JP2014214578A - Movable type form device for inspection gallery of dam, and construction method of inspection gallery of dam - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently construct an inspection gallery of a dam by using a movable type form device.SOLUTION: A movable type form device comprises: a rail stand 10 arranged along a construction direction of an inspection gallery and moved in the construction direction in response to progress of construction; an arched slide center 20 relatively movably and positionally fixably arranged on the rail stand 10 and used to place a top end part and a sidewall part of the inspection gallery; and a stair frame 30 detachably fixed to a position corresponding to the slide center 20 on the lower side of the rail stand 10 and respectively independently carriable by one stage. Concrete is placed by one layer, and after simultaneously constructing the top end part, the sidewall part and stairs of the inspection gallery by the one layer, placement of the concrete is repeated by moving the rail stand 10, the stair frame 30 and the slide center 20 in this order.

Description

  The present invention relates to a mobile formwork apparatus for constructing a dam inspection gallery as a concrete structure, and a method for constructing a dam inspection gallery using the mobile formwork apparatus.

A ramp called an inspection gallery is installed inside the dam body for inspection, inspection and measurement of abnormalities such as cracks and water leakage after completion, gate operation, drainage, and grout work. doing.
Therefore, the inspection gallery is composed of an arch-shaped portion composed of a top end portion and a side wall portion, and a bottom portion, and a staircase is provided at the bottom portion.

  When constructing such an auditing gallery, an arch-shaped portion and a bottom portion are formed by placing concrete using an arch-shaped steel mold of an installation-removal type called “balassentle”. As for the staircase at the bottom, in the first stage, the bottom is finished with a flat inclined surface, and concrete is placed in the post-construction to form the staircase, and the arch and staircase are constructed simultaneously using the staircase formwork. And may form.

Patent Document 1 proposes a method for constructing an auditing gallery having a flat inclined bottom using a movable formwork apparatus. Patent Document 2 proposes a method of constructing stairs by post-construction in an audit gallery having a flat bottom.
Specifically, Patent Document 1 discloses a movable formwork device for an inspection gallery of a dam. This is a movable tow stand (rail mount) movable in the construction direction of the audit gallery, a side wall slide centle mounted on the movable tow pedestal, a bottom plate slide centle disposed behind it, and disposed behind it. An upper structure slide centle is provided, and the movement of each slide centle by the moving tow stand and the placement of concrete are repeated. Therefore, the side wall portion of the inspection gallery is formed in advance, the bottom plate portion is formed in the portion where the side wall portion is formed, and the upper structure portion is formed in the portion where the side wall portion and the bottom plate portion are formed.
Patent Document 2 discloses a method for constructing a staircase for an inspection gallery of a dam. Here, after the audit gallery is constructed, the staircase is placed against the inclined concrete floor, and the concrete is placed between the floor and the staircase to construct the staircase. doing.

  As a method for constructing an audit gallery with stairs, a precast method as disclosed in Patent Document 3 is also known. In the precast method, an inspection gallery is formed by using precast concrete blocks that are cylindrical and have stairs at the bottom, and are stacked and joined sequentially.

Japanese Patent Laid-Open No. 10-140539 JP 2001-200366 A JP 2003-155728 A

However, in the conventional technique using the installation-removal type arch-shaped steel formwork, the installation work of the formwork is performed on a narrow place with an inclination, especially on a slope with an inclination such as 1: 1.0 or 1: 1.2. Since the removal work is performed, such work is dangerous.
Also, in the case of making stairs by post-construction after construction of the audit gallery, that is, the work of transporting concrete and placing it manually after the audit gallery is completed at a certain distance, in terms of safety and workability. There's a problem. Further, if the stairs are hit later, a joint is formed, which becomes a weak part, and a joint surface treatment such as roughening is required as a countermeasure.

  In addition, since the precast method handles a large block, a large heavy machine is required and construction costs and the like increase. Moreover, although various processes are needed for the junction part between blocks, it becomes inevitable that it becomes a weak part.

  In view of such a situation, the present invention provides a movable formwork apparatus for a dam audit gallery excellent in safety and workability, and a method for constructing a dam audit gallery using the same. Let it be an issue.

