JP4218883B2 - Method of moving frame construction method, method of moving frame drilling facility, and method of drilling at the intersection of frame using method frame moving drilling facility - Google Patents

Description

  The present invention relates to a method of moving a frame-moving construction facility, a frame-frame-moving drilling facility, and a method of drilling a method frame intersection using the frame-moving-type drilling facility provided in a frame constructed on a slope. It is about.

  In the slope protection method and slope restraint method, a frame is formed in advance by spraying or placing concrete, and then a lock bolt or ground anchor is driven into the intersection of the vertical frame and horizontal frame of this frame to It may function as a support frame for these anchors, and the tensile force may increase the slip resistance of the natural ground, thereby protecting the slope and suppressing the slope.

When implanting these lock bolts or ground anchors, typically, prior to implantation, it formed a scaffold to form a working stage to law frame, lock bolt and ground anchors to secure the drilling machine on the work stage An anchor hole for driving is drilled.

  However, this method requires a great deal of labor for constructing and dismantling the scaffold, and it may be difficult to secure the scaffold even for steep slopes. Even with this method, in order to install the drilling machine on the work stage, it is necessary to be within the reach of a boom such as a truck crane. If it is a key point, etc.), it will hinder the construction itself.

To solve these problems, eliminating the need for this work stage building, slope law Ass liftable drilling machine to Hokata direction, and lifting device for the material transport is proposed (For example, refer to Patent Document 1).
JP-A-11-293679 (pages 8 to 12, FIGS. 1 to 20)

  However, the above proposal has a structure that can move up and down from the slope of the slope to the shoulder, but for lateral movement of the slope, while pulling the wire attached to the drilling machine with a winch, There is no other hand to move this hole drilling machine on the upper surface of the horizontal frame of the frame, and the frame formed in advance by contact or collision between the hole drilling machine or lifting device and the frame at the time of this side sliding. Will damage the upper surface and the corners of the wall, and damage the legal frame as a structure. In order to reduce this damage, it is necessary to preliminarily cover the side frame of the slope with a protective frame for skid formed of pipes and plates to prevent damage to the upper surface and the protruding corner of the frame. The construction efficiency was poor because it took time and labor to install and remove the skid protection frame.

  In addition, since the fixing of the drilling machine to the frame is only by locking the side of the frame to the side of the horizontal frame, the reaction force when drilling (the surface against the impact on the slope during drilling, etc.) The force against the drilling machine) is entirely due to the weight of the drilling machine, so if the percussion impact force is increased, the risk of the drilling machine falling off the legal frame and falling downward due to the reaction Therefore, there is a problem that a hole having a relatively large diameter (for example, φ65 mm or more) cannot be formed.

  Therefore, the main problem of the present invention is to provide a frame-moving construction facility that can be moved up and down and moved laterally efficiently, and secondly, it is necessary to provide a work stage and a heavy machine having a boom. Providing a frame-moving drilling equipment that can drill anchor holes at the intersection of the vertical and horizontal frames of the frame without the need to secure an occupied area, and thirdly, An object of the present invention is to provide a method for drilling holes in a method frame intersection that can improve work efficiency.

The present invention that has solved the above problems is as follows.
<Invention of Claim 1>
The invention of claim 1 wherein is disposed boric frame built slope, and two lifting rails consisting of parallel rails, removably attached to the this lifting rail, two A frame moving type comprising: a horizontal moving rail composed of parallel rails; and a vertical frame moving mounting frame on which the object to be mounted can be moved, which is movable on the lifting rail and the horizontal moving rail. It is construction equipment, and the frame moving type mounting frame includes a left and right vertical frame extending in parallel with the lifting rail, and the left and right vertical frames sandwich the lifting rail from above and below, respectively. A roller unit in which a rotating upper roller and a lower roller are integrated by a coupling tool is detachably attached to the lifting rail, and the lateral movement is performed at both end edges of the left and right vertical frames. Approximately perpendicular to rail And a second guide roller for rotating the side surface of the lateral movement rail. The first guide roller for rotating the upper surface of the lateral movement rail and a second guide roller for rotating the side surface of the lateral movement rail are provided. With the rail being removed from the lifting rail, the roller unit sandwiches the lifting rail, and the upper roller and the lower roller rotate the upper and lower surfaces of the lifting rail, thereby The first mode in which the movable mounting frame moves up and down on the lifting rail, and the lateral movement by lowering the first guide roller in the state where the lateral moving rail is mounted on the lifting rail. The above-mentioned lifting rail of the roller unit is released from being sandwiched, and the mounting frame is placed on the lateral movement rail by the first guide roller and the second guide roller. A second aspect of the lateral movement, which is selectably configured to, it is legal frame mobile construction equipment according to claim.

(Function and effect)
Since the roller unit provided on the frame moving type mounting frame is detachable from the lifting rail, it can be removed and is not bulky when transported to the site. Further, the detachable structure of the roller unit and the first guide roller and the second guide roller that rotate the rail for lateral movement facilitate lateral movement.

  As a result, the legal frame moving construction equipment can easily move laterally as well as move up and down, so that the work placed on the legal frame moving mounting frame can be efficiently transported to the destination. For example, the material can be easily carried in and out, and can also be used as a scaffold.

<Invention of Claim 2>
According to a second aspect of the present invention, the elevating rail includes a plurality of connecting members that connect two parallel rails in a sleeper shape, and the lower side of the rails or below both ends of the connecting members. and a holding member for sandwiching the vertical frame sides, said holding member comprises a bolt for pressure-bonding the lifting rail in the vertical frame sides of the method frame, the said lifting rail The frame according to claim 1, wherein the frame is arranged on a vertical frame of the frame and fixed to the vertical frame of the frame by tightening a bolt of the holding member. It is a mobile construction facility.

(Function and effect)
By tightening the bolts of the lifting rail holding members and crimping them to both sides of the vertical frame of the frame, the lifting rail is fixed to the vertical frame of the frame. It can be securely fixed to the surface. For this reason, there is little possibility that an object placed on the method frame movable mounting frame will fall out of the method frame and fall downward even in a large heavy machine.

<Invention of Claim 3>
According to the third aspect of the present invention, there is provided a laterally moving rail composed of two parallel rails disposed in a slope frame constructed on the slope, and the laterally movable rail is laterally movable and detachable. A frame-moving construction comprising: an elevating rail composed of two parallel rails to be mounted; and a method-frame-moving mounting frame on which the object to be placed is movable, which is movable on the elevating rail. The lifting rail includes a roller unit in which an upper roller and a lower roller that rotate by sandwiching the lateral movement rail from above and below are integrated by a connector, with respect to the lateral movement rail. The movable frame mounting frame provided detachably includes a left and right vertical frame extending in parallel with the lifting rail, and the left and right vertical frames sandwich the lifting rail from above and below, respectively. Rotating upper and lower rollers A roller unit integrated by a connector is detachably attached to the lifting rail, and the roller unit of the frame-moving mounting frame sandwiches the lifting rail, and the upper surface of the lifting rail and A first mode in which the frame-movable mounting frame moves up and down on the lifting rail by rotating the lower surface, and a roller unit of the lifting rail sandwiches the lateral movement rail, The roller and the lower roller rotate on the upper and lower surfaces of the lateral movement rail, and the elevating rail moves on the lateral movement rail, so that the relative frame moving mounting frame relatively moves laterally. A second aspect of the present invention is a method for moving frame construction, characterized in that it is configured to be selectable.

(Function and effect)
Since the roller unit provided on the elevating rail is detachable from the lateral movement rail, it can be removed and is not bulky when transported to the site. Further, the presence of the roller unit facilitates lateral movement.

  As a result, the legal frame moving construction equipment can easily move laterally as well as move up and down, so that the work placed on the legal frame moving mounting frame can be efficiently transported to the destination. For example, the material can be easily carried in and out, and can also be used as a scaffold.

<Invention of Claim 4>
The invention according to claim 4 is characterized in that the rail for lateral movement includes a holding member for sandwiching both side surfaces of the vertical frame of the frame and a connecting member that connects the upper ends of the holding members to each other. It is configured to be detachably connected to a rail fixture, and the holding member includes bolts for crimping the rail fixture to both sides of the vertical frame of the legal frame, and the rail fixture is attached to the legal frame. The rail fixing tool is fixed to the vertical frame of the modulus frame by tightening the bolt of the holding member, and the rail for horizontal movement is connected to the rail fixing tool. 4. The method according to claim 3, wherein the facility is fixed to the vertical frame of the method frame.

