easier than in the conventional case where a scaffold is formed on the slope. It can move and can efficiently form a rock bolt hole.
(6) Since the reinforcing bar is inserted into the mortar filled in the rock bolt drilling hole while applying vibration, the reinforcing bar can be efficiently inserted into the mortar in a short time.
(7) The effect similar to the said (1)-(6) is acquired also for Claim 4.

The process drawing of the 1st form for carrying out the present invention. Explanatory drawing of the drill formation process for rock bolts of the 1st form for implementing this invention. Explanatory drawing of the extraction mortar filling process of the 1st form for implementing this invention. Explanatory drawing of the reinforcing bar insertion process of the 1st form for implementing this invention. The side view of the drilling apparatus of the 1st form for implementing this invention. The top view of the drilling apparatus of the 1st form for implementing this invention. Operation | movement explanatory drawing of the drilling apparatus of the 1st form for implementing this invention. The side view of the reinforcing bar insertion work vehicle of the 1st form for carrying out the present invention. The top view of the reinforcing bar insertion work vehicle of the 1st form for carrying out the present invention. Operation | movement explanatory drawing of the reinforcing bar insertion work vehicle of the 1st form for implementing this invention. Process drawing of the 2nd form for implementing this invention. Explanatory drawing of the drill formation process for rock bolts of the 2nd form for implementing this invention. Explanatory drawing of the extraction mortar filling process of the 2nd form for implementing this invention. Explanatory drawing of the reinforcing bar insertion process of the 2nd form for implementing this invention. The side view of the drilling apparatus of the 2nd form for implementing this invention. The top view of the drilling apparatus of the 2nd form for implementing this invention. Explanatory drawing of the movement state of the slide support stand of the 2nd form for implementing this invention. Process drawing of the 3rd form for implementing this invention. Explanatory drawing of the drill formation process for rock bolts of the 3rd form for implementing this invention. Explanatory drawing of the extraction mortar filling process of the 3rd form for implementing this invention. Explanatory drawing of the reinforcing bar insertion process of the 3rd form for implementing this invention. The top view of the drilling apparatus of the 3rd form for implementing this invention.

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

  In the first embodiment for carrying out the present invention shown in FIGS. 1 to 10, reference numeral 1 denotes a lock bolt forming method according to the present invention in which a lock bolt 3 is formed on a slope 2 having a gentle or steep slope. The forming method 1 includes a lock bolt drilling forming step 9 in which a lock bolt drilling hole 8 is formed by a drilling device 7 provided with a double-pipe drilling machine 6 having an inner rod 5 provided in a casing rod 4; While simultaneously removing the casing rod 4 and inner rod 5 of the double-pipe type drilling machine 6 from the lock bolt drilling hole 8 formed in the rock bolt drilling hole forming step 9, the casing rod 4 or inner rod 5 is used. The extraction mortar filling step 12 for filling the extraction space 10 with the mortar 11 and the mortar 11 filled after the extraction mortar filling step 12 is cured. In, and a reinforcing bar insertion step 14 of inserting the rebar 13 within the filling mortar 11.

  As shown in FIGS. 5 to 7, the drilling device 7 used in the rock bolt drilling process 9 includes endless tracks 15 and 15 and a work table 16 that can travel even on a steep slope 2. , A boom 19 that rotates in the horizontal direction by a hydraulic cylinder 18 at the front center of the work table 16 of the work vehicle 17, and a pivot pin 19 a that is pivotally supported at the tip of the boom 19. The rotating device 20 is composed of a rotating body 20a attached to the hydraulic cylinder 21 so that the tip thereof rotates in the vertical direction, and the rotating body 20a of the rotating device 20 can be moved in the vertical direction by the hydraulic cylinder 22. The guide shell 23 of about 7 m attached in this way, and the double-pipe type drilling machine 6 attached to the guide shell 23 through the forward / backward moving device 24 so as to be able to move forward and backward.

