JP3992613B2 - Tower-shaped structure demolition apparatus and tower-shaped structure demolition method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tower-shaped structure demolition apparatus and a tower-shaped structure demolition method for demolition of a tower-shaped structure such as a chimney.
[0002]
[Prior art]
As a conventional method of dismantling and removing tower structures such as chimneys and steel towers that have become obsolete or unnecessary, a mobile crane or a crane can be used if sufficient space can be secured around the tower structures. Some heavy-duty machines such as tower cranes are installed and dismantled from the ground surface. However, the above-described method cannot be employed when a sufficient space cannot be secured around the tower structure in an urban area or the like. In view of such circumstances, in recent years, for example, as shown in Patent Document 1, it has a work stage for dismantling a steel tower that is a tower-like structure, and is supported by the side wall of the steel tower so that it can be moved up and down. A structured dismantling device has been developed. Thereby, even when a sufficient space cannot be secured around the steel tower, the steel tower can be dismantled by an operator who has boarded the dismantling apparatus.
[0003]
[Patent Document 1]
JP 2000-145126 A, paragraph [0005] to paragraph [0049].
[0004]
[Problems to be solved by the invention]
By the way, the dismantling apparatus described in Patent Document 1 has a fixed bracket and a movable bracket which are provided at positions above and below and are detachably fixed to a steel tower, respectively. Is moved up and down relative to the steel tower. Therefore, for example, when the tower-like structure is an aged chimney, the dismantling device cannot be stably supported.
[0005]
An object of the present invention is to dismantle the tower-like structure even when the tower-like structure is erected on a relatively narrow site, or when the tower-like structure is an old chimney or the like. It is an object of the present invention to provide a tower-like structure dismantling apparatus and a tower-like structure dismantling method that can be performed while reducing the burden and increasing the efficiency.
[0006]
[Means for Solving the Problems]
In order to solve the above problem, the invention described in claim 1 is, for example, as shown in FIGS. 1 to 8 and FIGS.
Scaffolds 11, 21, 31 assembled around the tower structure (chimney a) to be dismantled;
Construction lift 12 having lifting means (elevating devices 12c, 22c, 32c) that can be raised and lowered with respect to the scaffolds 11, 21, 31 and located above the top of the tower-like structure (chimney a). , 22, and 32.
Furthermore, the invention according to claim 1 is provided for the scaffolds 11 and 21 as shown in FIGS. 3, 5, 6, and 8, for example, and the side portion of the tower-like structure (chimney a). Horizontal members (first horizontal rail 11c3, second horizontal rail 11c4, horizontal movement rail 21d1) for horizontally moving the lifts for construction 12, 22 raised in step 2 to above the top of the tower-like structure (chimney a) ).
[0007]
According to invention of Claim 1, the said lift for construction raises along the scaffold assembled around the tower-like structure disassembled by the raising / lowering means, The upper part of the tower-like structure is upper. Can be located. And according to the dismantling work of the tower-like structure by the worker, the raising and lowering means gradually descends to a state located above the top of the tower-like structure, thereby continuously assisting the dismantling work. it can. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
Further, according to the invention described in claim 1, the tower-like structure is obtained by horizontally moving the construction lift raised at the side of the tower-like structure along the horizontal member provided to the scaffold. Can be easily positioned above the top of the.
[0008]
Examples of the tower-like structure include a steel tower and RC chimney.
[0009]
The scaffold may be any of a frame scaffold, a bracket scaffold, a steel pipe pipe scaffold, etc., or a combination of these as appropriate.
[0010]
In addition, in order to assist a worker to dismantle the tower-like structure by the construction lift, various devices may be provided in the construction lift. For example, a concrete crusher for assisting the dismantling of the tower-like structure by the worker, a reinforcing bar cutting machine, a crane for lifting and lowering construction materials and the like from the ground can be used. In addition, when the tower-like structure is a chimney, a gondola or the like for cleaning the inside of the chimney may be suspended before the chimney is disassembled. Furthermore, a curing sheet for preventing dust, harmful substances, and the like generated by the dismantling operation from being scattered around can be suspended from a construction lift.
[0011]
As a method of raising and lowering the construction lift, for example, a rack is provided along the scaffold, a motor is installed on the construction lift, and a gear of the motor is engaged with the rack. Examples include a method of lifting from a predetermined position by an electric chain block or the like.
[0012]
The invention described in claim 2 is, as shown in FIGS. 1, 3, 18, and 24, for example, in the tower-like structure dismantling apparatus 10, 20, 30 according to claim 1,
The construction lifts 12, 22, 32 are provided with dismantling means (concrete breakers 12h, 22h, 32h, rebar cutting machines 12i, 22i, 32i).
[0013]
According to the second aspect of the present invention, since the dismantling means is provided in the construction lift, the worker can dismantle the tower-like structure using the dismantling means. That is, the worker does not need to transport the dismantling means to the dismantling part of the tower structure. Therefore, the burden on the worker who performs the dismantling work of the tower-like structure can be reduced.
[0014]
Examples of the dismantling means include a concrete crusher and a rebar cutting machine.
[0015]
The invention according to claim 3 is, for example, as shown in FIGS. 1 to 3, 12 to 18, and 20 to 24, the tower-like structure dismantling apparatus 10 according to claim 1 or 2. , 20, 30
The construction lifts 12, 22, 32 are provided with lifting means (crane 12b, 22b, 32b).
[0016]
According to the third aspect of the present invention, since the lift for construction is provided with lifting means, for example, scaffolding materials, construction materials, demolition equipment, etc. are dismantled from the ground using this lifting means. Can be lifted up to the ground or suspended from the dismantling part to the ground. Therefore, it is possible to further reduce the burden on the worker who performs the dismantling work of the tower-like structure.
[0017]
The invention according to claim 4 is a tower-like structure dismantling apparatus 10 according to any one of claims 1 to 3, for example as shown in FIGS.
The scaffold 11 is provided with a temporary elevator 11d for construction.
[0018]
According to the invention described in claim 4, since the temporary elevator for the construction is provided in the scaffold, the construction material, the dismantling equipment, the worker, etc. can be transferred from the ground to the tower-like structure by using the temporary elevator for the construction. It can be transported to the dismantling part of the object or transported from the dismantling part to the ground. Therefore, it is possible to further reduce the burden on the worker who performs the dismantling work of the tower-like structure.
[0019]
The invention according to claim 5 is, for example, as shown in FIGS. 1, 3, 18, and 24, the tower-like structure dismantling apparatus 10, 20, according to any one of claims 1 to 4, 30
The scaffolds 11, 21, 31 are frame scaffolds 11 a, 21 a, 31 a, and bracket scaffolds 11 b that are fixed to the framework scaffolds 11 a, 21 a, 31 a by jumping toward the tower-like structure (chimney a), 21b and 31b.
[0020]
According to the invention described in claim 5, since the scaffold is a framework scaffold and a bracket scaffold that is fixed to the framework scaffold by jumping toward the tower structure, the tower structure is a chimney. Even when the upper and lower parts have different diameters and there is a gap between the frame scaffolding and the tower-like structure, the bracket scaffolds jump out of the gap to allow the worker to perform the dismantling work. A place can be easily secured.
[0021]
The invention described in claim 6 is the tower-like structure dismantling apparatus 10, 20, 30 according to claim 5,
The bracket scaffolds 11b, 21b, 31b are characterized in that the jumping width can be adjusted.
[0022]
According to the invention described in claim 6, since the bracket scaffold can adjust the jumping width, the diameter of the tower-like structure gradually changes from the upper part to the lower part like a chimney. Even in the case where the distance between the structure and the structure gradually changes, it is possible to easily secure a place where the worker performs the dismantling work by jumping out the bracket scaffold while adjusting the jumping width.
[0023]
The bracket scaffold capable of adjusting the jumping width is a well-known technique.
[0024]
The invention according to claim 7 is, for example, as shown in FIGS. 3, 18, and 24, in the tower-like structure dismantling apparatuses 10 and 20 according to any one of claims 1 to 6,
Curing sheets 12j, 22j, 32j covering the vicinity of the dismantling part of the tower-like structure (chimney a) of the scaffolds 11, 21, 31 are suspended from the construction lifts 12, 22, 32. It is characterized by having.
[0025]
According to the seventh aspect of the present invention, since the curing sheet that covers the vicinity of the dismantling part of the tower-like structure from the periphery of the scaffold is suspended in the construction lift, dust generated by the dismantling work, It is possible to prevent toxic substances from being scattered around.
[0026]
The invention according to claim 8 is, as shown in FIGS. 1 and 9, for example, in the tower-like structure dismantling apparatus 10 according to any one of claims 1 to 7,
The tower-like structure is a chimney a,
The construction lift 12 is characterized in that a gondola 12f for raising and lowering the inside of the chimney a is suspended.
[0027]
According to the eighth aspect of the present invention, a gondola that lifts and lowers the chimney inside the tower-like structure is suspended from the construction lift. By using this gondola, before dismantling the chimney, it is easy and reliable to clean the inside of the chimney and to fill it with an embedding agent for solidifying and embedding harmful substances such as dioxins. It can be carried out.