In order to solve the above problems, a mobile formwork device for an inspection gallery of a dam according to the present invention,
A rail mount that is arranged along the construction direction of the audit gallery and is moved in the construction direction as the construction progresses;
An arch-shaped slide centle that is disposed on the rail frame so as to be relatively movable and can be positioned and fixed, and is used for placing the top end portion and the side wall portion of the inspection gallery,
A unit that is detachably fixed at a position corresponding to the slide centle below the rail pedestal, and is used for placing a staircase at the bottom of the auditing corridor. A staircase frame that can be transported independently by the number of steps,
It is comprised including.

Moreover, the construction method of the audit gallery of the dam according to the present invention is as follows:
A rail mount is arranged along the construction direction of the audit gallery, and an arch-shaped slide centle for placing the top end portion and the side wall portion of the audit gallery on the rail mount is provided below the rail mount. Step of constructing one layer of concrete and fixing the top edge, side wall and stairs of the audit gallery at the same time, with the staircase frames for setting the stairs at the bottom of the audit gallery fixed. When,
Releasing the fixing of the rail mount and the slide center and the staircase frame, and moving the rail mount in the construction direction of the audit gallery;
Removing the staircase frame and moving it in the direction of movement of the rail mount, and re-fixing to the rail mount;
Removing the slide centle and moving it in the direction of movement of the rail mount, and re-fixing to the rail mount;
It is comprised including.

According to the present invention, by placing concrete in a state where the slide center and the staircase frame are fixed to the rail mount, the top and side portions of the auditing gallery and the staircase at the bottom can be made at the same time. .
After placing concrete, release the fixing of the rail mount, slide center and staircase frame, move the rail mount, remove the staircase frame and slide center, and move them to the rail mount. By re-fixing, the audit gallery can be built continuously.
Therefore, the work can be proceeded safely and efficiently.

The side view of the movable formwork apparatus which shows one Embodiment of this invention It is the front view of the movable formwork device same as the above, (A) at the time of concrete placement, (B) front view after concrete placement and demolding Schematic of work process 1 (immediately before placing concrete) Schematic of work process 2 (immediately after placing concrete) Schematic of work process 3 (moving process of rail mount) Schematic of work process 4 (step frame moving process) Schematic of work process 5 (moving process of slide center)

Hereinafter, embodiments of the present invention will be described in detail.
FIG. 1 is a side view of a mobile formwork apparatus showing an embodiment of the present invention. FIG. 2 is a front view of the above-described mobile formwork apparatus, wherein (A) is a front view after concrete placement and (B) is a front view after concrete placement and demolding.

  The inspection gallery of the dam in this embodiment is constructed obliquely upward, simultaneously with the construction of the dam body. Concrete placement is performed one layer at a time (predetermined height h). FIG. 1 shows the state in which the concrete placement is completed up to the (n-1) th layer, and the state immediately before the placement of the nth layer concrete is started. Also, when referring to the front and rear in the construction direction of the audit gallery, the front side is the wellhead side and the rear side is the lap side.

  The mobile formwork apparatus mainly includes a rail mount 10, an arch-shaped slide centle (movable formwork for an audit gallery) 20 disposed on the rail mount 10, and a staircase disposed below the rail mount 10. And a frame (staircase formwork) 30.

  The rail mount 10 is disposed along the construction direction of the audit gallery, and is moved in the construction direction as the construction progresses. Specifically, the rail mount 10 includes a pair of left and right rails 11 and 11 disposed along the construction direction of the inspection gallery, and a pair of left and right base members 12 and 12 that support the rails 11 and 11. On each base member 12, each rail 11 is comprised including the blocks 13 and 13 arrange | positioned at right and left.

A support member 40 is used for positioning and holding the rail mount 10. The support member 40 is embedded in the concrete layer on which the base end portion has been placed, and the distal end portion of the rail mount 10 is locked to the distal end portion side of the support member 40 via the bracket 41.
The support member 40 is provided every time the rail mount 10 is moved, that is, every time the rail mount 10 is moved and fixedly installed, and finally the support member 40 is buried with the bracket 41 removed.

The slide center 20 is disposed on the rail mount 10 so as to be relatively movable, and can be positioned and fixed. The slide center 20 is used for placing the top end and the side wall of the inspection gallery.
Specifically, the slide center 20 includes a gantry 21 that is a portal-type carriage, and an arch-shaped wall 25 and a panel foam 26 that are arranged so as to cover the gantry 21 from above. .