(Function and effect)
Tighten the bolts of the holding members of the rail fixtures and crimp them to both sides of the vertical frame of the method frame, and the rails for horizontal movement are connected to the rail fixtures, so that the rails for horizontal movement become the vertical frame of the method frame By being the structure fixed to, it can be fixed to the slope reliably. For this reason, there is little possibility that an object placed on the method frame movable mounting frame will fall out of the method frame and fall downward even in a large heavy machine.

<Invention of Claim 5>
The invention according to claim 5 is the method for moving frame construction according to any one of claims 1 to 4, wherein a guide cell is provided on the frame frame movable mounting frame, and a slope is formed on the guide cell. A method of moving frame drilling according to the present invention is characterized in that a frame drilling type drilling machine is constructed by attaching a drilling hole drifter for drilling.

(Function and effect)
With the above-described configuration, it is not necessary to construct a work stage for fixing the drilling machine, and it is not necessary to secure a space occupied by a heavy machine having a boom.

  In addition, the frame moving type drilling equipment can move not only up and down, but also lateral movement, so it is easy to move to the intersection of the frame, and as a result, the anchor hole drilling work can be made more efficient. Can do.

  Furthermore, in the case where the various rails are fixed to the legal frame by tightening the bolts of the holding members and being fixed to the both sides of the vertical frame, the percussion striking force is increased. Even if it is increased, there is no possibility that the hole drilling machine will come off the legal frame and fall downward due to the reaction, so that it is possible to drill holes with a relatively large diameter (for example, φ65 mm or more).

<Invention of Claim 6>
According to a sixth aspect of the present invention, the hole drilling drifter is a center hole type drifter that grips a midway in the longitudinal direction of a hole drilling member that drills a slope and rotates and blows the hole drilling member. Item 5. The frame moving type drilling equipment according to Item 5.

(Function and effect)
By adopting a center hole type drifter, the guide cell length (for example, the latter is 3 m or more and the former is 2 m or less) can be shortened as compared with a drifter having a striking mechanism using a top hammer. The weight of the drilling machine can be reduced (for example, the latter is 800 kg or more, and the former is 500 kg or less).

  Moreover, since it is a center hole type | mold, it can dig at a stretch without adding a long drilling member, and can improve work efficiency.

<Invention of Claim 7>
The invention described in claim 7 is provided with a guide cell on the frame moving type mounting frame in the frame moving type construction facility according to claim 1 or 2, and for drilling a slope in the guide cell. Using the method frame moving drilling equipment that constitutes the method frame moving drilling machine by attaching the hole drilling drifter,
A lifting wire, a left lateral movement wire and a right lateral movement wire are attached to the shoulder side and the left and right sides of the normal frame moving drilling machine, respectively, and these wires are operated to operate the vertical and horizontal frames of the normal frame. Are moved to a plurality of intersecting portions formed in order, and an anchor hole is sequentially drilled in these intersecting portions, the lifting rail is disposed on the vertical frame of the method frame, A first step of installing the frame moving type drilling machine on the rail, and winding or unwinding the lifting wire, thereby moving the method frame moving type drilling machine from the butt to the shoulder or shoulder. after moved on the lifting rail toward the Hoshiri direction, sequentially, a second step of boring the anchor hole in the cross section, fitted with a lateral movement rails on the lift rail, a first The guide roller is lowered so that it can rotate on the rail for lateral movement. The vertical movement rail drilling machine is moved to the adjacent vertical frame on the horizontal movement rail by releasing the left and right horizontal movement wires or releasing the left and right horizontal movement wires. A third step of horizontally moving
The roller unit is sandwiched between the elevating rails, the lateral movement rail is removed from the elevating rails, the upper roller and the lower roller are rotatable on the upper and lower surfaces of the elevating rail, and the elevating wire is By unwinding or winding up, the above-mentioned frame-moving type drilling machine is moved on the lifting rail from the shoulder to the buttocks or from the shoulder to the buttocks. A fourth step of drilling holes;
Install the horizontal rails for moving on the elevating rail, after lowering the first guide roller is rotatable on the horizontal movement rails releases the pinching of the lifting rail of the roller unit, By winding the left lateral movement wire or the right lateral movement wire, the normal frame moving drilling machine is laterally moved on the lateral movement rail to the adjacent vertical frame, and after the movement, the lateral movement rail is A fifth step of removing from the lifting rail, and by repeating the second to fifth steps in order, an anchor hole is drilled in the intersecting portion. This is a drilling method.

<Invention of Claim 8>
The invention described in claim 8 is provided with a guide cell in the frame-movable mounting frame in the frame-moving construction facility according to claim 3 or 4, and for drilling a slope in the guide cell. Using the frame moving type moving drilling equipment that constitutes the frame moving type drilling machine by attaching the hole drilling drifter, the lifting wire on the shoulder side and the left and right sides of the method frame moving type drilling machine, A horizontal movement wire and a right horizontal movement wire are attached, and these wires are operated to move to a plurality of intersections formed by the vertical and horizontal frames of the normal frame, and anchor holes are sequentially formed at these intersections. A method of drilling, wherein a first lateral movement rail is disposed in the width direction of the slope on the normal frame, and a first lifting rail is attached on the first lateral movement rail. A first step of installing the frame moving type drilling machine on the first lifting rail; By winding the left lateral movement wire or the right lateral movement wire, the first frame elevating rail is moved on the first lateral movement rail to relatively move the normal frame moving type drilling hole. A second step of moving the machine laterally and sequentially drilling an anchor hole at the intersection, and a second lateral movement rail disposed on the shoulder or the tail side of the first lateral movement rail By attaching the second lifting rail on the top, connecting the second lifting rail and the first lifting rail with the lifting contact rail, and unwinding or winding the lifting wire, A third step of moving the normal frame moving type drilling machine onto the second lifting rail and then removing the first lifting rail and the lifting communication rail. And repeating the third step in sequence, Serial to drilling the anchor holes in the intersection, a drilling method of law frame intersection, characterized in that.

(Function and effect)
In the inventions according to claims 7 and 8, the winding and unwinding of the lifting and lowering wire, the left and right lateral movement wires and the right and left lateral movement wire enable the vertical movement and lateral movement. The movement is easy, and as a result, the efficiency of the drilling operation of the anchor hole can be improved.

  According to the present invention, firstly, according to the method for moving frame construction according to the present invention, it is possible to move up and down and laterally move efficiently. Can be transported. Secondly, according to the frame moving type drilling equipment according to the present invention, there is no need to provide a work stage and it is not necessary to secure an occupied place of a heavy machine having a boom. Anchor holes can be drilled at the intersections of the horizontal frames. Thirdly, according to the method for drilling holes at the crossing of the frame according to the present invention, there is an advantage that the efficiency of the drilling operation can be improved.

Embodiments of the present invention will be described in detail with reference to the drawings.
<First Embodiment>
As shown in FIGS. 1 to 3, the legal frame moving construction equipment according to the present invention is a lifting rail 3 disposed in the vertical frame N, and a lateral movement detachably mounted on the lifting rail 3. A rail 4 and a normal frame moving mounting frame 1 that can move on the lifting rail 3 and the lateral movement rail 4 are provided. FIG. 1 is a layout view in which lifting rails and lateral movement rails are arranged on the frame, and FIG. 2 shows a state in which the frame mounting type frame is mounted on the lifting rail in the width direction of the frame. FIG. 3 is an explanatory view of a state in which a lateral movement rail is mounted on an elevating rail, as viewed from the buttock direction.

  Further, in addition to the configuration of the above-described method of moving the frame-moving construction equipment, the frame-moving type drilling equipment according to the present invention includes a drifter 21 and a guide on the frame-moving frame mounting frame 1 as shown in FIGS. The cell 22 and the like are mounted and attached to form the method frame moving type drilling machine 2.