[0028]
The invention described in claim 9 is the tower-like structure dismantling apparatus 10, 20 according to any one of claims 1-8, as shown in FIGS. 5 to 7, 18, and 19, for example. ,
A fall prevention member (fixing pin 11c5, fixing bracket 12c3, clamp 22c3) for preventing the construction lifts 12 and 22 from falling is provided.
[0029]
According to the ninth aspect of the present invention, since the fall prevention member for preventing the construction lift from falling is provided, the construction lift can be prevented from dropping and can be moved up and down stably.
[0030]
In addition, as a structure of a fall prevention member, the clamp which can hold | grip the other may be provided with respect to either one among a lift for construction and a scaffold, for example, and the member provided in any one Is configured so that it can be fitted in a state in which it is prevented from falling with respect to the other.
[0031]
The invention according to claim 10 is an example of the tower-like structure according to any one of claims 1 to 9 as shown in FIGS. 1 to 8, 18 to 23, 25, and 26. In the dismantling devices 10, 20, 30
A guide member (mast 11c, guide rail 21c, guide post 31c) is provided along the scaffolds 11, 21, 31;
The construction lifts 12, 22, 32 are provided with guide rollers 12d, 22d, 32c5 which are guided by the guide members (mast 11c, guide rail 21c, guide column 31c).
[0032]
According to the invention described in claim 10, the construction lift can be moved up and down more stably while the guide roller is guided by the guide member.
[0033]
In addition, the guide member should just be provided only in the part to which a construction lift raises / lowers, and should just change and use it suitably along the raising / lowering direction of a construction lift. By using the guide member while refilling it, the amount of the guide member used can be reduced to reduce the machine cost, and as a result, the construction cost can be reduced.
[0034]
As a configuration of the guide member, for example, a guide rail may be attached along the scaffold, and a guide roller that contacts the guide rail in a state of covering the guide rail from the periphery may be attached to the construction lift. Further, a lifting mast that also serves as a construction lift guide may be provided. According to this configuration, the load of the construction lift is borne by the mast, and it is possible to prevent the scaffold or the like from bearing the load of the construction lift.
[0035]
The invention described in claim 11 is, for example, as shown in FIGS. 1, 3, 5, 6, 8, 18, and 19, the tower-like structure dismantling apparatus 10 according to claim 10, 20
The lifting means is a string-like member (chain) for suspending the construction lifts 12, 22 and a winding device (electric chain blocks 12c1, 22c1) for winding the string-like member chain). It is a feature.
[0036]
According to the eleventh aspect of the present invention, the lifting / lowering of the construction lift is performed by the string-like member for suspending the construction lift and the winding device for winding the string-like member. That is, the elevating means can have a relatively simple configuration, and maintenance of the elevating means is facilitated.
[0037]
Examples of the string-like member include a chain, a wire, and a rope.
[0038]
Note that the winding device may be installed on a scaffold, installed on a construction lift, or set on another location, for example, on the ground.
[0039]
In addition, the said winding apparatus should also be provided only in the part to which a construction lift raises / lowers, and it can change and use it appropriately along the raising / lowering direction of a construction lift for ensuring stability etc. It is.
[0040]
The invention described in claim 12 is the tower-like structure dismantling apparatus 10, 20 according to claim 10,
The horizontal members (first horizontal rail 11c3, second horizontal rail 11c4, horizontal moving rail 21d1) are provided with respect to the guide members (mast 11c, guide rail 21c).
[0041]
According to the twelfth aspect of the present invention, the construction lift raised at the side of the tower-like structure is horizontally moved along the horizontal member provided with respect to the guide member provided along the scaffold. It can be easily positioned above the top of the tower-like structure.
[0042]
Note that the construction lift located above the top of the tower-like structure is gradually lowered to a position located above the top of the tower-like structure to be dismantled, so that the dismantling of the tower-like structure by the workers is continuously performed. Can assist.
[0043]
The invention according to claim 13 is the tower-like structure dismantling apparatus 30 according to claim 10, for example, as shown in FIGS.
The lifting means includes a rack 31d provided along the scaffold 31, a motor 32c3 provided for the construction lift 32, and a gear (pinion 32c4) connected to the motor 32c3 and meshing with the rack 31d. It is characterized by being.
[0044]
According to the thirteenth aspect of the invention, the lifting / lowering of the construction lift is performed by the gear member connected to the motor provided in the construction lift meshing with the rack provided along the scaffold. Therefore, the elevating means can be configured with high accuracy and stability.
[0045]
In addition, the said rack should just be provided only in the part to which a construction lift raises / lowers, and it can change and use it suitably along the raising / lowering direction of a construction lift for the reduction of the usage-amount etc. .
[0046]
As for invention of Claim 14, as shown, for example in FIG. 26, in the dismantling apparatus 30 of the tower-like structure of Claim 13,
The rack 31d includes a lifting rack 31d1 for raising the construction lift 32 at the side of the tower-like structure (chimney a) and the construction lift 32 at the top of the tower-like structure (chimney a). The lowering rack 31d2 for gradually lowering to the upper position, the raising rack 31d1 and the lowering rack 31d2 are connected, and the construction rack is raised at the side of the tower-like structure (chimney a). It is characterized by the horizontal movement rack 31d3 for horizontally moving the lift 32 to the upper part of the top of the tower-like structure (chimney a).
[0047]
According to the invention described in claim 14, the construction lift can rise along the raising rack at the side of the tower-like structure. The construction lift that has risen to the top of the tower-like structure can be easily positioned above the top of the tower-like structure to be dismantled by moving horizontally along the horizontal movement rack. Further, the construction lift gradually descends along the lowering rack to a state located above the top of the tower structure to be demolished, thereby continuously assisting the operator to dismantle the tower structure. can do.
[0048]
The invention according to claim 15 is an example of the tower-like structure according to any one of claims 11 to 14, as shown in FIGS. 3, 5, 6, 8, 18, and 19. In the dismantling apparatuses 10 and 20,
The winding device (electric chain blocks 12c1, 22c1) or the rack is fixed to the guide member (mast 11c, guide rail 21c).
[0049]
According to the invention described in claim 15, the winding device or the rack is fixed to the guide member. Here, as described above, the guide member only needs to be provided at a portion where the construction lift is raised and lowered, and appropriately reordered along the raising and lowering direction of the construction lift in order to reduce the amount of use or the like. Can be used. Also, as described above, the winding device and the rack need only be provided at the portion where the construction lift is raised and lowered, and in order to ensure stability and reduce the amount of use, the construction lift can be moved up and down. It can be used by changing the order as appropriate. That is, when raising and lowering the construction lift, the guide member refilling operation for reducing the amount of the guide member and the rack used and ensuring the stability of the winding device, It is possible to improve workability by simultaneously performing the rack replacement work.
[0050]
The invention according to claim 16 is the tower-like structure dismantling apparatus 10 according to claim 15, as shown in FIGS. 1 to 8, 12, 15, and 17, for example.
The guide member is a mast 11c that is erected adjacent to the scaffold 11 and that allows the construction lift 12 to move up and down.
[0051]
According to a sixteenth aspect of the present invention, the guide member to which the winding device and the rack are fixed is a mast that is erected adjacent to the scaffolding and that lifts the construction lift. That is, the load of the construction lift is borne by the mast via the winding device and the rack. In other words, since the load of the construction lift is not borne by the scaffold or the like, the scaffold is not directly subjected to the vibration or impact of the construction lift that is being lifted or lowered. Therefore, the scaffold can be erected stably.
[0052]
The invention according to claim 17 is a tower-like structure dismantling method using the tower-like structure dismantling apparatus 10 according to claim 1 or 12, for example, as shown in FIGS. There,
Assembling the scaffold 11 around the tower-like structure (chimney a) and raising the construction lift 12 at the side of the tower-like structure (chimney a) by the winding device (electric chain block 12c1),
Next, the construction lift 12 is moved horizontally along the horizontal members (first horizontal rail 11c3, second horizontal rail 11c4) to the top of the tower-like structure (chimney a).
Next, the construction lift 12 is gradually lowered by the winding device (electric chain block 12c1) so as to be located above the top of the tower-like structure (chimney a). It is characterized by dismantling.
[0053]
According to the invention described in claim 17, a scaffold is assembled around the tower structure to be dismantled, and the construction lift is lifted by a side of the tower structure by the winding device, Since it moves horizontally along the horizontal member up to the top of the tower-like structure, it can be easily located above the top of the tower-like structure. And since the said construction lift descends gradually by the said winding device in the state located in the upper part top part of a tower-like structure, it can assist the dismantling operation | work of the tower-like structure by an operator continuously. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
[0054]
The invention according to claim 18 is a tower-like structure dismantling method using the tower-like structure dismantling apparatus 30 according to claim 14,
Assembling a scaffold around the tower-like structure (chimney a) and raising the construction lift 12 along the raising rack 31d1 at the side of the tower-like structure (chimney a),
Next, the construction lift 12 is horizontally moved along the horizontal movement rack 31d3 from the raising rack 31d1 to the lowering rack 31d2.
Next, the tower-like structure (chimney a) is disassembled, and the construction lift 32 is positioned above the top of the tower-like structure (chimney a) to be disassembled along the horizontal movement rack 31d2. It is characterized by being lowered.