  The double-pipe drilling machine 6 includes a base plate 25 that can be moved back and forth along the guide shell 23 by a forward / backward moving device 24, a casing rod rotating device 26 fixed in front of the base plate 25, The rear end portion is connected to the rotating portion of the casing rod rotating device 26, the front end portion is rotatably supported by the support portion 27 at the front end portion of the guide shell 23, and the bit 28 is attached to the front end portion. Casing rod 4, the inner rod 5 having a bit 30 attached to the tip inserted into the casing rod 4 through a gap 29, and the base plate connected to the rear end of the inner rod 5. An inner rod rotating device 32 provided with a striking device 31 fixed to the rear of 25, the inner rod rotating device 32 and the casing rod rotating device 26; In the meantime, air or flushing water is supplied from the tips of the bits 28 and 30 through a gap 29 between the casing rod 4 and the inner rod 5, and air or flushing water and cutting are supplied from the through hole 30 a in the center of the bit 30. A cleaning device 34 for passing the cut material through the inner rod 5 and discharging it to the outside, and a switching operation with the cleaning device 34 to pass the through-hole 33 of the inner rod 5 and the central through-hole of the bit 30 A mortar supply device 36 having a squeeze pump 35 for discharging the mortar 11 from 30a, left and right winches 37, 37 attached to both sides of the rear portion of the work table 16, and wires 38, 38 of the left and right winches 37, 37 Wire guide members 39, 39 provided on both sides of the front portion of the work table 16. The anchors 40 and 40 are fixed to the left and right portions of the upper portion of the steep slope 2 and fixed to at least several times the width of the work table 16 or more than ten times the width. .

  The rebar insertion process 14 is performed by a rebar insertion work vehicle 41. As shown in FIGS. 8 to 10, the reinforcing bar insertion work vehicle 41 includes a work vehicle main body 44 provided with endless tracks 42 and 42 and a work table 43, which can travel even on a steep slope 2, and the work vehicle. A rotating device 47 including a boom 46 that is rotated by a hydraulic cylinder 45 in the vertical direction at the front center portion of the work table 43 of the main body 44, and a hydraulic cylinder that is moved vertically to the tip of the boom 46 of the rotating device 47. A guide shell 51 provided with a support 50 at a tip end attached via a vertical movement device 49 using 48, and a reinforcing bar 13 attached via a forward / backward movement device 52 so that the guide shell 51 can move back and forth. And a reinforcing bar support device 54 provided with a striking device 53.

  The rebar insertion work vehicle 41 may also be operated by installing winches 37 and 37 on the work table 43 and attaching them to the anchors 40 and 40 on the steep slope 2 as necessary.

  The hole drilling device 7 configured as described above can move the work vehicle 17 to the lock bolt forming portion even on the steep slope 2 by the winches 37, 37 and the endless tracks 42, 42.

  Thereafter, the casing rod 4 and the inner rod 5 are positioned on the lock bolt forming portion by the rotation device 20 and the vertical movement device 22, and the casing rod rotation device 26, the striking device 31, the inner rod rotation device 32, and the cleaning device 34 are operated. Then, by operating the forward / reverse movement device 24 in this state, the rock bolt drilling hole 8 is formed by the bits 28 and 30, and the digging is proceeded to a preset depth.

  At this time, the cut material cut by the bits 28 and 30 is discharged together with the air sent by the cleaning device 34 or the flushing water through the inner rod 5 and discharged to the outside. Is formed.

  Further, when the rock bolt hole 8 is formed, there is almost no gap between the inner wall surface of the formed rock bolt hole 8 and the casing rod 4, so that the lock bolt hole is formed in the hole. The wall surface of the drilling hole 8 does not collapse.

  When the rock bolt drilling hole 8 having a preset depth is formed, the cleaning device 34 is switched to the mortar supply device 36, and the mortar 11 is passed through the through hole 33 of the inner rod 5 and the central through hole of the bit 30. While discharging from 30a, the base plate 25 is moved rearward by the forward / backward moving device 24, and the mortar 11 is filled in the extraction space 10 while extracting the casing rod 4 and inner rod 5 from the lock bolt hole 8. Pull out.

  Thereafter, the rotation device 20 and the vertical movement device 22 are operated, and the double-pipe type drilling machine 6 is positioned so as to be substantially horizontal with the workbench 16 to form the next drilling hole for the lock bolt. The work vehicle 17 and the winches 37, 37 are driven and moved to the site.