Below, each structure of these method frame moving construction equipment and method frame moving drilling equipment is explained.
(Leg frame moving mounting frame and leg frame moving drilling machine)
First, the frame moving type mounting frame 1 will be described with reference to FIGS. The frame moving type mounting frame 1 includes a base frame 11 and an upper frame 12 erected on the base frame 11. Here, since the upper frame 12 is necessary for mounting the drifter 21, guide cell 22 and the like which will be described later to constitute the frame moving type drilling machine 2, the upper frame 12 is used depending on the purpose and application. 12 may be removed, or although not shown, a plate-like member or the like may be installed on the base frame 11 instead of the upper frame 12 and processed so as to facilitate material conveyance. The base frame 11 can also be used as a scaffold.

  The base frame 11 is located on the elevating rail 3 and is composed of square pipes 11A and 11B made up of square pipes extending in the direction of the shoulder or the butt parallel to the elevating rail 3, and the left and right longitudinal frames 11A and 11B. 11A and 11B and a central lateral frame 11D, which are structurally integrated by straddling both lateral ends and the substantially central portion of each.

  Bearings 11a for supporting a roller unit 13 to be described later are provided on the upper surfaces of both ends of the left and right vertical frames 11A and 11B, and the left and right vertical frames 11A are rotatable by a shaft 81. , 11B.

Here, FIG. 6 (1) is a front view of the roller unit, FIG. 6 (2) is a front view of the roller unit connector, FIG. 6 (3) is a cross-sectional view taken along the line AA of FIG. Fig. 6 is a rear view of the roller unit, and Fig. 6 (5) is an explanatory view showing the attachment / detachment relationship of the roller unit with the lifting rail. The roller unit 13, sandwiching the upper and lower surfaces of the rails 31 of the lifting rail 3 consisting of a square pipe, respectively, and the upper roller 13a and lower roller 13b to rotate the these upper and lower surfaces, these upper roller 13a and lower A plate-like coupling tool 13c provided with a pivoted support piece 13d having a hole for inserting a shaft 81 above the roller 13b, which is rotatably coupled by a bolt 82 or the like through a bolt hole 13f; It has. A part of both sides of this connector 13c is notched, and the hinge bolt 14b can be detachably locked.

The hinge bolt 14b is fixed by locking the roller unit 13, when the upper roller 13a and lower roller 13b rotates the lifting rail 3, it is intended to prevent the derailing from the rail. This hinge bolt 14b and a box body 14a that is connected to both ends of the left and right vertical frames 11A and 11B and is located on the back side of the roller unit 13 constitute a hinge bolt box 14, and one of the hinge bolts 14b Is supported by a shaft 83 that is locked through the upper and lower surfaces of the box body 14a. As shown by the arrow in FIG. 6 (4), the hinge bolt 14b is centered on the shaft 83. Is pivotable. And this hinge bolt 14b is latched by the notch part 13e formed in the both sides of the connection tool 13c, and the box main body 14a and the connection tool 13c which were provided in a line by the both ends of each of the left and right vertical frames 11A and 11B. By screwing, the upper roller 13a and the lower roller 13b are prevented from being removed. Further, on the left and right vertical frames 11A and 11B, an L-shaped stopper pin 15 which is adjacent to the roller unit 13 and has a vertical stripe on the lower side and a substantially horizontal stripe on the upper side as shown by the arrows in FIG. mounted freely, the state at the time of lateral movement, which will be described later to release the pinching of the rails 31 of the lifting rail 3 of the roller unit 13, which is rotated about the shaft 81 the roller unit 13 upwards Thus, the stopper pin 15 is rotated in the direction of each adjacent roller unit 13, and the back surface of the coupler 13 c of the roller unit 13 is locked by the substantially horizontal strip portion of the stopper pin 15 to prevent the roller unit 13 from falling. be able to.

  At both end edges of the left and right vertical frames 11A and 11B, a first guide roller 16 that rotates on a bottom plate 41 that forms an upper surface of the laterally moving rail 4 having a substantially L-shaped cross section, and the laterally moving rail 4 A second guide roller 17 that rotates a side plate 42 that forms the side surface of the second guide roller 17 is connected.

  As shown in FIGS. 4, 5, and 7, the first guide roller 16 is connected to both end edges of the left and right vertical frames 11 </ b> A and 11 </ b> B, and has a support piece 16 a having a female screw portion, and this support. An adjustment bolt 16b that is screwed into the female screw portion of the piece 16a and has a flange (not shown) at the lower end, a rotating pair portion 16c that covers the flange of the adjusting bolt 16b, and a lower portion of the rotating pair portion 16c The roller 16d that rotates on the bottom plate 41 that forms the upper surface of the laterally moving rail 4 and the support piece 16a that is provided on the side surface of the counter pair 16c and engages with the support piece 16a to become a sliding pair, and the adjusting bolt 16b And an engagement piece 16e for preventing the roller 16d from rotating about the axis. As shown in FIG. 7 (2), the height of the roller 16d can be adjusted by rotating the adjusting bolt 16b. Even if the adjusting bolt 16b is rotated, the presence of the rotating pair 16c causes the roller to rotate. 16d does not rotate but only a vertical movement is transmitted.

  As shown in FIGS. 4 and 5, the second guide roller 17 includes a support piece 17 a that is connected to both end edges of the left and right vertical frames 11 </ b> A and 11 </ b> B, and a side plate that forms the side surface of the lateral movement rail 4. The roller 17b which rotates 42 is provided. The second guide roller 17 assists in lateral movement on the lateral movement rail 4, and in particular, the second guide roller 17 on the heel side supports the load of the frame-movable mounting frame 1.

These of the first guide roller 16 and the second guide roller 17, the roller 16d of the first guide roller 16 during the movement of the lifting rail 3 legal frame movable loading frame 1, for lifting so as not to contact the rail 3, as shown in FIG. 7 (1), and raised upward, the roller 16d of the first guide roller 16 after the lateral movement rails 4 is mounted on a lifting rail 3 Is lowered onto the bottom plate 41 of the lateral movement rail 4 by the operation of the adjusting bolt 16b. Then, when the first guide roller 16 and the second guide roller 17 are rotated on the lateral movement rail 4 , the normal frame moving placement frame 1 can be laterally moved.

  Next, the frame moving type drilling machine 2 will be described with reference to FIGS. 8 and 9, the roller unit 13, the first guide roller 16, and the second guide roller 17 are omitted for convenience.

  This frame moving type drilling machine 2 is used for operating the center hole type drifter 21, the guide cell 22, the rod holder 23 that holds the drilling member, the center hole type drifter 21 attached to the upper frame 12, etc. The center hole type drifter 21 includes a percussion 21a, a drill head 21b, a hydraulic chuck 21c, a back hammer 21d, and a feeding cylinder 21e.

  The present invention can be realized by a known drilling machine without using the frame moving type drilling machine 2, and the content of the present invention is limited to the method moving frame drilling machine 2. is not.

(Raising / lowering rail)
The raising / lowering rail 3 is demonstrated based on FIG. 10 (1) is a plan view of the lifting rail 3, FIG. 10 (2) is a side view in the short side direction of the lifting rail 3, and FIGS. 11 (1) to 11 (3) are views of the lifting rail 3. FIG. It is a top view of a derivative form.

  The elevating rail 3 includes two parallel rails 31 made of square pipes on which the frame moving type mounting frame 1 (or the frame moving type drilling machine 2) moves, and these rails 31 are formed in a sleeper shape. A connecting member 32 composed of a plurality of square pipes connected at intervals, and a holding member 33 connected to the lower surfaces of both ends of the connecting member 32 for sandwiching both sides of the vertical frame NT of the normal frame N are provided. The clamping member 33 is provided with a bolt 34 for crimping the lifting rail 3 to both sides of the vertical frame NT. Then, as shown in FIG. 6 (5), the upper roller 13a and the lower roller 13b of the roller unit 13 of the frame moving type mounting frame 1 (or the frame moving type drilling machine 2) are formed of a square pipe. In order to sandwich 31, the connecting member 32 is connected to the rail 31 so as to cover both ends of the upper roller 13 a and the lower roller 13 b. The elevating rail 3 is fixed to the normal frame by arranging the elevating rail 3 on the vertical frame NT and fastening the bolt 34 of the holding member 33 to the vertical frame NT. It is what is done. This fixing method is reliable because it sandwiches and presses both sides of the vertical frame NT of the frame and is mounted on the frame movable mounting frame 1 (or the frame movable drilling machine 2). Even if the mounted object is a large machine with a large weight, there is little risk of falling off the legal frame and falling downward.