[0055]
According to the invention described in claim 18, a scaffold is assembled around the tower structure to be dismantled, and the construction lift rises at the side of the tower structure along the lifting rack. Furthermore, it can be easily positioned above the top of the tower-like structure by horizontally moving along the horizontal movement rack to above the top of the tower-like structure. The construction lift is continuously lowered along the lowering rack in a state located above the top of the tower-like structure, thereby continuously assisting the dismantling work of the tower-like structure by an operator. Can do. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
[0056]
DETAILED DESCRIPTION OF THE INVENTION
In the following, referring to FIG. 1 to FIG. 26, embodiments of the tower-like structure dismantling apparatus according to the present invention will be described as [first embodiment], [second embodiment], [third The embodiment will be described in detail.
[0057]
[First Embodiment]
As shown in FIGS. 1 to 17, the present embodiment relates to the demolition of a chimney. In FIG. Structure). The chimney a gradually changes in diameter from the upper part to the lower part.
[0058]
As shown in FIGS. 1 to 4, the disassembling apparatus 10 according to the present embodiment moves up and down along the scaffold 11 in a state where the scaffold 11 assembled around the chimney a and the top of the chimney a to be disassembled are located. The scaffold 11 and the construction lift 12 have various devices.
[0059]
The scaffold 11 is assembled around the entire circumference of the chimney a. The scaffold 11 includes a frame scaffold 11a and a bracket scaffold 11b. The frame scaffold 11a is laminated from the ground and easily assembled. The bracket scaffold 11b is a well-known technique and is fixed by jumping toward the chimney a with respect to the frame scaffold 11a, and the jump width can be adjusted. In this way, when the bracket scaffold 11b is provided by jumping out from the frame scaffold 11a, the diameter of the chimney a gradually changes from the upper part to the lower part, and the interval between the frame scaffold and the chimney a gradually changes. In this case, it is possible to easily secure a place where the worker performs the dismantling work. The scaffold 11 is provided with a mast 11c adjacent thereto and a temporary elevator 11d for construction.
[0060]
The mast 11c (guide member) serves as a guide when the construction lift 12 is raised and lowered, and bears the load of the construction lift 12, and is erected in a state adjacent to the frame scaffold 11a, and further clamped. The frame is fixed to the frame scaffold 11a by a dedicated metal fitting. As shown in FIG. 5, the mast 11 c includes a rising mast 11 c 1 on the ascending path u side for the construction lift 12 to rise at the side of the chimney a, and the construction lift 12 positioned above the top of the chimney a. And a descending mast 11c2 on the descending path d side for gradually descending to the state of being performed. Note that a total of four lifting masts 11c1 are provided at two positions on the side of the chimney a on the side of the chimney a. Further, a total of four lowering masts 11c2 are provided, two at each of the scaffolds 11 at positions facing each other across the chimney a.
[0061]
The ascending mast 11c1 and the descending mast 11c2 are sequentially extended when the construction lift 12 is raised, and are sequentially removed when descending. At this time, the two upper masts 11c1 or the two lowering masts 11c2 located on the same side with respect to the chimney a have their upper ends made of, for example, H-shaped steel and have a predetermined rigidity. And the first horizontal rail 11c3 (horizontal member) having strength or the second horizontal rail 11c4 (horizontal member). Furthermore, an electric chain block 12c1 (winding device) and a manual chain block 12c4, which will be described later, are suspended from the first horizontal rail 11c3 or the second horizontal rail 11c4. The rising mast 11c1 and the lowering mast 11c2 are provided with fixing pins 11c5 (falling prevention members) described later for preventing the construction lift 12 from dropping at predetermined intervals.
[0062]
As described above, the first horizontal rail 11c3 and the second horizontal rail 11c4 are used to suspend the electric chain block 12c1 when the construction lift 12 is raised and lowered, and as described later, the top of the chimney a. Are connected to each other so that the construction lift 12 raised to the top of the chimney a at the side of the scaffold 11 is also used to move horizontally to the top of the chimney a.
[0063]
The construction temporary elevator 11d is provided on the scaffold 11 so as to be able to move up and down from the ground to the dismantling part of the chimney a, and conveys workers from the ground to the dismantling part or from the dismantling part to the ground. In addition, you may convey construction materials, a dismantling apparatus, etc. with the temporary elevator 11d for construction.
[0064]
The construction lift 12 is roughly configured to include a main body 12a, a crane 12b (elevating means), and an elevating device 12c (elevating means), and is provided in a state of connecting mutually opposing portions of the scaffold 11 assembled around the chimney a. As shown in FIG. 5, for example, as shown in FIG. 5, the first horizontal rail 11c3 and the second horizontal rail 11c3 are lifted from the ground by the lifting device 12c along the scaffold 11 at the side of the chimney a. By moving horizontally along the horizontal rail 11c4, it is provided in a state located above the top of the chimney a. The construction lift 12 located above the top of the chimney a is gradually lowered by the lifting device 12c in a procedure opposite to the raising to the state located above the top of the chimney a in accordance with the dismantling work of the chimney a by the worker. Thereby, it is possible to continuously assist the dismantling work of the chimney a by the worker.
[0065]
The main body 12a has a predetermined rigidity and is formed in a substantially rectangular shape in a plan view, has a crane 12b at the top, and has lifting devices 12c that move up and down along the scaffolds 11 at both ends. ing. The main body 12a serves as a mount for installing the crane 12b, and also serves as a temporary storage place for construction materials and the like. As shown in FIGS. 3 and 5 to 8, the main body 12a includes a guide roller 12d, a horizontal movement girder 12e, a gondola 12f, a work rail 12g, a concrete breaker 12h, a reinforcing bar cutting machine 12i, a curing sheet 12j, In addition, various devices such as a spray device, a lighting device, and a ventilation device (not shown) are provided. The main body 12a also includes power distribution equipment for supplying electricity to the lifting device 12c and the various devices described above.
[0066]
The crane 12b is an undulating type, and is installed on the main body 12a, and lifts construction materials from the ground to the dismantling part or hangs the dismantling part from the ground. Note that the crane 12b may be used to lift or suspend dismantling equipment or the like. In this case, a hanging basket or the like into which a dismantling device or the like enters may be used.
[0067]
The elevating device 12c is provided at each end of the construction lift 12, and is generally configured by an electric chain block 12c1, an elevating / suspending bracket 12c2, a fixed bracket 12c3 (falling prevention member), and the like.
[0068]
When the construction lift 12 is lifted at the side of the chimney a, the electric chain block 12c1 is gradually lowered to the state where the construction lift 12 is positioned above the top of the chimney a with respect to the raising mast 11c1. The lowering mast 11c2 is provided as follows. That is, as described above, the upper ends of the two rising masts 11c1 located on the same side with respect to the chimney a or the two lowering masts 11c2 are connected to each other, and are composed of, for example, H-shaped steel. It is suspended from the first horizontal rail 11c3 and the second horizontal rail 11c4.
[0069]
The lifting / lowering bracket 12c2 is used when the electric chain block 12c1 is slung to lift the construction lift 12, and as shown in FIGS. It is possible to rotate between a horizontal state projecting toward the outside and a vertical state that is substantially vertical when the one end portion is directed downward. That is, the lifting / lowering bracket 12c2 is in the horizontal state when the construction lift 12 is lifted and lowered, and the chain of the electric chain block 12c1 can be hung on one end and lifted. The lifting / lowering bracket 12c2 is in the vertical state when the construction lift 12 is moved horizontally.
[0070]
The fixed bracket 12c3 is for preventing the construction lift 12 from falling, and is provided so that one end thereof can protrude and project substantially horizontally toward the outside of the construction lift 12, as shown in FIGS. It has been. In addition, a hole for inserting a fixing pin 11c5 provided at a predetermined position of the raising mast 11c1 and the lowering mast 11c2 is formed in the one end portion. That is, when the construction lift 12 is raised or lowered, the fixed bracket 12c3 protrudes toward the outside of the construction lift 12, and the fixed bracket 11c5 is inserted into the hole formed in the one end to insert the fixed bracket 11c5. It can be fixed to the mast 11c1 and the descending mast 11c2, thereby preventing the construction lift 12 from falling.
[0071]
The guide roller 12d rotatably contacts the ascending mast 11c1 and the descending mast 11c2 when the construction lift 12 moves up and down, so that the ascending mast 11c1 and the descending mast 11c2 serve as a guide. This is for stably raising and lowering 12. As shown in FIGS. 6 and 7, the guide roller 12d is substantially vertical and is in contact with the ascending mast 11c1 and the descending mast 11c2, and is substantially horizontal and the ascending mast 11c1 and descending. It can be rotated between a horizontal state in which the contact with the mast 11c2 is released.
[0072]
As shown in FIGS. 3 and 5, the horizontal movement girder 12e is used to horizontally move the construction lift 12 raised at the side of the chimney a from the ascending u side to the descending d side. They are attached to both ends. The horizontal movement girder 12e is formed in a substantially L shape with a steel material or the like, and has a wheel 12e1 which is directed downward in an attached state at a tip portion. As described above, the horizontal movement of the construction lift 12 is performed by the wheels 12e1 moving horizontally on the first horizontal rail 11c3 and the second horizontal rail 11c4 that are connected to each other above the top of the chimney a. .