  The gantry 21 has a pair of main shaft members 22 and 22 at the center of the framework. The gantry 21 also has an appropriate number of wheels 23 and an appropriate number of jacks 24 shifted in the front-rear direction on the lower surface side of the main shaft members 22, 22.

  The jack 24 is in a jack-up state (elongated state) corresponding to the set state of the slide center 20, and as shown in FIG. 2A, the leg portion moves downward from the wheel 23, and the rail 11 of the rail mount 10 is moved. And the wheel 23 can be lifted from the rail 11 by landing on the block 13. The jack 24 is also in a jack-down state (shortened state), and as shown in FIG. 2 (B), the leg moves upward from the wheel 23 to place the wheel 23 on the rail 11, and the rail 24 and the block itself. 13 can be separated.

The wall 25 is a frame-like frame member supported by the gantry 21, and can be expanded and contracted by a jack (not shown).
The panel form 26 is attached to the outer peripheral side of the wall 25, and concrete is cast on the outer peripheral side thereof.

For positioning and fixing the slide center 20, an anchor bolt 27 that protrudes outward from the outermost panel form 26 and is embedded in concrete is used.
In the slide center 20, an anchor fixing portion 28 (28 f and 28 r in FIG. 1) that can be connected / disconnected with the anchor bolt 27 is provided on the inner peripheral side of the wall 25.

Here, the anchor fixing portion 28 is connected to the anchor bolt 27 via a connecting member 29 that can be attached to and detached from each other.
The connecting member 29 is, for example, a sea bolt having a female thread portion on the distal end side, and is screwed into the proximal end portion of the anchor bolt 27. The base end portion of the connecting member (the sea bolt 29) is inserted into the through hole portion of the anchor fixing portion 28 and fixed with a nut (not shown).

  As shown in FIG. 1, two anchor fixing portions 28 (anchor bolts 27) are provided on the concrete layers before and after the construction direction in a side view (single side view) of the slide center 20. Therefore, when the two anchor fixing portions 28f on the front side in the construction direction of the audit gallery are located in the n layer in FIG. 1, the two anchor fixing portions 28r on the rear side are located in the n-1 layer in FIG. Therefore, after the n-1 layer is cast and before the n layer is cast, the anchor bolt 27 connected to the anchor fixing portion 28r on the rear side is buried in the concrete, and the slide center 20 is positioned and held. Used as a set anchor for The anchor bolt 27 connected to the anchor fixing portion 28f on the front side is not embedded in the concrete yet, and is a dummy anchor.

  The staircase frame 30 is disposed on the base member 12 of the rail mount 10 and is detachably fixed with bolts (not shown), and is used for placing a staircase (a kick-up portion and a tread surface portion) at the bottom of the inspection corridor. In the present embodiment, as shown in FIG. 2, a drainage groove is formed along with the staircase at the bottom of the inspection corridor, and a groove forming portion is provided on one side of the staircase frame 30. However, the explanation is omitted.

  The staircase frame 30 is independent step by step and can be detached and transported independently. Accordingly, the rear one-step staircase frame 30 used for placing concrete is transported one step at a time and reused. As described above, the staircase frame 30 can be transported independently one by one, thereby facilitating transport by human power and improving workability. However, it is not always necessary to make each step independent. Considering that a human power assisting device for transportation can be used, the number of steps that can be transported for one layer of the staircase frame 30 may be made independent. What is necessary is just a small unit with respect to the number of steps of the staircase constructed by one driving.

Here, the length of the construction direction of the audit gallery of the rail mount 10, the slide center 20, and the staircase frame 30 will be described.
With reference to FIG. 1, the slide centle 20 has a length in the construction direction of the audit gallery (that is, a length corresponding to at least one layer) so that it can traverse the entire circumference in at least one layer (n layers). have.
The rail mount 10 has a length (that is, a length corresponding to at least two layers) on which the slide centle 20 having the above length can be placed and the slide centle 20 can move by at least one layer.
The staircase frame 30 is provided by the number of steps that is at least as long as the rail mount 10 or more, and is a small unit that can carry the last one layer of the staircase frame 30 used to construct the staircase. It is postponed and reused one by one.