  As shown in FIG. 10 (2), the connecting member 32 positioned at both ends in the longitudinal direction of the elevating rail 3 has bolt holes 35 for allowing a plurality of elevating rails 3 to be connected to each other. There are provided at three places, both ends in the longitudinal direction and at the center, and a plurality of lifting rails 3 are connected by screwing bolts (not shown). As shown in FIGS. ... (as will be described later, the lifting rails 3a, 3b, 3c, 3d, 3e, 3f, 3g may be combined as appropriate. The same shall apply hereinafter) according to the size of the slope of the construction object, etc. Can be formed. And the roller unit 13 of the frame moving type mounting frame 1 (or the frame moving type drilling machine 2) is provided with a plurality of lifting rail groups 3, 3,. Although not shown in the figure, it is desirable to connect single pipes or the like so as to connect the two parallel rails 31 to each other so as not to fall from the lowest end of the rails 31.

  The length in the longitudinal direction of the elevating rail 3 can be arbitrarily set, and only has a length of 3 spans (the interval between adjacent connecting members is 1 span) as shown in FIG. Alternatively, a 1-span lifting rail 3a shown in FIG. 11 (1) and a 2-span lifting rail 3b shown in FIG. 11 (2) can be proposed. Further, as in the lifting rail 3c shown in FIG. 11 (3), a universal clamp 84 is attached to the connecting member 32, a single pipe (not shown) or the like is gripped on the universal clamp 84, and the frame N or the method If this single pipe is erected vertically with respect to the surface, if the swaying of the frame N or the slope is so severe that the connecting member 32 cannot be placed directly on the vertical frame NT or the like, The load of the elevating rail 3 or the like can be transmitted to the frame N or the slope.

Further, portions inclined in slope and legal frame N as shown in FIG. 12 is changing rapidly, the lifting rail 3d part arcuate rail 31, 3e, 3f, also be linked to 3g Proposed.

The lifting rail 3,3a, 3b, 3c, 3d, 3e, 3f, 3g of the rail 31 is not limited to the square pipe may be a round pipe or the like in addition to square pipe.

  The installation method of the frame moving type mounting frame 1 (or the frame moving type drilling machine 2) to the lifting rail 3 is as follows. The box body 14a is sandwiched between the units 13 (upper roller 13a and lower roller 13b), the hinge bolt 14b is locked to the notches 13e formed on both sides of the coupling tool 113c, and connected to the left and right vertical frames 11A and 11B. And the connecting tool 13c are screwed together to be installed on the lifting rail 3.

(Rail for horizontal movement)
As shown in FIGS. 1, 3, and 4, the lateral movement rail 4 is a substantially L-shaped member having a cross section formed by a bottom plate 41 and a side plate 42. As shown in FIGS. 1 and 3, the lateral movement rail 4 needs to have at least a length over the rails 31 on both sides of the adjacent lifting rail 3, and the length is the frame N. Depends on the length of the horizontal frame NY in the longitudinal direction. Although the fixing method is not shown, the connecting piece provided on the back surface of the bottom plate 41 having a substantially L-shaped member may be fixed by screwing the side surface of the rail 31 with a bolt or the like.

(Drilling method at the intersection of the legal frame using the legal frame moving type drilling equipment)
Hereinafter, a method of drilling anchor holes NA, NA,... At the intersection of the vertical frame NT of the frame N and the horizontal frame NY using the frame moving type drilling equipment having the above configuration will be described.
First, as shown in FIG. 1, lift rail groups 3, 3,... Formed by appropriately connecting lift rails 3 and the like (combination of lift rails 3a, 3b, 3c, 3d, 3e, 3f, 3g as appropriate) The same shall apply hereinafter.) Are arranged on the vertical frame NT adjacent to the frame N, and the frame moving type drilling machine 2 (in FIG. 1) is provided on the lifting rails 3, 3,. (Not shown). The installation position of the method frame moving type drilling machine 2 may be the lowermost end (leg end side) or the uppermost end (leg shoulder side) of the elevating rails 3, 3,. Before and after installation, a lifting wire (not shown), a left lateral movement wire (not shown), and a right lateral movement wire (not shown) are provided on the shoulder side and the left and right sides of the normal frame moving drilling machine 2. And the other ends of these wires are connected to a winch (not shown). A pulley may be attached between the winch and the wire described above.

  Then, by winding or unwinding the lifting wire, the lifting frame drilling machine 2 is moved up and down to the shoulder direction or from the shoulder to the shoulder direction, as shown in FIGS. .. Are sequentially drilled at the intersections of the vertical frame NT and the horizontal frame NY.

  Once the anchor holes NA, NA,... Have been drilled to the desired height position of the vertical frame NT of the frame N, the rails for the lift rails 3, 3,... (First lift rail group) 31 and a laterally moving rail 4 are attached across the second lifting rail group described later. Then, the first guide roller 16 is lowered to be able to turn on the bottom plate 41 of the laterally moving rail 4, and the rails of the lifting rail groups 3, 3,... (First lifting rail group) of the roller unit 13. 31 is released.

Next, by winding the left lateral movement wire or the right lateral movement wire, the normal frame moving type drilling machine 2 is laterally moved on the lateral movement rail 4 to the adjacent vertical frame NT. The adjacent vertical frame NT on disposed in the lifting rail group 3,3, ... If was traversing up (second lift rail group), the lifting rail group the roller unit 13 3, 3 ,... (Second lifting rail group), the first guide roller 16 is lifted, and the lateral movement rail 4 is removed from the first and second lifting rail groups.

  Next, by lifting or winding up the lifting wire, the vertical frame moving type drilling machine 2 is moved from the shoulder to the buttocks or from the shoulder to the buttocks in the lifting rail group 3, 3,. The second lifting rail group) is moved, and the anchor holes NA, NA,...

  When the anchor holes NA, NA,... Have been drilled to the desired height of the vertical frame NT of the frame N, the rails of the lifting rail groups 3, 3,... (Second lifting rail group) 31 and a laterally moving rail 4 are mounted across a third lifting rail group to be described later. Then, the first guide roller 16 is lowered to be able to turn on the bottom plate 41 of the lateral movement rail 4, and the rails of the lifting rail groups 3, 3, ... (second lifting rail group) of the roller unit 13 are provided. 31 is released.

Next, by winding the left lateral movement wire or the right lateral movement wire, the normal frame movement type drilling machine 2 is laterally moved on the lateral movement rail 4 to the adjacent vertical frame NT (the previous horizontal movement direction). Move in the same direction as The adjacent vertical frame NT on disposed in the lifting rail group 3,3, ... If was traversing up (third lifting rail group), roller unit 13 an elevating rail group 3,3 ,... (Third lifting rail group), the first guide roller 16 is lifted, and the lateral movement rail 4 is removed from the second and third lifting rail groups.

  And what is necessary is just to form anchor hole NA, NA, ... in the cross | intersection part of the frame N by repeating the said process.

  In addition, in the method for drilling holes at the intersection of the legal frames according to the present invention, the second lifting rail group, the third lifting rail group, the fourth lifting rail group,. A plurality of them may be arranged, or they may be arranged each time according to the work of each process.

<Second Embodiment>
As shown in FIGS. 13 to 15 and FIGS. 24 to 26, the legal frame moving construction equipment according to the present invention is detachably mounted on a rail fixture 105 fixed to the legal frame N. The laterally moving rail 104, the vertically movable rail 103 that can be laterally moved and detachably mounted on the laterally movable rail 104, and the frame-moving frame mounting frame 101 that is movable on the vertically movable rail 103 are provided. And. FIG. 13 is a layout view in which a lifting rail and a lateral movement rail are arranged on a normal frame, and FIG. 14 is an arrangement of a rail fixture, a horizontal movement rail, a lifting rail, and a normal frame moving mounting frame. FIG. 15 is an explanatory view of the arrangement relationship of the rail fixture, the lateral movement rail, the lifting rail, and the normal frame moving mounting frame as viewed from the vertical direction. It is.