[0073]
As shown in FIG. 9, the gondola 12f is suspended from the main body 12a by two wires 12f2 (not shown) and can be moved up and down with respect to the construction lift 12 by the mounted winch 12f1. Prior to dismantling the chimney a, the worker who has boarded the gondola 12f cleans the inside of the chimney a and fills with an embedding agent for solidifying and embedding dioxins and other harmful substances. In FIG. 9, reference numeral 12f3 is a power cabtyre cable, reference numeral 12f4 is a lifeline, and reference numeral 12f5 is a safety belt and an O-lip.
[0074]
The work rail 12g is made of, for example, H-shaped steel or the like, and is fixed to the main body 12a. The work rail 12g is fixed to the main body 12a in a state where the work rail 12g can be turned with respect to the main body 12a via the rotary shaft pin 12g1. A concrete crusher 12h, a reinforcing bar cutter 12i, and the like are suspended from the work rail 12g via a roller carrier that can move along the work rail 12g.
[0075]
The concrete crusher 12h and the reinforcing bar cutter 12i crush the RC housing a2 of the chimney a by an operation by an operator. The compressor serving as a power source for the concrete breaker 12h may be installed on the ground or may be installed on the main body 12a. By installing in the main body 12a, the air hose for the height of the chimney can be omitted compared to the case of installing on the ground.
[0076]
The curing sheet 12j is suspended from the main body 12a and covers the dismantling part of the chimney a by the worker from the outer periphery. Thereby, scattering of dust, harmful substances, etc. generated by the dismantling work to the surroundings can be prevented.
[0077]
A spraying device reduces the dust etc. which arise by dismantling work by spraying water on a dismantling part.
[0078]
The illumination is performed on the dismantling part.
[0079]
The ventilation device ventilates the dismantling part.
[0080]
Note that a wire 12j1 for fixing the curing sheet 12j is provided on the outer periphery of the RC housing a2 of the chimney a to prevent the fall of the glass.
[0081]
A method for dismantling the chimney a by the dismantling apparatus 10 configured as described above will be described below.
[0082]
[Construction lift installation process]
First, the frame scaffold 11a is assembled for a predetermined length, for example, three layers on the ground. Then, a total of four lifting masts 11c1 are erected on the side of the chimney a in the frame scaffold 11a, two in each position facing each other across the chimney a, adjacent to the frame scaffold 11a. At the same time, a total of four descending masts 11c2 are provided in each of the scaffolds 11 at positions facing each other across the chimney a. Note that the frame scaffold 11a and the rising mast 11c1 and the lowering mast 11c2 are connected by, for example, a general-purpose clamp. Then, the construction lift 12 is fixed to the ascending mast 11c1. Specifically, one end portion of the fixing bracket 12c3 of the lift for construction 12 protrudes outward, and the fixing pin 11c5 formed on the rising mast 11c1 is inserted into the hole formed on the one end portion, thereby dropping Install in a state that prevents The lifting bracket 12c2 is in the horizontal state. As a method of installing the construction lift 12, the construction lift 12 may be assembled and installed on the frame scaffold 11a, or may be assembled on the ground and lifted with a crane or the like. (See FIG. 12, [1] and [2] in FIG. 10)
[0083]
[Scaffolding assembly process]
Next, the assembled frame scaffold 11a is further assembled with a predetermined length, for example, two layers, and the upright mast 11c1 is further extended with a predetermined length. At this time, the upper ends of the two lifting masts 11c1 located on the same side with respect to the chimney a are connected by the first horizontal rail 11c3, and the electric chain block 12c1 is connected to the first horizontal rail 11c3. Be suspended. The descending mast 11c2 is also extended to substantially the same height as the ascending mast 11c1. ([3] in FIG. 10)
[0084]
[Construction lift raising process]
Next, the chain is extended from the electric chain block 12c1, and the chain is hung on the lifting bracket 12c2 in the horizontal state. After confirming that the stake has been secured, the construction lift 12 is raised by removing the insertion of the fixing pin 11c5 from the fixing bracket 12c3 and winding the chain with the electric chain block 12c1. At this time, the construction lift 12 rises smoothly along the raising mast 11c1 by the guide roller 12d coming into contact with the raising mast 11c1. The construction lift 12 raised to a predetermined height is formed in the raising mast 11c1 with the one end of the fixing bracket 12c3 protruding outwardly in the same manner as described above, and with respect to the hole formed in this one end. The fixed pin 11c5 is inserted and installed in a state in which the fall is prevented. (See FIGS. 6 to 8, [4] in FIG. 10)
[0085]
[Scaffolding assembly step] and [construction lift raising step] are repeated a predetermined number of times to raise the construction lift 12 to the top of the chimney a. The descending mast 11c2 is also extended sequentially so as to have substantially the same height as the raised mast 11c1. And also in the top part of the chimney a, it fixes to the mast 11c1 for a raise by the fixing bracket 12c3. (See FIG. 13 to FIG. 15, [3] to [6] in FIG. 10)
[0086]
[Construction lift horizontal movement process]
Next, after confirming that the construction lift 12 is securely fixed to the lifting mast 11c1 by the fixing bracket 12c3, the construction lift 12 is suspended from the first horizontal rail 11c3 fixed to the upper end of the lifting mast 11c1. The chain is extended from the lowered electric chain block 12c1 to remove the sling from the lifting / lowering bracket 12c2. Then, the first horizontal rail 11c3 is moved together with the electric chain block 12c1 to the upper end portion of the descending mast 11c2. Further, the second horizontal rail 11c4 from which the manual chain block 12c4 is suspended is fixed to the upper end portion of the lifting mast 11c1 so as to be continuous with the transferred first horizontal rail 11c3.
[0087]
Next, the horizontal movement girder 12e is attached to both ends of the main body 12a so that the wheel 12e1 is positioned on the first horizontal rail 11c3. Then, after extending the chain from the manual chain block 12c4 and hanging it on the lifting / lowering bracket 12c2, the construction lift 12 is slightly lifted by winding the chain, and in this state, the fixing pin 11c5 of the lifting mast 11c1 is fixed to the fixing bracket 12c3. The fixing bracket 12c3 is pulled into the main body 12a. Thereafter, the chain of the manual chain block 12c4 is extended so that the load of the construction lift 12 is transmitted to the second horizontal rail 11c4 via the horizontal movement girder 12e. Further, in this state, the chain of the manual chain block 12c4 is removed from the lifting / lowering bracket 12c2, the manual chain block 12c4 is removed, and the lifting / lowering bracket 12c2 is rotated from the horizontal state to the vertical state. Note that the guide roller 12d is rotated from the vertical state to the horizontal state to remove contact with the raising mast 11c1.