Next, an apparatus for moving the rail mount 10, the slide center 20, and the staircase frame 30 in the construction direction of the audit gallery will be described.
A crane (not shown) is used as a device for moving the rail mount 10. Specifically, after connecting the wire W1 to the tip of the rail mount 10, releasing the locking by the support member 40, the rail mount 10 can be moved by pulling the wire W1 obliquely upward with a crane. After the movement, the front end portion of the rail mount 10 is locked to the next support member 40 ′ (FIG. 5 described later).

As a device for moving the slide center 20, a crane and a pulley device 42 for reducing traction force are used.
The pulley device 42 is rotatably held by a first pulley 44 rotatably held by a bracket 43 attached to the tip end portion of the rail mount 10 and a tip end portion of the gantry 21 (main shaft member 22) of the slide center 20. A second pulley 45 that is hooked and pulled out by the tip of the gantry 21, and is wound around the first pulley 44 and reversed, and then is wound around the second pulley 45 and moves upward to the wire W2. Consists of including. Accordingly, by pulling the wire W <b> 2 upward by the crane, the slide center 20 can be moved while the second pulley 45 is brought close to the first pulley 44.
By using such a pulley device 42, the traction force can be reduced to ½. As a result, the capacity of the crane to be used can be reduced and the crane can be miniaturized, which makes it easy to secure the installation location. Further, by using the pulley device 42, the operability of the crane can be improved with the direction of pulling upward. Of course, the mode of the pulley device 42 is not limited to this, and the traction force may be further reduced by changing the winding method.

  The movement of the staircase frame 30 is performed manually. However, a suspension moving device for transportation may be arranged through the inside of the slide center 20 to assist human power. For example, a cableway wire may be stretched through the inside of the slide center 20, the staircase frame 30 may be suspended by a hook with a pulley using this as a track, and may be pulled and moved by manual traction. By using such a human power assist device, it is possible to reduce the burden of carrying the staircase frame 30 (including personnel reduction). In addition, it is possible to increase the transport unit of the staircase frame 30 and improve work efficiency.

  Next, an inspection gallery construction method using the above-described mobile formwork apparatus will be described with reference to the process diagrams of FIGS.

[Work process 1: Immediately before placing concrete]
FIG. 1 shows a state just before the placement of concrete up to the (n-1) th layer and just before placing the nth layer of concrete. FIG. 3 is a schematic view of work process 1 (immediately before placing concrete) and corresponds to FIG.
In the state of FIG. 1 (FIG. 3), the rail mount 10 is locked to the support member 40 via the bracket 41 on the tip side. The rail mount 10 is also supported by a step frame 30 attached to the lower side thereof that is in an existing concrete layer.

The slide center 20 is pushed up on the rail mount 10 by jacking up (extending) the jack 24 and set at a predetermined height position, and the arched wall 25 and the panel form 26 are in an unfolded state (FIG. 2). (See (A)). And the anchor bolt 27 connected with the anchor fixing | fixed part 28r of the construction direction rear side of an inspection gallery via the connection member (sea bolt) 29 is embed | buried under the existing concrete layer. Therefore, the slide center 20 is supported by the existing concrete layer via the rear anchor bolt 27 functioning as a set anchor.
The anchor bolt 27 connected to the anchor fixing portion 28f on the front side in the construction direction of the inspection gallery via a connecting member (sea bolt) 29 protrudes as a dummy anchor in a space (n layer) where concrete is to be placed.
The staircase frame 30 is disposed on the lower side of the rail mount 10 and fixed with bolts.

[Working process 2: Immediately after placing concrete]
From the state of FIG. 1 (FIG. 3), one layer of concrete is placed in the nth layer and cured and cured.
FIG. 4 is a schematic diagram of work process 2 (immediately after the concrete is placed), and concrete is placed in the n layer.
By placing concrete on the n-layer, the top and side walls of the audit gallery and the staircase at the bottom are simultaneously formed by the slide center 20 and the staircase frame 30.
At this time, the anchor bolt 27 of the anchor fixing portion 28f on the front side in the construction direction of the audit gallery is embedded in the concrete layer and changes from a dummy anchor to a set anchor.