  In addition to the configuration of the above-described method of moving the frame-moving construction equipment, the frame-moving drilling facility according to the present invention has a drifter 21 and a guide cell 22 mounted on and mounted on the frame-moving-type mounting frame 101. It is configured by forming a frame moving type drilling machine 102.

Below, each structure of these method frame moving construction equipment and method frame moving drilling equipment is explained.
(Leg frame moving mounting frame and leg frame moving drilling machine)
First, the frame moving type mounting frame 101 will be described with reference to FIGS. The frame moving type mounting frame 101 includes a base frame 111 and an upper frame 12 standing on the base frame 111. Here, as in the first embodiment, the upper frame 12 is removed according to the purpose and application, or although not shown, a plate-like member or the like is installed on the base frame 111 instead of the upper frame 12. The material may be processed so that it can be easily conveyed.

  The base frame 111 is located on the elevating rail 103 and is formed of a square pipe extending in the direction of the shoulder or the butt parallel to the elevating rail 103, and the left and right vertical frames 111A and 111B. Each of the bottom end side and the substantially central portion of each of the bottom end side frame 111C and the center side horizontal frame 111D are integrated.

  Similar to FIG. 6 of the first embodiment, bearings 11a for supporting the roller unit 13 are provided on the upper surfaces of both ends of the left and right vertical frames 111A and 111B. Thus, the roller unit 13 is pivotally supported on the left and right vertical frames 111A and 111B so as to be rotatable.

The roller unit 13, sandwiching the upper surface and the lower surface of the rail 131 of the lifting rail 103 made of a square pipe, respectively, and the upper roller 13a and lower roller 13b to rotate the these upper and lower surfaces, these upper roller 13a and lower A plate-like coupling tool 13c provided with a pivoted support piece 13d having a hole for inserting a shaft 81 above the roller 13b, which is rotatably coupled by a bolt 82 or the like through a bolt hole 13f; It has. A part of both sides of this connector 13c is notched, and the hinge bolt 14b can be detachably locked.

The hinge bolt 14b is fixed by locking the roller unit 13, when the upper roller 13a and lower roller 13b rotates the lifting rail 103 is used to prevent the derailing from the rail. This hinge bolt 14b and a box body 14a that is connected to both ends of the left and right vertical frames 111A and 111B and is located on the back side of the roller unit 13 constitute a hinge bolt box 14, and one of the hinge bolts 14b Is supported by a shaft 83 that is locked through the upper and lower surfaces of the box body 14a. As shown by the arrow in FIG. 6 (4), the hinge bolt 14b is centered on the shaft 83. Is pivotable. And this hinge bolt 14b latches into the notch part 13e formed in the both sides of the connection tool 13c, and the box main body 14a and the connection tool 13c which were provided in a row by the both ends of each of the left and right vertical frames 111A and 111B. By screwing, the upper roller 13a and the lower roller 13b are prevented from being removed. Further, on the left and right vertical frames 111A and 111B, an L-shaped stopper pin 15 which is adjacent to the roller unit 13 and has a vertical strip on the lower side and a substantially horizontal strip on the upper side as shown by the arrows in FIG. mounted freely, the state at the time of lateral movement, which will be described later to release the pinching of the rail 131 of the lifting rail 103 of the roller unit 13, which is rotated about the shaft 81 the roller unit 13 upwards Thus, the stopper pin 15 is rotated in the direction of each adjacent roller unit 13, and the back surface of the coupler 13 c of the roller unit 13 is locked by the substantially horizontal strip portion of the stopper pin 15 to prevent the roller unit 13 from falling. be able to.

  Here, the difference between the normal frame moving mounting frame 1 of the first embodiment and the normal frame moving mounting frame 101 is that the elevating rail 103 itself moves on the lateral moving rail 104 as will be described later. Since it is possible to move laterally, it is not necessary for the frame-moving placement frame 101 itself to move laterally. For this reason, the frame-moving placement frame 1 of the first embodiment includes the first frame. The guide roller 16 and the second guide roller 17 are not provided.

  The normal frame moving drilling machine 102 using the normal frame moving mounting frame 101 is the same as that of the first embodiment as shown in FIGS. Further, the present invention can be realized by a known drilling machine without using the frame moving type drilling machine 102, and the content of the present invention is limited to the frame moving type drilling machine 102. is not.

(Rail fixture and rail for lateral movement)
First, the rail fixture 105 will be described with reference to FIG. 18 (1) is a plan view of the rail fixture, FIG. 18 (2) is a side view in the short side direction of the rail fixture, and FIG. 18 (3) is a BB cross-sectional view of the rail fixture. .

  The rail fixture 105 is disposed at a position parallel to the supported member 143 of the lateral movement rail 104 described later and projecting the supported member 143, and two supporting members 151 that support the supported member 143. The free clamp 152 that is connected to the support member 151 and grips the supported member 143, and the support member 151 are connected to each other, and the connection member is composed of two pipes that are arranged along the both sides of the vertical frame NT. 153 and a holding member 154 connected to the lower side of the support member 151 for sandwiching both side surfaces of the vertical frame NT of the frame N. The holding member 154 connects the rail fixture 105 to the vertical frame NT. Bolts 155 for crimping to both side surfaces are connected.

The rail fixture 105 is fixed to the vertical frame NT by arranging the rail fixture 105 on the vertical frame NT and tightening the bolt 155 of the holding member 154 to fix the rail fixture 105 to the vertical frame NT. Is. This fixing method is reliable because the both sides of the vertical frame NT of the method frame are sandwiched and crimped, and as shown in FIG. 15, the rail 104 for lateral movement has a plurality of rails arranged at predetermined intervals. By being fixed to the fixture 105, it is indirectly fixed on the vertical frame NT of the frame N, so that it is mounted on the frame moving type mounting frame 101 (or the frame moving type drilling machine 102 ). Even if the mounted object is a large machine with a large weight, there is little risk of falling off the legal frame and falling downward.

  Next, the lateral movement rail 104 will be described with reference to FIGS. 16 (1) is a plan view of the lateral movement rail, FIG. 16 (2) is a side view in the short side direction of the lateral movement rail, and FIGS. 17 (1) and 17 (2) are derived forms of the lateral movement rail. 19 (1) is a plan view of the connecting portion between the lateral movement rails, FIG. 19 (2) is a CC cross-sectional view of the connecting portion between the lateral movement rails, and FIG. 19 (3) is the connection. FIG. 19 (4) is a sectional view taken along the line DD of the connecting member.

  The lateral movement rail 104 is composed of two parallel rails 141 made of square pipes for moving the elevating rail 103 laterally, and a connection made of a plurality of square pipes connecting the rails 141 in a sleeper shape at a predetermined interval. Are connected between the member 142 and the rails 141, 141, and the connecting members 142, 142,... Are connected to each other and are held by the universal clamp 152 of the rail fixture 105 and supported by the support member 151. A supported member 143 and a universal clamp 144 attached to the connecting member 142 and capable of gripping a single pipe pipe or the like (not shown) are provided. Then, as shown in FIG. 20 (3), an upper roller 113a and a lower roller 113b of a roller unit 113 of an elevating rail 103, which will be described later, sandwich an rail 141 made of a square pipe so as to sandwich the upper roller 113a and the lower roller 113b. The connecting member 142 is connected to the rail 141 so that both ends of the connecting member 142 are covered as much as possible. As in the first embodiment, the universal clamp 144 holds a single pipe (not shown) or the like between the universal clamp 144 and the single pipe is perpendicular to the frame N or the slope. The load applied to the lateral movement rail 104 is transmitted to the normal frame N or the slope by this single pipe.

  The lateral movement rail 104 is fixed to the rail fixture 105 in a state where a plurality of rail fixtures 105 are arranged on the vertical frame NT at predetermined intervals in the width direction of the normal frame N. The member 143 is fixed by being gripped by the universal clamp 152 of the rail fixture 105 and supported by the support member 151.