[0088]
Next, the construction lift 12 is moved above the top of the chimney a by moving along the first horizontal rail 11c3 transferred from the second horizontal rail 11c4 by the horizontal movement girder 12e. In this state, the lifting / lowering bracket 12c2 is rotated from the vertical state to the horizontal state, and the chain of the electric chain block 12c1 is extended and slung to one end portion protruding toward the outside of the main body 12a. Then, the chain of the electric chain block 12c1 is wound up, the construction lift 12 is slightly raised, and the fixing bracket 12c3 is pulled out of the main body 12a in this state. The chain of the electric chain block 12c1 is extended so that the load of the construction lift 12 is transmitted to the lowering mast 11c2 via the fixing bracket 12c3. In this state, the fixing bracket 12c3 and the lowering mast 11c2 Is engaged with a fixing pin 11c5. Further, the chain of the electric chain block 12c1 is removed from the lifting / lowering bracket 12c2, and the guide roller 12d is rotated from the horizontal state to the vertical state so as to come into contact with the lowering mast 11c2, and then moved horizontally. The beam 12e and the second horizontal rail 11c4 are removed. (See FIG. 5, FIG. 6, FIG. 16, [7] in FIG. 10)
[0089]
[Demolition equipment installation process]
Next, the concrete breaker 12h, the rebar cutting machine 12i, the curing sheet 12j, etc. are suspended from the work rail 12g attached to the main body 12a of the construction lift 12 through a roller carrier. At this time, the suspended curing sheet 12j is laid from the outer end to the inner end of the bracket scaffold 11b, and the tip located at the inner end is fastened by the wire 12j1 and fixed to the chimney a. (See FIGS. 3 and 17, [8] to [10] in FIG. 10)
[0090]
[Chimney internal cleaning process]
Next, the gondola 12f is suspended from the main body 12a by a wire or the like. Then, the operator who gets on the gondola 12f operates the winch 12f1 to lower the gondola 12f inside the chimney a. Furthermore, the worker cleans the refractory bricks a1 disposed in the chimney a from the top to the bottom of the chimney a, and further fills with an embedding agent for solidifying and embedding dioxins and other harmful substances. To do. As a result, harmful substances are substantially removed and scattering around the harmful substances is prevented by being buried by the embedding agent. (See FIG. 9, [11] to [12] in FIG. 11)
[0091]
[Chimney disassembly process]
Next, after raising the gondola 12f by the winch 12f1, the worker disassembles the RC housing a2 of the chimney a downward from the bracket scaffold 11b to a predetermined height, for example, three layers. At this time, the refractory brick a1 is simultaneously demolished together with the RC housing a2 of the chimney a. In addition, the waste produced by dismantling the chimney a drops inside the chimney a and accumulates at the bottom. The accumulated glass forms an opening at the bottom of the chimney a, and is removed from the opening by a backhoe or the like. (See FIG. 3, [13] and [14] in FIG. 11)
[0092]
[Construction lift lowering process]
Next, when the chimney a is disassembled at a predetermined height downward, the chain is extended from the electric chain block 12c1, and the chain is hung on the lifting bracket 12c2 in the horizontal state. After confirming that the ball is securely hooked, the fixing pin 11c5 is removed from the fixing bracket 12c3, the chain is wound up by the electric chain block 12c1, and the fixing bracket 12c3 is pulled into the main body 12a. Thereafter, the chain of the electric chain block 12c1 is extended and the construction lift 12 is lowered. At this time, the construction lift 12 is smoothly raised along the lowering mast 11c2 by the guide roller 12d coming into contact with the lowering mast 11c2. The construction lift 12 lowered by a predetermined height is formed on the lowering mast 11c2 with the one end of the fixing bracket 12c3 projecting outward in the same manner as described above, and with respect to the hole formed in this one end. The fixed pin 11c5 is inserted and installed in a state in which the fall is prevented. Then, the lowering mast 11c2 and the scaffold 11 in the portion where the construction lift 12 is lowered are removed, and the crane is lifted to the ground by the crane 12b or transported to the ground by the temporary construction elevator 11d. In addition, the scaffold 11 which became unnecessary when the construction lift 12 descends is sequentially dismantled by an operator and suspended to the ground by the crane 12b. ([15] in FIG. 11)
[0093]
[Chimney disassembly process] and [construction lift lowering process] are repeated a predetermined number of times until the chimney a reaches a predetermined height from the ground. ([13] to [17] in FIG. 11)
[0094]
Next, a mobile crane (not shown) is installed, and the scaffold 11 is disassembled by this mobile crane. ([18] in FIG. 11)
[0095]
Next, the chimney remaining part is disassembled by a chimney disassembly dedicated machine (not shown). ([19] and [20] in FIG. 11)
[0096]
According to the present embodiment, the following effects can be obtained.
[0097]
<1> The scaffold 11 is assembled around the chimney a to be disassembled, and the construction lift 12 is lifted by the electric chain block 12c1 at the side of the chimney a, and further up to the top of the chimney a. Since it moves horizontally along the rail 11c3 and the second horizontal rail 11c4, it can be easily located above the top of the chimney a. Since the construction lift 12 is gradually lowered by the electric chain block 12c1 in a state of being located above the top of the chimney a, it is possible to continuously assist the worker with the work of dismantling the chimney a. Here, the scaffold 11 can be easily assembled around the chimney a standing on a relatively small site. That is, even when the chimney a is erected on a relatively small site, the chimney a can be disassembled while reducing the burden of dismantling work of the worker and increasing the efficiency.
[0098]
<2> Specifically, since the construction lift 12 is provided with dismantling means such as a concrete breaker 12h and a reinforcing bar cutting machine 12i, the worker can dismantle the chimney a using the dismantling means. It is possible to assist the worker in dismantling the chimney a. That is, the worker does not have to transport the dismantling means to the dismantling part of the chimney a. Therefore, the burden on the worker who performs the dismantling work of the chimney a can be reduced.
[0099]
<3> Further, since the construction lift 12 is provided with a crane 12b, the crane 12b is used to lift construction materials, dismantling equipment, etc. from the ground to the dismantling part or from the dismantling part to the ground. Can be.
[0100]
<4> In addition, since the curing sheet 12j covering the part of the scaffold 11 where the chimney a is to be dismantled is suspended from the periphery of the scaffold 11 in the construction lift 12, dust, harmful substances, etc. generated by the dismantling work Can be prevented from being scattered around.
[0101]
<5> In addition, a gondola 12f that moves up and down the chimney a is suspended from the construction lift 12. Thereby, before dismantling the chimney a, the inside of the chimney a is cleaned, and the work of filling the embedding agent for solidifying and embedding dioxins and other harmful substances is performed easily and reliably Can do.
[0102]
<6> Since the temporary elevator 11d for construction is provided in the scaffold 11, using this temporary elevator 11d for construction, construction materials, dismantling equipment, workers, etc. can be transported from the ground to the dismantling part or dismantled It can be transported from the section to the ground.
[0103]
<7> Since the scaffold 11 is the frame scaffold 11a and the bracket scaffold 11b that is fixed to the framework scaffold 11a by jumping toward the chimney a, the upper and lower diameters of the scaffold 11 are similar to those of the chimney a. In contrast, even when an interval is generated between the frame scaffold 11a and the chimney a, a place for the worker to perform the dismantling work can be easily secured by jumping out the bracket scaffold 11b at this interval.
[0104]
<8> Since the bracket scaffold 11b can adjust the jumping width, the width gradually changes from the upper part to the lower part like the chimney a, and the interval between the frame scaffold 11a and the chimney a gradually changes. Even in this case, it is possible to easily secure a place where the worker performs the dismantling work by jumping out the bracket scaffold 11b at this interval while adjusting the jumping width.
[0105]
<9> The lifting / lowering of the construction lift 12 is performed by the electric chain block 12 c 1 that suspends the construction lift 12. That is, the construction lift 12 can be raised and lowered with a relatively simple configuration, and maintenance and the like are facilitated.
[0106]
<10> At this time, since the fixing bracket 12c3 and the fixing pin 11c5 for preventing the construction lift 12 from falling are provided, the construction lift 12 is prevented from dropping and can be moved up and down stably. it can.
[0107]
<11> The construction lift 12 can be raised and lowered more stably while the guide roller 12d is guided by the rising mast 11c1 and the lowering mast 11c2. Further, the raising mast 11c1 and the lowering mast 11c2 to which the electric chain block 12c1 is fixed are erected adjacent to the scaffold 11 so that the construction lift 12 is raised and lowered. That is, the load of the construction lift 12 is borne by the ascending mast 11c1 and the descending mast 11c2 via the electric chain block 12c1. That is, since the load of the construction lift 12 is not borne by the scaffold 11 or the like, the scaffold 11 is not directly subjected to the vibration and impact of the construction lift 12 that is being raised and lowered. Therefore, the scaffold 11 can be erected stably.
[0108]
[Second Embodiment]
As shown in FIGS. 18 to 23, the present embodiment is also a method for disassembling the chimney a, and is a modification of the first embodiment. That is, this embodiment is similar to the first embodiment in many respects, but the dismantling device 20, the construction of the construction lift 22, the lifting method of the construction lift 22, and the horizontal of the construction lift 22. The moving method is slightly different. Conversely, as shown in FIG. 18, the configuration including the frame scaffold 21a, the bracket scaffold 21b, and the like is the same as in the first embodiment. Further, the main body 22a, crane 22b (lifting means), work rail 22g, concrete breaker 22h (dismantling means), reinforcing bar cutting machine 22i (dismantling means), curing sheet 22j, wire 22j1, etc. The configuration including a spraying device, illumination, a ventilation device, etc., not shown, is also the same as in the first embodiment.
[0109]
In the disassembling apparatus 20, a guide rail 21c (guide member) is fixed to the scaffold 21 by a dedicated metal fitting such as a clamp. Moreover, the lifting device 22c (lifting means) of the construction lift 22 is provided at both ends of the main body 22a. As shown in FIG. 19, the lifting device 22c includes an electric chain block 22c1 (winding device) fixed to the top of the guide rail 21c, a suspension ring 22c2 on which a chain extended from the electric chain block 22c1 is slung, and construction. A clamp 22c3 (falling prevention member) and the like for detachably fixing the lift 22 to the scaffold 21 are provided.
[0110]
The guide rail 21c is provided only in the vicinity of a portion of the scaffold 21 where the construction lift 22 moves up and down. The construction lift 22 is raised by winding the chain of the electric chain block 22c1, and the construction lift 22 is lowered by extending the chain of the electric chain block 22c1.
[0111]
The construction for horizontally moving the construction lift 22 raised at the side of the chimney a to the top of the chimney a is as follows. That is, as shown in FIG. 18, the horizontal movement girder 21 d formed in a substantially L shape is fixed to the top of the scaffold 21 so as to jump out toward the chimney a. A horizontal movement rail 21d1 (horizontal member) is fixed to the front end portion of the horizontal movement girder 21d in a direction substantially orthogonal to the protruding direction of the horizontal movement girder 21d. The construction lift 22 is horizontally movable via a roller carrier provided on the horizontal movement rail 21d1. The horizontal movement girder 21d and the horizontal movement rail 21d1 have predetermined rigidity and strength for hanging the construction lift 22.
[0112]
Hereinafter, the construction lift 22 according to the present embodiment is raised along the scaffold 21 at the side of the chimney a, and the construction lift 22 raised at the side of the chimney a is horizontally moved up to the top of the chimney a. A method of lowering the construction lift 22 to a state located above the top of the chimney a will be described.