  Next, the rebar insertion work vehicle 41 is driven and the turning device 47 and the vertical movement device 49 are operated so that the rebar 13 can be inserted into the rock bolt drilling hole 8 filled with the formed mortar 11. Then, the reinforcing bar 13 supported by the reinforcing bar support device 54 is guided by the guide shell 51 including the support member 50 by moving the reciprocating movement device 52 forward while operating the striking device 53 and the vibration device 55. Thus, the reinforcing bar 13 can be inserted into the mortar 11 in the rock bolt drilling hole 8.

  In addition, by making the impacting device 53 also have the function of the vibration device, the same effect can be obtained without using the vibration device.

[Different forms for carrying out the invention]
Next, different modes for carrying out the present invention shown in FIGS. 11 to 22 will be described. In the description of the different embodiments for carrying out the present invention, the same components as those in the first embodiment for carrying out the present invention are denoted by the same reference numerals, and redundant description is omitted.

  The second embodiment for carrying out the present invention shown in FIGS. 11 to 17 is mainly different from the first embodiment for carrying out the present invention in that a boom 19A rotated by a rotating device 20A. The slide support base 56 is attached to the work table 16 via a hydraulic cylinder 57 so that the slide support base 56 can be slid in the left-right direction. The guide shell 51 attached to the slide support base 56 to be inserted through the up-and-down moving device 49, the rebar 13 attached to the guide shell 51 through the back-and-forth moving device 52 so as to move back and forth, and the vibration are supported. The use of the drilling device 7A configured in this way in that the reinforcing bar support device 54 provided with the striking device 53 that can be applied is used. After forming the lock bolt drilling hole 8 with the double-pipe drilling machine 6 and extracting and filling the mortar 11 into the lock bolt drilling hole 8, the slide support base 56 is moved left and right with the hydraulic cylinder 57. After being moved and positioned so that the reinforcing bar 13 can be inserted into the rock bolt drilling hole 8 filled with the mortar 11, the striking device 53 and the vibration device 55 are operated by operating the reinforcing bar 13 supported by the reinforcing bar support device 54. However, by moving the forward / backward moving device 52 forward, it can be inserted into the mortar 11 in the lock bolt hole 8 by being guided by the guide shell 51 provided with the support 50.

  A lock bolt forming method in which a drilling device for lock bolt 9A, a filling mortar filling step 12A, and a reinforcing bar insertion step 14A are performed using a drilling device 7A provided with such a slide support base 56 that can be moved in the left-right direction. Even if 1A is performed, the same effects as the first embodiment for carrying out the present invention can be obtained, and the rebar 13 can be more efficiently inserted into the rock bolt hole 8 filled with the mortar 11. Can be done well.

  The third embodiment for carrying out the present invention shown in FIGS. 18 to 22 is mainly different from the first embodiment for carrying out the present invention in that a boom 19A rotated by a rotating device 20A. The slide support base 56 is attached to the work table 16 via a hydraulic cylinder 57 so that the base plate 25 can be moved back and forth by the forward / backward moving device 24. The rebar is supported on the base plate 25A that is moved by the pipe type drilling machine 6 and the forward / backward moving device 24A that can be moved separately from the double pipe type drilling machine 6, and the impact bolt 53 is used for drilling the lock bolt. By using the drilling device 7B configured in this way, the double-pipe drilling machine 6 can lock the steel rod insertion device 58 that can be inserted into the rod 8. After the bolt hole 8 is formed and the mortar 11 is extracted and filled into the lock bolt hole 8, the slide support 56 is moved in the left-right direction by the hydraulic cylinder 57, and the lock bolt filled with the mortar 11 is used. After positioning the guide shell 23A so that the reinforcing bar 13 can be inserted into the drilling hole 8, the reinforcing bar insertion device 58 is operated, and the reinforcing bar 13 is operated while the striking device 53 is operated to advance the forward / backward moving device 24A. The rebar 13 can be inserted into the mortar 11 in the rock bolt hole 8 by being guided by the guide shell 23 </ b> A having the support 50.