  As shown in FIG. 16 (2), the connecting members 142 located at both ends in the longitudinal direction of the lateral movement rail 104 have bolt holes 145 for connecting a plurality of lateral movement rails 104. The member 142 is provided in three places, both in the longitudinal direction and at the center, and a plurality of laterally moving rails 104 are connected by screwing bolts (not shown). As shown in FIGS. Rails 104, 104,... (As will be described later, lateral movement rails 104a, 104b may be combined as appropriate. The same shall apply hereinafter) can be formed according to the size of the slope of the construction object. At the time of this continuous connection, in order to prevent the continuous portions of the lateral movement rails 104, 104,... The connecting member 106 is disposed at a position parallel to the supported member 143 of the lateral movement rail 104 and projecting the supported member 143, and two support portions 161 that support the supported member 143, And a universal clamp 162 that is connected to the support portion 161 and holds the supported member 143. As a connecting method, in each of the connecting portions of the lateral movement rails 104, 104,..., The supported members 143 of the adjacent lateral movement rails 104, 104 are gripped by the universal clamp 162 of the connection member 106 from below. Thus, along with the screwing of the bolts into the bolt holes 145 described above, the adjacent lateral movement rails 104 and 104 can be structurally integrated, and the continuous portions can be prevented from drooping or buckling. Moreover, although not shown in the figure, the connecting members 106 and 106 facing each other as shown in FIG. 16A can be attached to each other so that the connecting members 106 and 106 are structurally integrated.

  The length in the longitudinal direction of the rail 104 for lateral movement can be arbitrarily set, and the lateral movement has a length of 2 spans (the interval between adjacent connecting members is 1 span) as shown in FIG. In addition to the rail 104a, the one-span lateral movement rail 104b shown in FIG. 17B can be proposed.

  The rail 141 of the lateral movement rail 104 is not limited to a square pipe, and may be a round pipe or the like other than the square pipe.

(Raising / lowering rail)
The elevating rail 103 will be described with reference to FIGS. 20 (1) is a plan view of the lifting rail, FIG. 20 (2) is a side view in the short side direction of the lifting rail, FIG. 20 (3) is an EE cross-sectional view of the lifting rail, and FIG. 4) is a plan view of the elevating connecting rail, FIG. 21 (1) is an FF cross-sectional view of the elevating rail, FIG. 21 (2) is a GG cross-sectional view of the elevating rail, and FIG. FIG. 21 (4) is a view of the auxiliary roller of the roller unit as viewed from below.

The elevating rail 103 includes two parallel rails 131 made of a square frame pipe on which the frame moving type mounting frame 101 (or the frame moving type drilling machine 102 ) moves, and a rail 131 below the rail 131. A reinforcing member 137 for reinforcing the rail 131 connected in parallel with 131, and a square pipe that is connected to the two rails 141, 141 of the rail for lateral movement 104, connecting the reinforcing members 137 in a sleeper shape. Two connecting member main bodies 132 and end connecting members 136 respectively connecting the two longitudinal ends of the two rails 131 are provided. Bearings 138 for pivotally supporting a roller unit 113 described later are provided on the upper surfaces of both ends of the two connecting member main bodies 132, and the connecting member main body is rotatable by the shaft 181. 132 is pivotally supported. As shown in FIG. 21 (1), the upper roller 13a and the lower roller 13b of the roller unit 13 of the frame moving type mounting frame 101 (or the frame moving type drilling machine 102 ) are formed of a square pipe. In order to sandwich 131 , the reinforcing member 137 is connected to the rail 131 so as to cover the space between the upper roller 13 a and the lower roller 13 b. Note that the connecting member main body 132 and the end connecting member 136 may be extended to below the rail 131 without providing the reinforcing member 137 as in the first embodiment.

  As shown in FIGS. 21 (1) to (4), the roller unit 113 sandwiches the upper surface and the lower surface on both ends in the width direction of the rail 141 of the laterally moving rail 104 made of a square pipe, respectively. The upper roller 113a and the lower roller 113b that rotate are connected to the upper roller 113a and the lower roller 113b through a bolt hole (not shown) by a bolt 182 and the like, and a shaft 181 is inserted upward. And a plate-like coupling tool 113c provided with a pivoted support piece 113d having a hole for the purpose. A part of both sides of this connector 113c is notched, and the hinge bolt 114b can be detachably locked.

  The hinge bolt 114b fixes the roller unit 113 by locking, and prevents the wheel from being removed from the rail when the upper roller 113a and the lower roller 113b rotate the lateral movement rail 104. The hinge bolt 114b and the box main body 114a connected to the connecting member main body 132 and located on the back side of the roller unit 113 constitute a hinge bolt box 114. One end of the hinge bolt 114b is the box main body 114a. The hinge bolt 114b is pivotable about the shaft 183 (not shown). The hinge bolt 114b is engaged with notches (not shown) formed on both sides of the coupling tool 113c, and the box main body 114a and the coupling tool 113c connected to the connecting member main body 132 are screwed together. This prevents the upper roller 113a and the lower roller 113b from being removed.

  Here, the difference between the roller unit 13 and the roller unit 113 provided in the normal frame movable mounting frame 1 in the first embodiment is that the roller unit 113 includes rails 141 and 141 in addition to the above-described configuration. The auxiliary rollers 113g that respectively rotate the outer side surfaces in the width direction are provided. The upper roller 113a and the lower roller 113b sandwich the upper surface and the lower surface of both ends in the width direction of the rail 141 of the laterally moving rail 104, respectively, rotate the upper surface and the lower surface, and the auxiliary roller 113g includes the rails 141, 141. By rotating the outer side surfaces in the width direction, respectively, assisting the elevating rail 103 to move on the lateral movement rail 104, and in particular, the roller unit 113 attached to the connecting member main body 132 on the shoulder side. This auxiliary roller 113g facilitates the movement of the elevating rail 103 on the lateral movement rail 104.

  The elevating rail 103 is installed on the lateral movement rail 104 in such a manner that the lateral movement rail 104 is disposed and the rail 141 of the lateral movement rail 104 is moved to the roller unit 113 (upper roller 113a and lower roller 113b). Then, the hinge bolt 114b is locked to notches (not shown) formed on both sides of the connector 113c, and the box body 114a and the connector 113c connected to the connecting member main body 132 are screwed together. Thus, it is installed on the rail 104 for lateral movement.

  As shown in FIG. 20 (2), the end connecting member 136 of the elevating rail 103 has a bolt hole 135 for connecting a plurality of elevating rails 103 in the longitudinal direction of the end connecting member 136. It is provided at three places, both end portions and a central portion. As shown in FIGS. 24 and 14, by assembling bolts (not shown), an elevating connection rail 103a described later can be provided continuously. Although not shown in the drawing, the two roller units 13 of the frame moving type mounting frame 101 (or the frame moving type drilling machine 102) are not shown so as not to fall from the lowest end of the rail 131 of the lifting rail 103. It is desirable to connect a single pipe or the like so as to connect the respective parallel rails 131 to each other. The length in the longitudinal direction of the lifting rail 103 can be set arbitrarily.

As shown in FIGS. 24 and 14, the elevating connecting rail 103 a is an elevating rail 103 (second elevating rail) attached to the adjacent lateral moving rails 104, 104,... (Second lateral moving rail group). The frame moving type mounting frame 101 (or the frame moving type drilling machine 102) can move from the first lifting / lowering rail to the second lifting / lowering rail. Yes. A universal clamp 184 (see FIG. 20) is attached to the connecting rail 103a for raising and lowering . A single pipe (not shown) or the like is held by the universal clamp 184, and this is fixed to the frame N or the slope. If the single pipe is made to stand vertically, the load applied to the connecting rail 103a for raising and lowering is transmitted to the legal frame N or the slope by this single pipe when the slope of the slope N or the slope is severe. Can do. In addition, the longitudinal direction length of the elevating connecting rail 103a can be arbitrarily set.

The lifting rail 103, rail 131 of the elevating contact 103a is not limited to the square pipe may be a round pipe or the like in addition to square pipe.