[0113]
[Construction lift raising process]
In FIG. 20, the construction lift 22 is fixed to the scaffold 21 by the clamp 22c3 gripping the scaffold 21 slightly below the electric chain block 22c1 fixed to the upper end of the guide rail 21c. In this state, the chain extended from the electric chain block 22c1 is slung on the suspension ring 22c2 provided in the construction lift 22. (See Figure 19)
[0114]
First, as shown in FIG. 21, the scaffold 21 is assembled upward at a predetermined height. Next, as shown in FIG. 22, the guide rail 21 c is removed from the scaffold 21 while removing the sling from the chain 22 c 2 extending from the electric chain block 22 c 1. Next, the crane 12b lifts the guide rail 21c by the height of the newly assembled scaffold 21 and fixes it to the scaffold 21 again, and extends the chain from the electric chain block 22c1 and hangs it on the suspension ring 22c2. .
[0115]
Then, as shown in FIG. 23, the construction lift 22 is raised by winding the chain with the electric chain block 22c1. At this time, the construction lift 22 is smoothly raised along the guide rail 21c by the guide roller 22d. The lifted construction lift 22 is fixed to the scaffold 21 again by the clamp 22c3.
[0116]
The above-described operation is repeated a predetermined number of times to raise the construction lift 22 to the top of the chimney a. In addition, since the guide rail 21c can be sequentially moved and diverted, construction cost can be suppressed.
[0117]
[Construction lift horizontal movement process]
When the construction lift 22 reaches the top of the chimney a at the side of the chimney a, the horizontal movement girder 21d is fixed in a state of jumping toward the chimney a. The horizontal movement rail 21d1 is fixed to the tip of the horizontal movement beam 21d in a direction substantially orthogonal to the direction in which the horizontal movement beam 21d protrudes. The construction lift 22 is suspended from the horizontal movement rail 21d1 via a roller carrier so as to be horizontally movable. Thereafter, the construction lift 22, which is loosened from the scaffold 11 by loosening the clamp 22 c 3, is horizontally moved along the horizontal movement rail 21 d 1 to be positioned above the top of the chimney a. Then, the construction lift 12 is fixed to the scaffold 11 by gripping the scaffold 21 again by the clamp 22c3.
[0118]
[Construction lift lowering process]
When the chimney a is disassembled at a predetermined height downward, the guide rail 21 c is fixed to the scaffold 21 below the construction lift 22. And the clamp 22c3 is loosened, the construction lift 22 is disconnected from the scaffold 21, and the construction lift 22 is lowered along the guide rail 21c by gradually extending the chain from the electric chain block 21c1. Next, the guide rail 21c and the scaffold 21 at the part where the construction lift 22 is lowered are removed as appropriate, and suspended by the crane 22b or transported to the ground by the construction temporary elevator 11d.
[0119]
According to the present embodiment, in the first embodiment <2> ~ The following effects can be obtained as well as the effects substantially similar to those of <9>.
[0120]
<12> The scaffold 21 is assembled around the chimney a to be disassembled, and the construction lift 22 is lifted by the electric chain block 22c1 at the side of the chimney a, and further horizontally moved to the top of the chimney a. Since it moves horizontally along 21d1, it can be easily located above the top of the chimney a. And since the construction lift 12 is gradually lowered by the electric chain block 22c1 in a state of being located above the top of the chimney a, it is possible to continuously assist the dismantling work of the chimney a by the worker. Here, the scaffold 11 can be easily assembled around the chimney a standing on a relatively small site. That is, even when the chimney a is erected on a relatively small site, the chimney a can be disassembled while reducing the burden of dismantling work of the worker and increasing the efficiency.
[0121]
<13> At this time, the guide rail 21c for guiding the lifting and lowering of the construction lift 22 may be provided only in a portion where the lifting and lowering of the construction lift 22 is lifted up and down, and can be appropriately replaced and used. By using the guide rail 21c as appropriate, the usage amount of the guide rail 21c can be reduced to reduce the machine cost, and as a result, the construction cost can be reduced.
[0122]
<14> Further, the construction lift 12 can be stably supported with respect to the scaffold 21 by fixing the construction lift 12 to the scaffold 11 with the clamp 22c3.
[0123]
<15> The construction lift 22 can be moved up and down more stably while the guide roller 12d is guided by the guide rail 21c.
[0124]
[Third Embodiment]
As shown in FIGS. 24 to 26, the present embodiment is also a method for disassembling the chimney a, and is a modification of the first embodiment. That is, this embodiment is similar to the first embodiment in many respects, but the dismantling device 30, the construction lift 32, the lifting method of the construction lift 32, and the construction lift 32 horizontal. The moving method is slightly different. Conversely, as shown in FIG. 24, the configuration including the frame scaffold 31a, the bracket scaffold 31b, and the like is the same as in the first embodiment. Also, the main body 32a, crane 32b (lifting means), work rail 32g, concrete breaker 32h (dismantling means), reinforcing bar cutting machine 32i (dismantling means), curing sheet 32j, wire 32j1, etc. The configuration including a spraying device, illumination, a ventilation device, etc., not shown, is also the same as in the first embodiment.
[0125]
In the disassembling apparatus 30, as described above, the guide pillar 31c (guide member) and the rack 31d (elevating means) are fixed to the scaffold 31 with a dedicated metal fitting such as a clamp, for example. Further, the lifting device 32c (lifting means) of the construction lift 32 is provided at both ends of the main body 32a. The rack 31d has a lifting rack 31d1 for raising the construction lift 32 at the side of the chimney a, and a construction lift 32 for lowering the construction lift 32 in a state positioned above the top of the chimney a to be disassembled. The lowering rack 31d2 is connected to the raising rack 31d1 and the lowering rack 31d2, and is composed of a horizontal movement rack 31d3 for moving the construction lift 32 horizontally. As shown in FIG. 26, the lifting rack 31d1 and the lowering rack 31d2 are formed in a substantially linear shape, and the horizontal moving rack 31d3 is formed in a substantially U-shape, and the rising rack 31d1 and the lowering rack 31d2 are The top of the chimney a is connected by a horizontal movement rack 31d3. The ascending rack 31d1, the descending rack 31d2, and the horizontal moving rack 31d3 need only be provided in the part where the construction lift 32 is raised and lowered, and the part through which the construction lift 32 has passed is removed as appropriate. May be. The guide column 31c is a steel pipe, for example, and is fixed to the scaffold 31 by a clamp or the like.
[0126]
The lifting device 32c of the construction lift 32 is configured as follows. That is, as shown in FIGS. 25 and 26, the lifting device 32c is provided with a first rotating member 32c1 that is rotatably provided with respect to the main body 32a of the construction lift 32, and the first rotating member 32c1. A second rotating member 32c2 that is rotatably provided, a motor 32c3 (lifting / lowering means) fixed to the first rotating member 32c1, a guide roller 32c5 fixed to the second rotating member 32c2, and a motor It consists of a pinion 32c4 (elevating means, gear) and the like connected to 32c3. The first rotation member 32c1 can rotate about the rotation axis o1, and the second rotation member 32c2 can rotate about the rotation axis o2.
[0127]
In the following, the construction lift 32 according to the present embodiment is raised along the scaffold 31 at the side of the chimney a, and the construction lift 32 raised at the side of the chimney a is horizontally moved to above the top of the chimney a. And a method of lowering the construction lift 32 to a state located above the top of the chimney a will be described.
[0128]
[Construction lift raising process]
By driving the motor 32c3, the construction lift 32 is lifted along the lifting rack 31d1, and the lifted construction lift 32 is brought into a state in which the lift from the scaffold 31 is prevented by a stopper (not shown).
[0129]
[Construction lift horizontal movement process]
When the construction lift 32 rises at the side of the chimney a, one end of a substantially U-shaped horizontal movement rack 31d3 is connected to the upper end of the raising rack 31d1, and this U-shaped horizontal movement rack 31d3. The lowering rack 31d2 is connected to the other end of the lower part. Next, by moving the construction lift 32 from the ascending rack 31d1 along the horizontal movement rack 31d3, as shown in FIG. 26, the construction lift 32 is horizontally moved from the ascending u side to the descending d side. By doing so, the construction lift 32 is positioned above the top of the chimney a. At this time, as shown in FIG. 26, the first rotation member 32c1 rotates with respect to the main body 32a around the rotation axis o1, and the second rotation member 32c2 around the rotation axis o2. By rotating with respect to the first rotating member 32c1, the construction lift 32 can move from the lifting rack 31d1 to the lowering rack 31d2 via the horizontal moving rack 31d3. At this time, the main body 32a does not rotate.
[0130]
[Construction lift lowering process]
When the chimney a is disassembled at a predetermined height downward, the horizontal movement rack 31d2 is fixed to the scaffold 31 so as to extend downward, and the construction lift 32 is lowered along the extended lowering rack 31d2. And the scaffold 31 of the part by which the chimney a was disassembled is removed, and it is suspended to the ground with the crane 32b, or is transported to the ground by the temporary elevator 11d for construction.