[Work process 3: Rail mount moving process]
FIG. 5 is a schematic diagram of work process 3 (rail cradle moving process). In the work process 3, the rail mount 10 is moved from the state shown in FIG. 4 to the state shown in FIG. Specifically, the rail mount 10 is moved in the following procedure.

In order to make the rail mount 10 movable, the fixing of the rail mount 10 and the staircase frame 30 is released (the bolt is removed).
The jack 24 is jacked down (shortened). Since the slide center 20 is supported on the concrete layer by the anchor bolts 27 of the anchor fixing portions 28f and 28r, the jack 24 is separated from the rail mount 10 by the jack down, and the wheel 23 also remains floating. Accordingly, a gap is formed between the slide center 20 and the rail mount 10. Thereby, the rail mount 10 can be pulled out.

The rail mount 10 is pulled out and moved. Specifically, after connecting the wire W1 to the tip of the rail mount 10, releasing the locking by the support member 40, the rail mount 10 is moved by pulling the wire W1 obliquely upward with a crane. After the movement, the tip of the rail mount 10 is locked to the next support member 40 ′.
Moreover, the moved rail mount 10 and the existing staircase frame 30 on the lower side thereof are fixed with bolts. Thereby, the rail mount 10 after movement is supported by the support member 40 ′ and the existing staircase frame 30.

[Working process 4: Staircase frame moving process]
FIG. 6 is a schematic diagram of work process 4 (step frame moving process). In the work process 4, a part of the staircase frame 30 is moved from the state shown in FIG. 5 to the state shown in FIG. Specifically, a part of the staircase frame 30 is moved in the following procedure.

At the end of the construction direction of the audit gallery, the one-step staircase frame 30 that has become free due to the movement of the rail mount 10 is removed one by one and removed through the internal space of the slide center 20 in front of the construction direction. Carry to. And it arrange | positions to the lower side of the rail mount 10, and fixes with a volt | bolt as a step frame of the (n + 1) th layer which will cast concrete from now on.
In addition, by moving the staircase frame 30 prior to the movement of the slide center 20 described later, re-fixing after the movement of the staircase frame 30 can be performed without being obstructed by the slide center 20.

[Work Process 5: Slide Centle Movement Process]
FIG. 7 is a schematic view of work process 5 (slide centle moving process). In the work process 5, the slide centle 20 is moved from the state shown in FIG. 6 to the state shown in FIG. Specifically, the slide center 20 is moved in the following procedure.

In the slide center 20, the arch-shaped wall 25 and the panel foam 26 are removed from the mold by reducing the diameter.
In the state where the legs of the jack 24 are landed on the rail mount 10 by jacking up (extending) the jack 24, the connecting member (the sea bolt) is connected from the anchor bolt 27 in the concrete layer and the anchor fixing portion 28 of the slide center 20. ) 29 is removed, and the restraint of the slide center 20 by the concrete layer is released.

Then, the jack 23 of the jack 24 is jacked down (shortened), and the wheel 23 of the arch-shaped form 20 is placed on the rail 11 of the rail mount 10.
Before the restraint of the slide center 20 is released, the crane has pulled and held the slide center 20 with the wire W2 via the pulley device 42, and after the wheel 23 is placed on the rail 11, the operation of the crane is actually performed. Traction is started and the slide center 20 is moved.

After the slide center 20 is moved, the slide center 20 is set at a predetermined height position by jacking up (extending) the jack 24.
At this time, the anchor fixing portion 28 on the rear side of the slide center 20 is matched with the anchor bolt 27 in the concrete layer, and these are connected by a connecting member (sea bolt) 29. Thereby, the slide center 20 is supported by the existing concrete layer through the anchor bolts 27 on the rear side that function as set anchors.

The anchor fixing portion 28f on the front side of the slide center 20 supports an anchor bolt 27 via a connecting member (sea bolt) 29, and then protrudes as a dummy anchor into a space (n + 1 layer) where concrete is placed.
Thus, it is possible to place concrete on the next n + 1 layer.