(Drilling method at the intersection of the legal frame using the legal frame moving type drilling equipment)
Hereinafter, a method of drilling anchor holes NA, NA,... At the intersection of the vertical frame NT of the frame N and the horizontal frame NY using the frame moving type drilling equipment having the above configuration will be described.
First, as shown in FIG. 13, a group of rails for lateral movement 104, 104,... (Appropriate combinations of rails for lateral movement 104a, 104b are included in the width direction of the slope on the frame N. The same applies hereinafter. .) Is disposed. As the arrangement position of the lateral movement rail groups 104, 104,..., The vertical frame moving drilling machine installed on the elevating rail 103 is attached to the elevating rail 103. It may be within a range in which the anchor hole NA can be drilled from the top to the intersection. Prior to this, as shown in FIG. 15, rail fixtures 105, 105,... Are arranged in advance at predetermined positions.

  Then, as shown in FIG. 13, an elevating rail 103 (first elevating rail) is installed on the lateral moving rail groups 104, 104,... (First lateral moving rail group). The above-mentioned method frame moving drilling machine (not shown in FIG. 13) is installed on the rail 103 (first lifting rail). Before and after the installation, a lifting wire (not shown), a left lateral movement wire (not shown) and a right lateral movement wire (not shown) ) And the other ends of these wires are connected to a winch (not shown). A pulley may be attached between the winch and the wire described above.

  Then, by winding the left lateral movement wire or the right lateral movement wire, the frame moving type drilling machine is relatively moved on the lateral movement rail groups 104, 104,... (First lateral movement rail group). Move (in FIG. 13, move leftward from the bottom of the shoulder while looking at the shoulder), and sequentially drill the anchor holes NA, NA,... Go. Note that a left lateral movement wire or a right lateral movement wire may be attached to the elevating rail 103. In this case, the elevating rail 103 is used as the lateral movement rail groups 104, 104,. By moving on the rail group), the frame moving type drilling machine relatively moves on the rail group 104, 104,... (First rail group) for lateral movement.

  Next, the lateral movement rail groups 104, 104,... (Second lateral movement rail group) are placed on the shoulder side or the shoulder side (in FIG. 24, the shoulder side) of the first lateral movement rail group. Arrange. The second group of rails for lateral movement may be arranged on the legal frame in advance prior to the above process. Then, as shown in FIG. 24, the lifting rail 103 (second lifting rail) is attached to the lateral moving rail groups 104, 104,... The elevating rail and the second elevating rail are connected by the elevating connecting rail 103a so that the frame moving type drilling machine can move on these rails. Then, by winding or unwinding the wire for raising and lowering, the method of moving the method frame drilling machine from the method butt to the shoulder direction or from the butt to the shoulder direction (in FIG. 24, from the butt to the shoulder direction). Move to 2 on the lifting rail. Thereafter, the first elevating rail 103 and the elevating connecting rail 103a are removed. At this time, the first lateral movement rail group shown in FIG. 25 may be removed from the frame. Then, as shown in FIG. 25, by winding the left lateral movement wire or the right lateral movement wire, the second elevating rail is moved to the adjacent vertical frame NT through the normal frame moving type drilling machine. Move horizontally on the moving rails 104, 104,... (Second horizontal moving rail group) (in FIG. 25, move to the right when looking at the shoulder from the buttock), and sequentially move to the desired position. The anchor holes NA, NA,... Are drilled at the intersections of the frame NT and the horizontal frame NY.

  Next, as shown in FIG. 26, the lateral movement rail groups 104, 104,... (Third It is sufficient to form the anchor holes NA, NA,... At the intersections of the normal frame N by arranging the lateral movement rail group) and repeating the above process.

It is the layout which arrange | positioned the rail for raising / lowering and the rail for horizontal movement in the frame. It is explanatory drawing which looked at the state which attached the frame moving type mounting frame on the raising / lowering rail from the width direction of the frame. It is explanatory drawing which looked at the state which attached the rail for horizontal movement on the rail for raising / lowering from the buttock direction. It is a top view of the base frame of a normal frame movement type mounting frame. It is a side view of a method frame movement type mounting frame. It is the front view of a roller unit, a rear view, sectional drawing, and explanatory drawing. It is the front view and explanatory drawing of a 1st guide roller. It is a side view of a method frame movement type drilling machine. It is a front view of a method frame movement type drilling machine. It is the top view and short side direction side view of a raising / lowering rail. It is a top view of the rail for other raising / lowering. Shows a state of attaching the arcuate lifting rail law frame is an explanatory view seen from the width direction of the law frame. In 2nd Embodiment, it is the layout which arrange | positioned the rail for a raising / lowering and the rail for a horizontal movement in the method frame. In 2nd Embodiment, it is explanatory drawing which looked at the arrangement | positioning relationship of the rail fixing tool, the rail for horizontal movement, the rail for raising / lowering, and the method frame moving type mounting frame from the width direction of the method frame. In 2nd Embodiment, it is explanatory drawing which looked at the arrangement | positioning relationship of the rail fixing tool, the rail for horizontal movement, the rail for raising / lowering, and the normal frame moving type mounting frame from the vertical direction. It is the top view and short side direction side view of the rail for horizontal movement of 2nd Embodiment. It is a top view of the rail for other sideways movement of a 2nd embodiment. It is the top view, side view, and sectional view of a rail fixture. It is the top view, sectional drawing of the connection part of the rails for horizontal movement, the top view, and sectional drawing of a connection member. It is the top view of the raising / lowering rail of 2nd Embodiment, a short side direction side view, a longitudinal direction sectional view, and the top view of another raising / lowering rail. It is the front view, sectional drawing, and explanatory drawing of the roller unit of the raising / lowering rail. It is a top view of the base frame of the normal frame movement type mounting frame of 2nd Embodiment. It is a side view of the normal frame movement type mounting frame of 2nd Embodiment. In 2nd Embodiment, it is a figure for demonstrating the state which connected the 1st raising / lowering rail and the 2nd raising / lowering rail with the connection rail for raising / lowering , and the drilling method of a method frame crossing part. . In the second embodiment, showing a state where the second lift rail moves on the second lateral rails for moving group is a diagram for explaining the drilling process of law frame intersection. In 2nd Embodiment, it is a figure for demonstrating the drilling method of the method frame crossing part which shows the state which has arrange | positioned the 3rd rail group for horizontal movement.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 ... Leg frame movement mounting frame, 2 ... Leg frame movement drilling machine, 3 ... Lifting rail, 4 ... Lateral movement rail, 11 ... Base frame, 12 ... Upper frame, 13 ... Roller unit, 13a ... Upper roller, 13b ... Lower roller, 13c ... Connector, 13d ... Spinned stop piece, 13e ... Notch, 13f ... Bolt hole, 14 ... Hinged bolt box, 14a ... Box body, 14b ... Hinged bolt, 15 ... Stopper pin 16 ... first guide roller, 16a ... support piece, 16b ... adjust bolt, 16c ... rotating mating part, 16d ... roller, 16e ... engagement piece, 17 ... second guide roller, 11A ... left longitudinal frame, 11B ... Right vertical frame, 11C ... Hoshiri side frame, 11D ... Center side frame, 11a ... Bearing, 21 ... Center hole type drifter, 22 ... Guide cell, 23 ... Rod Luda, 25 ... control box, 31 ... rail, 32 ... connecting member, 33 ... pinching member, 34 ... bolt, 35 ... bolt hole, 41 ... bottom plate, 42 ... side plate, 81 ... shaft, 82 ... bolt, 83 ... shaft , 84 ... Universal clamp, 101 ... Legally movable mounting frame, 103 ... Elevating rail, 103a ... Elevating connecting rail, 104 ... Lateral moving rail, 105 ... Rail fixture, 106 ... Connecting member, 111 ... Base 113, roller unit, 113a, upper roller, 113b, lower roller, 113c, coupling member, 113d, pivot stop piece, 113g, auxiliary roller, 114, hinge bolt box, 114a, box body, 114b, hinge bolt, 111A ... Left vertical frame, 111B ... Right vertical frame, 111C ... Hole side frame, 111D ... Center side frame, 13 ... Rail, 132 ... Connecting member main body, 135 ... Bolt hole, 136 ... End connecting member, 137 ... Reinforcing member, 138 ... Bearing, 141 ... Rail, 142 ... Connecting member, 143 ... Supported member, 144 ... Swivel clamp, 145 ... bolt hole, 141 ... rail, 142 ... connecting member, 143 ... supported member, 144 ... universal clamp, 145 ... bolt hole, 151 ... support member, 152 ... universal clamp, 153 ... connecting member, 154 ... pinching member 155 ... bolt, 161 ... support part, 162 ... universal clamp, 184 ... universal clamp.