[0131]
According to the present embodiment, the [first embodiment mobile phone] <2> ~ In addition to substantially the same effect as <8>, the following effects can be obtained.
[0132]
<16> The scaffold 31 is assembled around the chimney a to be disassembled, and the construction lift 32 is lifted at the side of the chimney a along the lifting rack 31d1 by the motor 32c3 to which the pinion 32c4 is coupled. Since it moves horizontally along the horizontal movement rack 31d3 up to the top of the chimney a, it can be easily positioned above the top of the chimney a. And since the construction lift 32 gradually descends along the descending rack 31d2 in a state located above the top of the chimney a, it is possible to continuously assist the dismantling operation of the chimney a by the worker. Here, the scaffold 31 can be easily assembled around the chimney a standing on a relatively small site. That is, even when the chimney a is erected on a relatively small site, the chimney a can be disassembled while reducing the burden of dismantling work of the worker and increasing the efficiency.
[0133]
<17> The lifting / lowering of the construction lift 32 is performed by a pinion 32c4 connected to a motor 32c3 provided to the construction lift 32 to a lifting rack 31d1, a lowering rack 31d2 and a horizontal movement rack 31d3 provided to the scaffold 31. Therefore, the construction lift 32 can be raised and lowered with high accuracy and stability.
[0134]
<18> Further, the construction lift 32 can be moved up and down more stably while the guide roller 32c5 is guided by the guide pillar 31c.
[0135]
Note that the present invention is not limited to the above-described embodiments, and can be arbitrarily changed without departing from the spirit of the present invention.
[0136]
For example, in each of the embodiments described above, the RC chimney a is disassembled. However, for example, it can be used for dismantling steel towers and other tower-like structures.
[0137]
Further, in each of the above-described embodiments, operations such as cleaning inside the chimney a and filling of the embedding agent are performed manually by an operator who gets on the gondola 12f suspended on the construction lift 12. ing. However, for example, a device for cleaning the inside of a chimney, embedding with an embedding agent, etc. can be suspended from a construction lift and this device can be operated remotely. This device includes, for example, a roller that comes into contact with the inside of the chimney a, a spray device that sprays an embedding material for solidifying and embedding harmful substances such as dioxins, and for cleaning the inside of the chimney. A spraying device for spraying water can be provided.
[0138]
【The invention's effect】
According to invention of Claim 1, the said lift for construction raises along the scaffold assembled around the tower-like structure disassembled by the raising / lowering means, The upper part of the tower-like structure is upper. Can be located. And according to the dismantling work of the tower-like structure by the worker, the raising and lowering means gradually descends to a state located above the top of the tower-like structure, thereby continuously assisting the dismantling work. it can. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
Further, according to the invention described in claim 1, the tower-like structure is obtained by horizontally moving the construction lift raised at the side of the tower-like structure along the horizontal member provided to the scaffold. Can be easily positioned above the top of the.
[0139]
According to the invention described in claim 2, the same effect as that of the invention described in claim 1 can be obtained, and the worker can dismantle the tower-like structure using the dismantling means. it can. That is, the worker does not need to transport the dismantling means to the dismantling part of the tower structure. Therefore, the burden on the worker who performs the dismantling work of the tower-like structure can be reduced.
[0140]
According to the invention described in claim 3, the same effects as those of the invention described in claim 1 or 2 can be obtained, and construction materials, demolition equipment, etc. Can be lifted from the dismantling part to the ground or suspended from the dismantling part to the ground.
[0141]
According to the invention described in claim 4, the same effect as that of the invention described in any one of claims 1 to 3 can be obtained, the construction material, Demolition equipment, workers, etc. can be transported from the ground to the dismantling part of the tower-like structure, or transported from the dismantling part to the ground.
[0142]
According to the invention described in claim 5, the same effect as that of the invention described in any one of claims 1 to 4 can be obtained. Even if the diameter differs between the frame scaffolding and the tower-like structure, it is possible to easily secure a place for the worker to perform the dismantling work by jumping out the bracket scaffolding at this interval. .
[0143]
According to the invention of claim 6, the same effect as that of the invention of claim 5 can be obtained, and the diameter of the tower-like structure gradually changes from the upper part to the lower part like a chimney. Even when the interval between the frame scaffold and the tower structure gradually changes, the bracket scaffold is jumped out at this interval while adjusting the jumping width, so that the place where the worker performs the dismantling work can be determined. Easy to secure.
[0144]
According to the invention described in claim 7, the same effects as those of the invention described in any one of claims 1 to 6 can be obtained, as well as dust and harmful substances generated by dismantling work by the curing sheet. It is possible to prevent scattering to the surroundings.
[0145]
According to the eighth aspect of the present invention, the chimney is disassembled by using the gondola as well as the same effect as the first aspect of the present invention. Prior to this, it is possible to easily and reliably perform operations such as cleaning the inside of the chimney and filling with an embedding agent for solidifying and embedding harmful substances such as dioxins.
[0146]
According to the ninth aspect of the present invention, it is possible to obtain the same effect as that of any one of the first to eighth aspects of the invention. Is prevented and can be moved up and down stably.
[0147]
According to the invention described in claim 10, the same effect as that of the invention described in any one of claims 1-9 can be obtained, and the guide roller of the construction lift has the guide. It is possible to move up and down more stably while being guided by the member.
[0148]
According to the eleventh aspect of the present invention, the same effects as those of the tenth aspect of the invention can be obtained, but the construction of the lifting means for lifting the construction lift is relatively simple. In addition, it is easy to maintain the lifting means.
[0149]
According to the twelfth aspect of the present invention, the same effect as that of the tenth aspect of the invention can be obtained, and the construction lift raised at the side portion of the tower-like structure is provided along the scaffold. By horizontally moving along the horizontal member provided with respect to the provided guide member, it can be easily positioned above the top of the tower-like structure.
[0150]
According to the invention described in claim 13, not only the same effect as that of the invention described in claim 10 can be obtained, but also the configuration of the lifting means for lifting the construction lift is accurate and stable. It can be a typical one.
[0151]
According to the fourteenth aspect of the present invention, the same effect as that of the thirteenth aspect of the invention can be obtained, and the construction lift extends along the rising rack at the side of the tower-like structure. Can rise. The construction lift that has risen to the top of the tower-like structure can be easily positioned above the top of the tower-like structure to be dismantled by moving horizontally along the horizontal movement rack. Further, the construction lift gradually descends along the lowering rack to a state located above the top of the tower structure to be demolished, thereby continuously assisting the operator to dismantle the tower structure. can do.
[0152]
According to the invention described in claim 15, the effect similar to that of the invention described in any one of claims 11-14 is obtained, and the winding device or the rack is the guide member. It is fixed against. Here, as described above, the guide member only needs to be provided at a portion where the construction lift is raised and lowered, and appropriately reordered along the raising and lowering direction of the construction lift in order to reduce the amount of use or the like. Can be used. Also, as described above, the winding device and the rack need only be provided at the portion where the construction lift is raised and lowered, and in order to ensure stability and reduce the amount of use, the construction lift can be moved up and down. It can be used by changing the order as appropriate. That is, when raising and lowering the construction lift, the guide member refilling operation for reducing the amount of the guide member and the rack used and ensuring the stability of the winding device, It is possible to improve workability by simultaneously performing the rack replacement work.
[0153]
According to the invention described in claim 16, the effect similar to that of the invention described in claim 15 is obtained, and the guide member to which the winding device and the rack are fixed is attached to the scaffold. It is a mast that is erected adjacent to and lifts the construction lift. That is, the load of the construction lift is borne by the mast via the winding device and the rack. In other words, since the load of the construction lift is not borne by the scaffold or the like, the scaffold is not directly subjected to the vibration or impact of the construction lift that is being lifted or lowered. Therefore, the scaffold can be erected stably.
[0154]
According to the invention described in claim 17, a scaffold is assembled around the tower structure to be dismantled, and the construction lift is lifted by a side of the tower structure by the winding device, Since it moves horizontally along the horizontal member up to the top of the tower-like structure, it can be easily located above the top of the tower-like structure. And since the said construction lift descends gradually by the said winding device in the state located in the upper part top part of a tower-like structure, it can assist the dismantling operation | work of the tower-like structure by an operator continuously. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
[0155]
According to the invention described in claim 18, a scaffold is assembled around the tower structure to be dismantled, and the construction lift rises at the side of the tower structure along the lifting rack. Furthermore, it can be easily positioned above the top of the tower-like structure by horizontally moving along the horizontal movement rack to above the top of the tower-like structure. The construction lift is continuously lowered along the lowering rack in a state located above the top of the tower-like structure, thereby continuously assisting the dismantling work of the tower-like structure by an operator. Can do. Here, the scaffold can be easily assembled around a tower-like structure standing on a relatively small site. That is, even when the tower-like structure is erected on a relatively narrow site, the tower-like structure can be dismantled while reducing the burden of dismantling work by workers and increasing the efficiency.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing an overall configuration of a disassembling apparatus according to the present invention in [First Embodiment].
FIG. 2 is a plan view showing an entire configuration of a disassembling apparatus according to the present invention in [First Embodiment].
FIG. 3 is a side sectional view showing a state in which a chimney is being disassembled by the disassembling apparatus according to the present invention in [first embodiment].