According to this embodiment, with the slide center 20 and the staircase frame 30 fixed to the rail mount 10, by placing one layer of concrete, the top and side portions of the inspection gallery and the bottom portion You can make stairs at the same time. In addition, after the concrete is placed, after the rail frame 10 and the slide center 20 and the staircase frame 30 are fixed, the rail frame 10 is moved, and then the staircase frame 30 and the slide center 20 are respectively removed from the mold. By moving and re-fixing to the rail mount 10, an audit gallery with stairs can be continuously constructed. Therefore, the work is not congested and the work efficiency can be improved.
In other words, when building a staircase in the post-construction after the construction of the audit gallery, the concrete placement work for the construction of the audit gallery on the front side of the construction direction of the audit gallery and the concrete placement work for the stairs construction on the back side Congesting and performing both operations in a narrow passage not only interferes with each other, but it is not only disadvantageous in terms of process, but also requires a large number of workers. In this respect, by performing simultaneous construction as in the present embodiment, work is not congested, and work efficiency can be improved.

  Further, according to the present embodiment, the slide center 20 has the anchor fixing portion 28 that protrudes outward from the outermost panel form 26 and can be connected / disconnected with the anchor bolt 27 embedded in the concrete. By doing so, the positioning and fixing of the slide center 20 can be ensured.

  Moreover, according to this embodiment, the staircase frame 30 can improve workability | operativity by enabling it to convey independently one step at a time. That is, the staircase frame 30 may be independently transportable by the number of steps of a unit equal to or smaller than the number of steps constructed by placing concrete for one layer, but can be transported independently by one step. As a result, transportation by human power is facilitated, and workability can be improved.

  In addition, according to the present embodiment, by providing the support member 40 that is provided for each movement position of the rail mount 10, the base end side is embedded in the concrete layer, and the rail mount 10 is locked on the tip end side, With the member to be buried, the rail mount 10 can be reliably supported.

  The illustrated embodiments are merely examples of the present invention, and the present invention is not limited to those directly described by the described embodiments, and various improvements and modifications made by those skilled in the art within the scope of the claims. Needless to say, it encompasses changes.

10 Rail mount 11 Rail 12 Base member 13 Block 20 Slide center 21 Gantry 22 Main shaft member 23 Wheel 24 Jack 25 Wall 26 Panel foam 27 Anchor bolt 28 (28f, 28r) Anchor fixing portion 29 Connecting member (Sea bolt)
30 Staircase frames 40, 40 'Support member 41 Bracket 42 Pulley device 43 Bracket 44 First pulley 45 Second pulley W1, W2 Wire

Claims (5)

A mobile formwork device for building a dam audit gallery with concrete,
A rail mount that is arranged along the construction direction of the audit gallery and is moved in the construction direction as the construction progresses;
An arch-shaped slide centle that is disposed on the rail frame so as to be relatively movable and can be positioned and fixed, and is used for placing the top end portion and the side wall portion of the inspection gallery,
A unit that is detachably fixed at a position corresponding to the slide centle below the rail pedestal, and is used for placing a staircase at the bottom of the auditing corridor. A staircase frame that can be transported independently by the number of steps,
A movable formwork device for an inspection gallery of a dam characterized by comprising:   2. The dam according to claim 1, wherein the slide center has an anchor fixing portion that protrudes outward from the outermost panel form and can be connected / disconnected with an anchor bolt embedded in concrete. Mobile formwork equipment for the audit gallery.   The mobile formwork device for an inspection gallery of a dam according to claim 1 or 2, wherein the staircase frame can be transported independently one by one.   The first to third embodiments further include a support member that is provided for each movement position of the rail mount, the base end side is embedded in a concrete layer, and the rail mount is locked on the tip end side. A movable formwork apparatus for an inspection gallery of a dam according to any one of the above. A construction method for a dam audit gallery,
A rail mount is arranged along the construction direction of the audit gallery, and an arch-shaped slide centle for placing the top end portion and the side wall portion of the audit gallery on the rail mount is provided below the rail mount. Step of constructing one layer of concrete and fixing the top edge, side wall and stairs of the audit gallery at the same time, with the staircase frames for setting the stairs at the bottom of the audit gallery fixed. When,
Releasing the fixing of the rail mount and the slide center and the staircase frame, and moving the rail mount in the construction direction of the audit gallery;
Removing the staircase frame and moving it in the direction of movement of the rail mount, and re-fixing to the rail mount;
Removing the slide centle and moving it in the direction of movement of the rail mount, and re-fixing to the rail mount;
The construction method of the audit gallery of the dam composed of