  Using the drilling device 7B provided with the guide shell 23A in which the slide support base 56 and the reinforcing bar insertion device 58 that can be moved in the left-right direction are provided, a drilling mortar filling step 12B and a drilling mortar filling step 12B are performed. Even if the lock bolt forming method 1B in which the reinforcing bar insertion step 14B is performed is performed, the same effect as that of the first embodiment for carrying out the present invention can be obtained, and the reinforcing bar 13 is a lock in which the mortar 11 is filled. Insertion into the bolt hole 8 can be performed more efficiently.

  INDUSTRIAL APPLICABILITY The present invention is used in the industry for forming a lock bolt and the industry for manufacturing a drilling device for drilling a lock bolt.

1, 1A, 1B: Rock bolt forming method,
2: slope, 3: rock bolt,
4: casing rod, 5: inner rod,
6: Double pipe type drilling machine, 7, 7A, 7B: Drilling device,
8: Rock bolt hole drilling,
9, 9A, 9B: Rock bolt hole forming step,
10: extraction space, 11: mortar,
12, 12A, 12B: sampling mortar filling process,
13: Rebar, 14, 14A, 14B: Rebar insertion process,
15: endless track, 16: workbench,
17: Work vehicle, 18: Hydraulic cylinder,
19: boom, 20: rotating device,
21: Hydraulic cylinder, 22: Vertical movement device,
23, 23A: guide shell, 24: forward / backward movement device,
25: Base plate,
26: casing rod rotating device,
27: support part, 28: bit,
29: gap, 30: bit,
31: Blowing device, 32: Inner rod rotating device,
33: Through hole, 34: Cleaning device,
35: Squeeze pump, 36: Mortar supply device,
37: winch, 38: wire,
39: Wire guide member, 40: Anchor,
41: Rebar insertion work vehicle, 42: Endless track,
43: Work table, 44: Work vehicle body,
45: Hydraulic cylinder, 46: Boom,
47: Rotating device, 48: Hydraulic cylinder,
49: Vertical movement device, 50: Support tool,
51: Guide shell, 52: Forward / backward moving device,
53: Impact device, 54: Rebar support device,
55: Vibration device, 56: Slide support,
57: Hydraulic cylinder, 58: Rebar insertion device.

Claims (4)

Formed in the drilling process for the lock bolt, which forms a drilling hole for the lock bolt with a drilling device equipped with a double-pipe drilling machine with an inner rod in the casing rod, and the drilling process for the lock bolt The extraction mortar filling process in which the mortar is filled into the extraction space from the casing rod or inner rod while simultaneously removing the casing rod and inner rod of the double-pipe type drilling machine from the drilled hole for the lock bolt, and this extraction mortar filling A lock bolt forming method comprising: a reinforcing bar insertion step of inserting a reinforcing bar into the filled mortar before the mortar filled after the step is cured. The drilling device used in the rock bolt drilling process is attached to a work vehicle having a work table that can travel even on a steep slope, and to the work table of the work vehicle via a rotating device. A double pipe including a guide shell, a casing rod of about 7 m attached to the guide shell, an inner rod provided in the casing rod, and a bit attached to the tip of either the inner rod or the casing rod The rock bolt forming method according to claim 1, wherein the rock bolt forming method is configured by a drilling machine. 3. The method for forming a lock bolt according to claim 1, wherein the reinforcing bar insertion step is performed while applying vibration to the reinforcing bars to be inserted. A work vehicle equipped with an endless track and a work table that can travel even on a steep slope, a boom mounted on the work table of the work vehicle via a rotating device, and a sliding movement to the left and right of the boom A double-pipe type drilling machine with a bit attached to the tip, which can form a rock bolt formation drilling hole of about 7m in a slide support base attached to the slide support base and a guide shell attached to the slide support base A mortar supply device that is detachably attached to the double-pipe type drilling machine and that can supply mortar into the extraction space from the bit of the double-pipe type drilling machine, and is attached to the slide support A drilling device comprising: a reinforcing bar insertion device that inserts the reinforcing bar into a rock bolt drilling hole filled with mortar.

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