FIG. 4 is a cross-sectional plan view showing a scaffold, a mast, and a construction lift according to the present invention in [First Embodiment].
FIG. 5 shows a situation in which the construction lift is horizontally moved using the ascending-side horizontal movement rail, the descending-side horizontal movement rail, the horizontal movement girder, etc. according to the present invention in the first embodiment. FIG.
FIG. 6 shows that the construction lift is moved horizontally using the ascending-side horizontal movement rail (downward-side horizontal movement rail), the horizontal movement girder, etc. according to the first embodiment. The situation is shown, (a) is a plan sectional view, and (b) is a side sectional view.
FIG. 7 shows a state in which the construction lift is fixed to the raising mast (lowering mast) using the fixing bracket according to the first embodiment, (a) is a side sectional view. (B) is a plane sectional view.
FIG. 8 is a side sectional view showing a lifting bracket, a fixing bracket and the like according to the present invention in [first embodiment], and (b) is a mast for raising (lowering) by rotating the fixing bracket. It is a plane sectional view showing the state engaged with the fixed pin provided in the mast.
FIG. 9 is a side sectional view showing a state in which a gondola according to the present invention is suspended inside a chimney in [first embodiment].
FIG. 10 is a flow chart showing a chimney demolition process (pre-demolition process) by the demolition apparatus according to the present invention in [First Embodiment].
FIG. 11 is a flow chart showing a chimney dismantling process (dismantling work main process) by the dismantling apparatus according to the present invention in [first embodiment].
FIGS. 12A and 12B show a state in which the construction lift according to the present invention is lifted while assembling a scaffold and a lifting mast in the first embodiment. FIG.
FIG. 13 is a side sectional view showing a state in which the construction lift according to the present invention is lifted while assembling the scaffolding and the lifting mast in the first embodiment.
FIG. 14 is a side sectional view showing a state where the construction lift according to the present invention is raised while assembling a scaffold and a lifting mast in [First Embodiment].
FIG. 15 is a side sectional view showing a state in which the construction lift according to the present invention has reached the top of the chimney in [first embodiment].
FIG. 16 is a side sectional view showing a state in which the construction lift according to the present invention is horizontally moved to above the top of the chimney in [First Embodiment].
FIG. 17 is a side sectional view showing a state in which a concrete breaker, a rebar cutting machine, and the like are suspended from a construction lift according to the present invention in [First Embodiment].
FIG. 18 is a side sectional view showing a situation in which a chimney is dismantled by the dismantling device according to the present invention and a lifting device of the dismantling device in [Second Embodiment].
FIGS. 19A and 19B show a lifting apparatus for a disassembling apparatus according to the present invention, in which FIG. 19A is a side sectional view and FIG. 19B is a plan sectional view.
FIG. 20 is a side sectional view showing a state in which the construction lift according to the present invention is raised while assembling the scaffold in [Second Embodiment].
FIG. 21 is a side sectional view showing a state where the construction lift according to the present invention is raised while assembling a scaffold in [Second Embodiment].
FIG. 22 is a side sectional view showing a state in which the construction lift according to the present invention is raised while assembling the scaffold in [Second Embodiment].
FIG. 23 is a side sectional view showing a state where the construction lift according to the present invention is raised while assembling a scaffold in [Second Embodiment].
FIG. 24 is a side sectional view showing a situation in which the chimney is dismantled by the dismantling device according to the present invention and a lifting device of the dismantling device in [Third Embodiment].
FIGS. 25A and 25B show a lifting apparatus for a disassembling apparatus according to the present invention in a third embodiment, wherein FIG. 25A is a side sectional view and FIG. 25B is a plan sectional view.
FIG. 26 is a schematic side view showing a state in which the construction lift according to the present invention is moved from the ascending path side to the descending path side in [Third Embodiment].
[Explanation of symbols]
10 Demolition device
11 Scaffolding
11a framework scaffold
11b Bracket scaffold
11c Mast (guide member)
11c1 Ascending mast
11c2 descending mast
11c3 First horizontal rail (horizontal member)
11c4 Second horizontal rail (horizontal member)
11c5 Fixing pin (Fall prevention member)
11d Temporary elevator for construction
12 Construction lift
12b Crane (lifting means)
12c Lifting device (lifting means)
12c1 Electric chain block (winding device)
12c2 lifting bracket
12c3 Fixed bracket (fall prevention member)
12d guide roller
12f gondola
12h Concrete crusher (dismantling means)
12i Rebar cutting machine (dismantling means)
12j Curing sheet
20 Demolition device
21 Scaffold
21a framework scaffold
21b Bracket scaffold
21c Guide rail (guide member)
21d1 Horizontal movement rail (horizontal member)
22 Construction lift
22b Crane (lifting means)
22c Lifting device (lifting means)
22c1 Electric chain block (winding device)
22c2 suspension ring
22c3 clamp (fall prevention member)
22d guide roller
22h Concrete crusher (dismantling means)
22i Rebar cutting machine (dismantling means)
22j Curing sheet
30 Demolition device
31 Scaffolding
31a framework scaffold
31b Bracket scaffold
31c Guide pillar (guide member)
31d rack (lifting means)
31d1 lifting rack
31d2 descending rack
31d3 Horizontal movement rack
32 Construction lift
32b Crane (lifting means)
32c Lifting device (lifting means)
32c3 motor (lifting means)
32c4 pinion (gear, lifting means)
32c5 guide roller
32h Concrete crusher (dismantling means)
32i rebar cutting machine (dismantling means)
32j Curing sheet

Claims (18)

A scaffold assembled around the tower structure to be demolished;
A lifting means for raising and lowering the scaffold, and a construction lift provided in a state located above the top of the tower-like structure,
A tower-like structure comprising a horizontal member provided for the scaffold and horizontally moving the lift for construction raised at the side of the tower-like structure to above the top of the tower-like structure. Demolition device. 2. The tower-like structure dismantling apparatus according to claim 1, wherein dismantling means is provided in the construction lift. The tower-like structure dismantling apparatus according to claim 1 or 2, wherein the construction lift is provided with lifting means. The tower-like structure dismantling apparatus according to any one of claims 1 to 3, wherein a temporary elevator for construction is provided on the scaffold. The said scaffold is a frame scaffold, and the bracket scaffold which jumps out toward a tower-like structure with respect to this framework scaffold, It is characterized by the above-mentioned. Tower dismantling device. 6. The tower-like structure dismantling apparatus according to claim 5, wherein the bracket scaffold is adjustable in a jumping width. A curing sheet that covers the vicinity of the dismantling part of the tower-like structure from the periphery of the scaffold is suspended from the construction lift. Dismantling equipment for tower structures. The tower-like structure is a chimney,
The tower-like structure dismantling apparatus according to any one of claims 1 to 7, wherein a gondola for raising and lowering the inside of the chimney is suspended from the construction lift. The tower-like structure dismantling apparatus according to any one of claims 1 to 8, further comprising a fall prevention member for preventing the construction lift from falling. A guide member is provided along the scaffold,
The tower-like structure dismantling apparatus according to any one of claims 1 to 9, wherein the construction lift is provided with a guide roller guided by the guide member. The tower-like structure dismantling apparatus according to claim 10, wherein the elevating means is a string-like member for suspending the construction lift and a winding device for winding the string-like member. .   The tower-like structure dismantling apparatus according to claim 10, wherein the horizontal member is provided with respect to the guide member. 11. The lifting means includes a rack provided along the scaffold, a motor provided for the construction lift, and a gear connected to the motor and meshing with the rack. The dismantling apparatus of the tower-like structure as described in 2. The rack includes a lifting rack for lifting the construction lift at the side of the tower-like structure, and a lowering for gradually lowering the construction lift to a position above the top of the tower-like structure. A horizontal movement rack for connecting the construction rack, the raising rack and the lowering rack, and horizontally moving the construction lift raised at the side of the tower-like structure to above the top of the tower-like structure. The tower-like structure dismantling apparatus according to claim 13, wherein: The tower-like structure dismantling apparatus according to any one of claims 11 to 14, wherein the winding device or the rack is fixed to the guide member. 16. The tower-like structure dismantling apparatus according to claim 15, wherein the guide member is a mast that is erected adjacent to the scaffold and for the construction lift to move up and down. A tower-like structure dismantling method using the tower-like structure dismantling apparatus according to claim 1 or 12,
Assembling a scaffold around the tower structure, and raising the construction lift by the winding device at the side of the tower structure,
Next, the construction lift is moved horizontally along the horizontal member up to the top of the tower-like structure,
Next, the tower-like structure dismantling method is characterized in that the tower-like structure is dismantled while the construction lift is gradually lowered by the winding device in a state located above the top of the tower-like structure. . A tower-like structure dismantling method using the tower-like structure dismantling apparatus according to claim 14,
Assembling a scaffold around the tower structure and raising the construction lift along the lifting rack at the side of the tower structure,
Next, the construction lift is moved horizontally along the horizontal movement rack to above the top of the tower-like structure,
Next, the tower-like structure is disassembled while the construction lift is gradually lowered along the lowering rack in a state located above the top of the tower-like structure. Dismantling method.

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