Claims (8)

Is disposed boric frame built slope, and two lifting rails consisting of parallel rails, removably attached to the this lifting rail, lateral movement consisting of two parallel rails A frame moving construction equipment comprising: a rail, and a frame moving movable mounting frame on which an object to be mounted is mounted, which is movable on the lifting rail and the lateral movement rail,
The frame moving type mounting frame includes a left and right vertical frame extending in parallel with the lifting rail,
Each of the left and right vertical frames is provided with a roller unit in which an upper roller and a lower roller that rotate by sandwiching the elevating rail from above and below are integrated with a coupling tool, and are detachably attached to the elevating rail.
Furthermore, a first guide roller that is movable up and down in a substantially vertical direction with respect to the lateral movement rail and pivots on the upper surface of the lateral movement rail, at both end edges of the left and right vertical frames, A second guide roller for rotating the side surface of the lateral movement rail,
When the lateral movement rail is removed from the lifting rail, the roller unit sandwiches the lifting rail, and the upper roller and the lower roller rotate on the upper and lower surfaces of the lifting rail. A first aspect in which the frame-moving mounting frame moves up and down on the lifting rail;
With the lateral movement rail mounted on the lifting rail, the first guide roller is lowered to be able to turn on the lateral movement rail, and then the roller unit is sandwiched between the lifting rails. And the second mode in which the mounting frame moves laterally on the lateral movement rail by the first guide roller and the second guide roller is configured to be selectable.
Legal frame moving construction equipment characterized by that. The lifting rail includes a plurality of connecting members that connect two parallel rails in a sleeper shape, and sandwiches the vertical frame both sides of the normal frame below the rails or below both ends of the connecting members. A holding member,
The holding member comprises a bolt for pressure-bonding the lifting rail in the vertical frame sides of the method frame,
The elevating rail is disposed on a vertical frame of the method frame, and the elevating rail is fixed to the vertical frame of the method frame by tightening a bolt of the holding member. Item 1. A frame-moving construction facility according to item 1. A traverse rail composed of two parallel rails arranged on a slope frame constructed on the slope, and two parallel rails that can be laterally moved and detachably mounted on the traverse rail. A method for moving frame construction, comprising a rail for raising and lowering comprising a rail, and a method frame movable mounting frame for placing an object to be mounted, which is movable on the rail for lifting and lowering,
The lifting rail is provided with a roller unit in which an upper roller and a lower roller that sandwich and rotate the horizontal movement rail from above and below are integrated with a connector so as to be detachable from the horizontal movement rail. ,
The frame moving type mounting frame includes a left and right vertical frame extending in parallel with the lifting rail,
Each of the left and right vertical frames is provided with a roller unit in which an upper roller and a lower roller that rotate by sandwiching the elevating rail from above and below are integrated with a coupling tool, and are detachably attached to the elevating rail.
The roller unit of the frame moving mounting frame sandwiches the lifting rail and rotates the upper and lower surfaces of the lifting rail, so that the frame moving mounting frame moves up and down on the lifting rail. A first mode of movement;
The roller unit of the elevating rail sandwiches the lateral moving rail, the upper roller and the lower roller rotate on the upper and lower surfaces of the lateral moving rail, and the elevating rail moves on the lateral moving rail. By this, it is configured to be able to select the second aspect in which the normal frame moving placement frame relatively moves laterally,
Legal frame moving construction equipment characterized by that. The lateral movement rail is detachably connected to a rail fixture having a holding member for sandwiching both side surfaces of the vertical frame of the frame and a connecting member for connecting upper ends of the holding members to each other. The configuration is
The holding member includes a bolt for crimping the rail fixture to both side surfaces of the vertical frame of the legal frame,
The rail fixture is fixed on the vertical frame of the legal frame by disposing the rail fixture on the vertical frame of the legal frame and fastening the bolt of the holding member.
The frame moving construction equipment according to claim 3, wherein the rail for lateral movement is configured to be fixed to the vertical frame of the frame by being connected to the rail fixture.   5. The method for moving frame construction according to claim 1, wherein a guide cell is provided in the frame frame mounting frame, and a drilling hole for drilling a slope in the guide cell is provided. A frame moving type drilling machine comprising a frame moving type drilling machine by attaching a drifter.   6. The frame shifter according to claim 5, wherein the hole drilling drifter is a center hole type drifter that grips a midway in the longitudinal direction of a hole drilling member that drills a slope and rotates and blows the hole drilling member. Drilling equipment. A guide cell is provided in the frame-movable mounting frame in the frame-moving-type construction equipment according to claim 1 or 2, and a drilling hole drifter for drilling a slope is attached to the guide cell. Using the frame moving type drilling equipment that constitutes the frame moving type drilling machine,
A lifting wire, a left lateral movement wire and a right lateral movement wire are attached to the shoulder side and the left and right sides of the normal frame moving drilling machine, respectively, and these wires are operated to operate the vertical and horizontal frames of the normal frame. And moving to a plurality of intersections formed by, and sequentially drilling anchor holes in these intersections,
A first step of disposing the lifting rail on a vertical frame of the method frame and installing the method frame moving drilling machine on the lifting rail;
By winding or unwinding the lifting / lowering wire, the vertical frame moving drilling machine is moved on the lifting / lowering rail in the direction of the shoulder from the shoulder to the shoulder or from the shoulder to the shoulder. A second step of drilling an anchor hole at the intersection;
Install the horizontal rails for moving on the elevating rail, after lowering the first guide roller is rotatable on the horizontal movement rails releases the pinching of the lifting rail of the roller unit, A third step of laterally moving the normal frame moving type drilling machine on the horizontal moving rail to the adjacent vertical frame by winding the left horizontal moving wire or the right horizontal moving wire;
The roller unit is sandwiched between the elevating rails, the lateral movement rail is removed from the elevating rails, the upper roller and the lower roller are rotatable on the upper and lower surfaces of the elevating rail, and the elevating wire is By unwinding or winding up, the above-mentioned frame-moving type drilling machine is moved on the lifting rail from the shoulder to the buttocks or from the shoulder to the buttocks. A fourth step of drilling holes;
Install the horizontal rails for moving on the elevating rail, after lowering the first guide roller is rotatable on the horizontal movement rails releases the pinching of the lifting rail of the roller unit, By winding the left lateral movement wire or the right lateral movement wire, the normal frame moving drilling machine is laterally moved on the lateral movement rail to the adjacent vertical frame, and after the movement, the lateral movement rail is A fifth step of removing from the lifting rail,
By repeating the second to fifth steps sequentially, an anchor hole is drilled in the intersecting portion.
A method for drilling holes at a crossing of a frame. A guide cell is provided in the frame-movable mounting frame in the frame-moving construction equipment according to claim 3 or 4, and a drilling drifter for drilling a slope is attached to the guide cell. Using the frame moving type drilling equipment that constitutes the frame moving type drilling machine,
A lifting wire, a left lateral movement wire and a right lateral movement wire are attached to the shoulder side and the left and right sides of the normal frame moving drilling machine, respectively, and these wires are operated to operate the vertical and horizontal frames of the normal frame. And moving to a plurality of intersections formed by, and sequentially drilling anchor holes in these intersections,
A first rail for lateral movement is disposed on the slope frame in the width direction of the slope, and a first lifting rail is mounted on the first rail for lateral movement. A first step of installing the frame moving type drilling machine;
By winding the left lateral movement wire or the right lateral movement wire, the first frame elevating rail is moved on the first lateral movement rail to relatively move the normal frame moving type drilling hole. A second step of laterally moving the machine and sequentially drilling an anchor hole at the intersection;
The second elevating rail is mounted on the second lateral moving rail disposed on the shoulder or the butt side of the first lateral moving rail, and the second elevating rail and the first The lifting rail is connected to the lifting contact rail, and the lifting / retracting wire is unwound or wound to move the frame-moving drilling machine onto the second lifting rail, And a third step of removing the first elevating rail and the elevating connecting rail,
By repeating the second and third steps in order, an anchor hole is drilled in the intersection.
A method for drilling holes at a crossing of a frame.

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